Added Web based RDP support with NLA, #3867 and #3914

This commit is contained in:
Ylian Saint-Hilaire 2022-04-29 11:13:58 -07:00
parent f88d3063fe
commit db06ec1975
37 changed files with 28174 additions and 44 deletions

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@ -182,6 +182,37 @@
<Compile Include="public\novnc\vendor\promise.js" /> <Compile Include="public\novnc\vendor\promise.js" />
<Compile Include="public\scripts\agent-redir-rtc-0.1.0.js" /> <Compile Include="public\scripts\agent-redir-rtc-0.1.0.js" />
<Compile Include="public\serviceworker.js" /> <Compile Include="public\serviceworker.js" />
<Compile Include="rdp\asn1\ber.js" />
<Compile Include="rdp\asn1\index.js" />
<Compile Include="rdp\asn1\spec.js" />
<Compile Include="rdp\asn1\univ.js" />
<Compile Include="rdp\core\error.js" />
<Compile Include="rdp\core\index.js" />
<Compile Include="rdp\core\layer.js" />
<Compile Include="rdp\core\log.js" />
<Compile Include="rdp\core\rle.js" />
<Compile Include="rdp\core\type.js" />
<Compile Include="rdp\index.js" />
<Compile Include="rdp\protocol\cert.js" />
<Compile Include="rdp\protocol\index.js" />
<Compile Include="rdp\protocol\nla.js" />
<Compile Include="rdp\protocol\pdu\caps.js" />
<Compile Include="rdp\protocol\pdu\data.js" />
<Compile Include="rdp\protocol\pdu\global.js" />
<Compile Include="rdp\protocol\pdu\index.js" />
<Compile Include="rdp\protocol\pdu\lic.js" />
<Compile Include="rdp\protocol\pdu\sec.js" />
<Compile Include="rdp\protocol\rdp.js" />
<Compile Include="rdp\protocol\t125\gcc.js" />
<Compile Include="rdp\protocol\t125\index.js" />
<Compile Include="rdp\protocol\t125\mcs.js" />
<Compile Include="rdp\protocol\t125\per.js" />
<Compile Include="rdp\protocol\tpkt.js" />
<Compile Include="rdp\protocol\x224.js" />
<Compile Include="rdp\security\index.js" />
<Compile Include="rdp\security\jsbn.js" />
<Compile Include="rdp\security\rsa.js" />
<Compile Include="rdp\security\x509.js" />
<Compile Include="swarmserver.js" /> <Compile Include="swarmserver.js" />
<Compile Include="multiserver.js" /> <Compile Include="multiserver.js" />
<Compile Include="pass.js" /> <Compile Include="pass.js" />
@ -550,6 +581,8 @@
<Content Include="public\styles\style.css" /> <Content Include="public\styles\style.css" />
<Content Include="public\translate.bat" /> <Content Include="public\translate.bat" />
<Content Include="public\translator.htm" /> <Content Include="public\translator.htm" />
<Content Include="rdp\LICENSE" />
<Content Include="rdp\README.md" />
<Content Include="readme.md" /> <Content Include="readme.md" />
<Content Include="sample-config-advanced.json" /> <Content Include="sample-config-advanced.json" />
<Content Include="sample-config.json" /> <Content Include="sample-config.json" />
@ -624,6 +657,13 @@
<Folder Include="public\styles\font-awesome\fonts\" /> <Folder Include="public\styles\font-awesome\fonts\" />
<Folder Include="public\styles\font-awesome\less\" /> <Folder Include="public\styles\font-awesome\less\" />
<Folder Include="public\styles\font-awesome\scss\" /> <Folder Include="public\styles\font-awesome\scss\" />
<Folder Include="rdp\" />
<Folder Include="rdp\asn1\" />
<Folder Include="rdp\core\" />
<Folder Include="rdp\protocol\" />
<Folder Include="rdp\protocol\pdu\" />
<Folder Include="rdp\protocol\t125\" />
<Folder Include="rdp\security\" />
<Folder Include="translate\" /> <Folder Include="translate\" />
<Folder Include="typings\" /> <Folder Include="typings\" />
<Folder Include="typings\globals\" /> <Folder Include="typings\globals\" />

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@ -129,8 +129,9 @@ module.exports.CreateMstscRelay = function (parent, db, ws, req, args, domain) {
function startRdp(port) { function startRdp(port) {
parent.parent.debug('relay', 'RDP: Starting RDP client on loopback port ' + port); parent.parent.debug('relay', 'RDP: Starting RDP client on loopback port ' + port);
try { try {
rdpClient = require('node-rdpjs-2').createClient({ //rdpClient = require('node-rdpjs-2').createClient({
logLevel: 'ERROR', rdpClient = require('./rdp').createClient({
logLevel: 'NONE', // 'ERROR',
domain: obj.infos.domain, domain: obj.infos.domain,
userName: obj.infos.username, userName: obj.infos.username,
password: obj.infos.password, password: obj.infos.password,

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@ -3478,13 +3478,16 @@ function mainStart() {
const verSplit = process.version.substring(1).split('.'); const verSplit = process.version.substring(1).split('.');
var nodeVersion = parseInt(verSplit[0]) + (parseInt(verSplit[1]) / 100); var nodeVersion = parseInt(verSplit[0]) + (parseInt(verSplit[1]) / 100);
// Check if RDP support if present
var mstsc = true;
try { require('./rdp') } catch (ex) { mstsc = false; }
// Check if Windows SSPI, LDAP, Passport and YubiKey OTP will be used // Check if Windows SSPI, LDAP, Passport and YubiKey OTP will be used
var sspi = false; var sspi = false;
var ldap = false; var ldap = false;
var passport = null; var passport = null;
var allsspi = true; var allsspi = true;
var yubikey = false; var yubikey = false;
var mstsc = false;
var ssh = false; var ssh = false;
var sessionRecording = false; var sessionRecording = false;
var domainCount = 0; var domainCount = 0;
@ -3499,7 +3502,7 @@ function mainStart() {
if (config.domains[i].sendgrid != null) { sendgrid = true; } if (config.domains[i].sendgrid != null) { sendgrid = true; }
if (config.domains[i].yubikey != null) { yubikey = true; } if (config.domains[i].yubikey != null) { yubikey = true; }
if (config.domains[i].auth == 'ldap') { ldap = true; } if (config.domains[i].auth == 'ldap') { ldap = true; }
if (config.domains[i].mstsc == true) { mstsc = true; } if (mstsc == false) { config.domains[i].mstsc = false; }
if (config.domains[i].ssh == true) { if (nodeVersion < 11) { config.domains[i].ssh = false; } ssh = true; } if (config.domains[i].ssh == true) { if (nodeVersion < 11) { config.domains[i].ssh = false; } ssh = true; }
if ((typeof config.domains[i].authstrategies == 'object')) { if ((typeof config.domains[i].authstrategies == 'object')) {
if (passport == null) { passport = ['passport']; } if (passport == null) { passport = ['passport']; }
@ -3519,7 +3522,6 @@ function mainStart() {
var modules = ['ws@5.2.3', 'cbor@5.2.0', '@yetzt/nedb', 'https', 'yauzl', 'ipcheck', 'express', 'archiver@4.0.2', 'multiparty', 'node-forge', 'express-ws@4.0.0', 'compression', 'body-parser', 'cookie-session@1.4.0', 'express-handlebars']; var modules = ['ws@5.2.3', 'cbor@5.2.0', '@yetzt/nedb', 'https', 'yauzl', 'ipcheck', 'express', 'archiver@4.0.2', 'multiparty', 'node-forge', 'express-ws@4.0.0', 'compression', 'body-parser', 'cookie-session@1.4.0', 'express-handlebars'];
if (require('os').platform() == 'win32') { modules.push('node-windows@0.1.4'); modules.push('loadavg-windows'); if (sspi == true) { modules.push('node-sspi'); } } // Add Windows modules if (require('os').platform() == 'win32') { modules.push('node-windows@0.1.4'); modules.push('loadavg-windows'); if (sspi == true) { modules.push('node-sspi'); } } // Add Windows modules
if (ldap == true) { modules.push('ldapauth-fork'); } if (ldap == true) { modules.push('ldapauth-fork'); }
if (mstsc == true) { modules.push('node-rdpjs-2'); }
if (ssh == true) { if (nodeVersion < 11) { addServerWarning('MeshCentral SSH support requires NodeJS 11 or higher.', 1); } else { modules.push('ssh2'); } } if (ssh == true) { if (nodeVersion < 11) { addServerWarning('MeshCentral SSH support requires NodeJS 11 or higher.', 1); } else { modules.push('ssh2'); } }
if (passport != null) { modules.push(...passport); } if (passport != null) { modules.push(...passport); }
if (sessionRecording == true) { modules.push('image-size'); } // Need to get the remote desktop JPEG sizes to index the recodring file. if (sessionRecording == true) { modules.push('image-size'); } // Need to get the remote desktop JPEG sizes to index the recodring file.

674
rdp/LICENSE Normal file
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@ -0,0 +1,674 @@
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rights granted or affirmed under this License. For example, you may
not impose a license fee, royalty, or other charge for exercise of
rights granted under this License, and you may not initiate litigation
(including a cross-claim or counterclaim in a lawsuit) alleging that
any patent claim is infringed by making, using, selling, offering for
sale, or importing the Program or any portion of it.
11. Patents.
A "contributor" is a copyright holder who authorizes use under this
License of the Program or a work on which the Program is based. The
work thus licensed is called the contributor's "contributor version".
A contributor's "essential patent claims" are all patent claims
owned or controlled by the contributor, whether already acquired or
hereafter acquired, that would be infringed by some manner, permitted
by this License, of making, using, or selling its contributor version,
but do not include claims that would be infringed only as a
consequence of further modification of the contributor version. For
purposes of this definition, "control" includes the right to grant
patent sublicenses in a manner consistent with the requirements of
this License.
Each contributor grants you a non-exclusive, worldwide, royalty-free
patent license under the contributor's essential patent claims, to
make, use, sell, offer for sale, import and otherwise run, modify and
propagate the contents of its contributor version.
In the following three paragraphs, a "patent license" is any express
agreement or commitment, however denominated, not to enforce a patent
(such as an express permission to practice a patent or covenant not to
sue for patent infringement). To "grant" such a patent license to a
party means to make such an agreement or commitment not to enforce a
patent against the party.
If you convey a covered work, knowingly relying on a patent license,
and the Corresponding Source of the work is not available for anyone
to copy, free of charge and under the terms of this License, through a
publicly available network server or other readily accessible means,
then you must either (1) cause the Corresponding Source to be so
available, or (2) arrange to deprive yourself of the benefit of the
patent license for this particular work, or (3) arrange, in a manner
consistent with the requirements of this License, to extend the patent
license to downstream recipients. "Knowingly relying" means you have
actual knowledge that, but for the patent license, your conveying the
covered work in a country, or your recipient's use of the covered work
in a country, would infringe one or more identifiable patents in that
country that you have reason to believe are valid.
If, pursuant to or in connection with a single transaction or
arrangement, you convey, or propagate by procuring conveyance of, a
covered work, and grant a patent license to some of the parties
receiving the covered work authorizing them to use, propagate, modify
or convey a specific copy of the covered work, then the patent license
you grant is automatically extended to all recipients of the covered
work and works based on it.
A patent license is "discriminatory" if it does not include within
the scope of its coverage, prohibits the exercise of, or is
conditioned on the non-exercise of one or more of the rights that are
specifically granted under this License. You may not convey a covered
work if you are a party to an arrangement with a third party that is
in the business of distributing software, under which you make payment
to the third party based on the extent of your activity of conveying
the work, and under which the third party grants, to any of the
parties who would receive the covered work from you, a discriminatory
patent license (a) in connection with copies of the covered work
conveyed by you (or copies made from those copies), or (b) primarily
for and in connection with specific products or compilations that
contain the covered work, unless you entered into that arrangement,
or that patent license was granted, prior to 28 March 2007.
Nothing in this License shall be construed as excluding or limiting
any implied license or other defenses to infringement that may
otherwise be available to you under applicable patent law.
12. No Surrender of Others' Freedom.
If conditions are imposed on you (whether by court order, agreement or
otherwise) that contradict the conditions of this License, they do not
excuse you from the conditions of this License. If you cannot convey a
covered work so as to satisfy simultaneously your obligations under this
License and any other pertinent obligations, then as a consequence you may
not convey it at all. For example, if you agree to terms that obligate you
to collect a royalty for further conveying from those to whom you convey
the Program, the only way you could satisfy both those terms and this
License would be to refrain entirely from conveying the Program.
13. Use with the GNU Affero General Public License.
Notwithstanding any other provision of this License, you have
permission to link or combine any covered work with a work licensed
under version 3 of the GNU Affero General Public License into a single
combined work, and to convey the resulting work. The terms of this
License will continue to apply to the part which is the covered work,
but the special requirements of the GNU Affero General Public License,
section 13, concerning interaction through a network will apply to the
combination as such.
14. Revised Versions of this License.
The Free Software Foundation may publish revised and/or new versions of
the GNU General Public License from time to time. Such new versions will
be similar in spirit to the present version, but may differ in detail to
address new problems or concerns.
Each version is given a distinguishing version number. If the
Program specifies that a certain numbered version of the GNU General
Public License "or any later version" applies to it, you have the
option of following the terms and conditions either of that numbered
version or of any later version published by the Free Software
Foundation. If the Program does not specify a version number of the
GNU General Public License, you may choose any version ever published
by the Free Software Foundation.
If the Program specifies that a proxy can decide which future
versions of the GNU General Public License can be used, that proxy's
public statement of acceptance of a version permanently authorizes you
to choose that version for the Program.
Later license versions may give you additional or different
permissions. However, no additional obligations are imposed on any
author or copyright holder as a result of your choosing to follow a
later version.
15. Disclaimer of Warranty.
THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
16. Limitation of Liability.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
{one line to give the program's name and a brief idea of what it does.}
Copyright (C) {year} {name of author}
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
{project} Copyright (C) {year} {fullname}
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.

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node-rdpjs
==========
This folder contains a fork of the node-rdpjs2 package which is identical to [node-rdpjs](github.com/citronneur/node-rdpjs) v0.2.1 but just updated for
latest versions of Node along with more modifications to remove dependencies and more importantly, added support for Network Layer Authentication (NLA).
NLA support was ported from [RDP-RS](https://github.com/citronneur/rdp-rs) which is a Rust RDP solution by the same author as node-rdpjs.
The license for node-rdpjs is GPL 3.0 and is limited the the "rdp" folder. If this is a concern, you can delete the "rdp" folder and MeshCentral will
still work perfectly without RDP functionality.

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../core').type;
var log = require('../core').log;
var error = require('../core').error;
/**
* Parse tag(T) field of BER TLV
* And check with expected tag
* @param s {type.Stream}
* @param tag {spec.tag}
* @returns {Boolean} True for valid tag matching
*/
function decodeTag(s, tag) {
var nextTag = new type.UInt8().read(s).value;
if (tag.tagNumber > 30) {
nextTagNumber = new type.UInt8().read(s).value;
}
else {
nextTagNumber = nextTag & 0x1F;
}
return ((nextTag & 0xE0) === (tag.tagClass | tag.tagFormat)) && (nextTagNumber === tag.tagNumber);
};
/**
* Parse length(L) field of BER TLV
* @param s {type.Stream}
* @returns {integer}
*/
function decodeLength(s) {
var size = new type.UInt8().read(s).value;
if(size & 0x80) {
size &= ~0x80;
if(size === 1) {
size = new type.UInt8().read(s).value;
}
else if(size === 2) {
size = new type.UInt16Be().read(s).value;
}
else{
throw new error.ProtocolError('NODE_RDP_ASN1_BER_INVALID_LENGTH');
}
}
return size;
};
/**
* Decode tuple TLV (Tag Length Value) of BER
* @param s {type.Stream}
* @param tag {spec.Asn1Tag} expected tag
* @returns {type.BinaryString} Value of tuple
*/
function decode(s, tag) {
if (!decodeTag(s, tag)) {
throw new error.ProtocolError('NODE_RDP_ASN1_BER_INVALID_TAG');
}
var length = decodeLength(s);
if (length === 0) {
return new type.Stream(0);
}
return new type.BinaryString(null,{ readLength : new type.CallableValue(length) }).read(s);
};
function encodeTag(tag) {
if(tag.tagNumber > 30) {
return new type.Component([new type.UInt8(tag.tagClass | tag.tagFormat | 0x1F), new type.UInt8(tag.tagNumber)]);
}
else {
return new type.UInt8((tag.tagClass | tag.tagFormat) | (tag.tagNumber & 0x1F));
}
}
function encodeLength(length) {
if(length > 0x7f) {
return new type.Component([new type.UInt8(0x82), new type.UInt16Be(length)]);
}
else {
return new type.UInt8(length);
}
}
function encode(tag, buffer) {
return new type.Component([encodeTag(tag), encodeLength(buffer.size()), buffer]);
}
/**
* Module Export
*/
module.exports = {
decode : decode,
encode : encode
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var ber = require('./ber');
var univ = require('./univ');
var spec = require('./spec');
module.exports = {
ber : ber,
univ : univ,
spec : spec
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var type = require('../core').type;
var error = require('../core').error;
/**
* Tag Class
*/
var TagClass = {
Universal : 0x00,
Application : 0x40,
Context : 0x80,
Private : 0xC0
};
/**
* Tag Format
*/
var TagFormat = {
Primitive : 0x00,
Constructed : 0x20
};
/**
* ASN.1 tag
* @param tagClass {TagClass}
* @param tagFormat {TagFormat}
* @param tagNumber {integer}
*/
function Asn1Tag(tagClass, tagFormat, tagNumber) {
this.tagClass = tagClass;
this.tagFormat = tagFormat;
this.tagNumber = tagNumber;
}
/**
* ASN.1 Specification
* @param tag {Asn1Tag}
*/
function Asn1Spec(tag) {
this.tag = tag;
this.opt = false;
}
/**
* Add an implicit tag
* override tag
* @param tag {Asn1Tag}
* @returns {Asn1Spec}
*/
Asn1Spec.prototype.implicitTag = function(tag) {
this.tag = tag;
return this;
};
/**
* Set optional to true
* @returns {Asn1Spec}
*/
Asn1Spec.prototype.optional = function() {
this.opt = true;
return this;
};
/**
* Add explicit tag
* Append new tag header to existing tag
* @param tag {Asn1Tag}
* @returns {Asn1SpecExplicitTag}
*/
Asn1Spec.prototype.explicitTag = function(tag) {
return new Asn1SpecExplicitTag(tag, this);
};
/**
* Decode must be implemented by all sub type
* @param s {type.Stream}
* @param decoder
*/
Asn1Spec.prototype.decode = function(s, decoder) {
throw new error.FatalError('NODE_RDP_AS1_SPEC_DECODE_NOT_IMPLEMENTED');
};
/**
* Encode must be implemented by all sub type
* @param decoder
*/
Asn1Spec.prototype.encode = function(encoder) {
throw new error.FatalError('NODE_RDP_AS1_SPEC_ENCODE_NOT_IMPLEMENTED');
};
/**
* Component Asn1Spec object
*/
function Asn1SpecExplicitTag(tag, spec) {
Asn1Spec.call(this, tag);
this.spec = spec;
}
inherits(Asn1SpecExplicitTag, Asn1Spec);
/**
* Decode first header
* @param s {type.Stream}
* @param decoder
*/
Asn1Spec.prototype.decode = function(s, decoder) {
var specStream = new type.Stream(decoder.decode(s, this.tag).value);
this.spec.decode(specStream, decoder);
};
/**
* Module exports
*/
module.exports = {
TagClass : TagClass,
TagFormat : TagFormat,
Asn1Tag : Asn1Tag,
Asn1Spec : Asn1Spec,
Asn1SpecExplicitTag : Asn1SpecExplicitTag
};

606
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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var spec = require('./spec');
var type = require('../core').type;
var error = require('../core').error;
var inherits = require('util').inherits;
/**
* ASN.1 Universal tags
* @see http://www.obj-sys.com/asn1tutorial/node124.html
*/
var UniversalTag = {
Boolean : 1,
Integer : 2,
BitString : 3,
OctetString : 4,
Null : 5,
ObjectIdentifier : 6,
ObjectDescriptor : 7,
Enumerate : 10,
UTF8String : 12,
Sequence : 16,
Set : 17,
PrintableString : 19,
T61String : 20,
IA5String : 22,
UTCTime : 23,
GeneralizedTime : 24,
UniversalString : 28,
BMPString : 30
};
/**
* Boolean type
* @param value {boolean} inner value
*/
function Boolean(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.Boolean));
this.value = value || false;
}
inherits(Boolean, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Boolean}
*/
Boolean.prototype.decode = function(s, decoder) {
this.value = new type.UInt8().read(new type.Stream(decoder.decode(s, this.tag).value)).value !== 0;
return this;
};
/**
* @param decoder {ber.decoder}
* @returns {type.*}
*/
Boolean.prototype.encode = function(encoder) {
if(this.value) {
return encoder.encode(this.tag, new type.UInt8(0xff));
}
else {
return encoder.encode(this.tag, new type.UInt8(0));
}
};
/**
* Integer type
* @param value {integer | Buffer}
*/
function Integer(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.Integer));
this.value = value || 0;
}
inherits(Integer, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Integer}
*/
Integer.prototype.decode = function(s, decoder) {
var integerBuffer = decoder.decode(s, this.tag).value;
if(integerBuffer.length < 5) {
var integerStream = new type.Stream(integerBuffer);
while (integerStream.availableLength() > 0) {
this.value = this.value << 8;
this.value |= new type.UInt8().read(integerStream).value;
}
}
// bignum case
else {
this.value = integerBuffer;
}
return this;
};
/**
* @param encoder {ber.decoder}
* @returns {type.*}
*/
Integer.prototype.encode = function(encoder) {
if(this.value <= 0xff) {
return encoder.encode(this.tag, new type.UInt8(this.value));
}
else if(this.value <= 0xffff) {
return encoder.encode(this.tag, new type.UInt16Be(this.value));
}
else {
return encoder.encode(this.tag, new type.UInt32Be(this.value));
}
};
/**
* Sequence type
* @param value {object}
*/
function Sequence(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Constructed, UniversalTag.Sequence));
this.value = value || [];
}
inherits(Sequence, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Sequence}
*/
Sequence.prototype.decode = function(s, decoder) {
var sequenceStream = new type.Stream(decoder.decode(s, this.tag).value);
for (var i in this.value) {
var rec = sequenceStream.offset;
try {
this.value[i].decode(sequenceStream, decoder);
} catch(e) {
if ((e.message === 'NODE_RDP_ASN1_BER_INVALID_TAG') && !this.value[i].opt) {
throw new error.ProtocolError('NODE_RDP_ASN1_UNIV_SEQUENCE_FIELD_NOT_PRESENT');
}
sequenceStream.offset = rec;
}
}
return this;
};
/**
* Encode sequence
* @param encoder
* @returns {type.Component}
*/
Sequence.prototype.encode = function(encoder) {
var sequence = new type.Component([]);
for (var i in this.value) {
sequence.obj.push(this.value[i].encode(encoder))
}
return encoder.encode(this.tag, sequence);
};
/**
* Enumerate type
* @param value {integer}
*/
function Enumerate(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.Enumerate));
this.value = value || 0;
}
inherits(Enumerate, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Enumerate}
*/
Enumerate.prototype.decode = function(s, decoder) {
this.value = new type.UInt8().read(new type.Stream(decoder.decode(s, this.tag).value)).value;
return this;
};
/**
* Encode enumerate type
* @param encoder
* @returns {type.Component}
*/
Enumerate.prototype.encode = function(encoder) {
return encoder.encode(this.tag, new type.UInt8(this.value));
};
/**
* OctetString type
* @param value {Buffer}
*/
function OctetString(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.OctetString));
this.value = value || Buffer.alloc(0);
}
inherits(OctetString, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {OctetString}
*/
OctetString.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* Encode Octet String
* @param encoder
* @returns {type.Component}
*/
OctetString.prototype.encode = function(encoder) {
return encoder.encode(this.tag, new type.BinaryString(this.value));
};
/**
* ObjectIdentifier type
* @param value {Buffer}
*/
function ObjectIdentifier(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.ObjectIdentifier));
this.value = value || Buffer.alloc(5);
}
inherits(ObjectIdentifier, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {ObjectIdentifier}
*/
ObjectIdentifier.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* Null type
*/
function Null() {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.Null));
}
inherits(Null, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Null}
*/
Null.prototype.decode = function(s, decoder) {
decoder.decode(s, this.tag);
return this;
};
/**
* Choice type
* @param value {object} list of available type
*/
function Choice(value) {
// not tagged type
spec.Asn1Spec.call(this, new spec.Asn1Tag());
this.value = value;
}
inherits(Choice, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {Choice}
*/
Choice.prototype.decode = function(s, decoder) {
for (var i in this.value) {
var rec = s.offset;
try {
this.value[i].decode(s, decoder);
break;
}
catch(e) {
s.offset = rec;
}
}
return this;
};
/**
* SetOf type
* @param factory {function} type builder
* @param value {object} list of available type
*/
function SetOf(factory, value) {
// not tagged type
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Constructed, UniversalTag.Set));
this.factory = factory;
this.value = value || [];
}
inherits(SetOf, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {SetOf}
*/
SetOf.prototype.decode = function(s, decoder) {
var setOfStream = new type.Stream(decoder.decode(s, this.tag).value);
while (setOfStream.availableLength() > 0) {
this.value.push(this.factory().decode(setOfStream, decoder));
}
return this;
};
/**
* SequenceOf type
* @param factory {function} type builder
* @param value {object} list of available type
*/
function SequenceOf(factory, value) {
// not tagged type
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Constructed, UniversalTag.Sequence));
this.factory = factory;
this.value = value || [];
}
inherits(SequenceOf, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {SequenceOf}
*/
SequenceOf.prototype.decode = function(s, decoder) {
var sequenceOfStream = new type.Stream(decoder.decode(s, this.tag).value);
while (sequenceOfStream.availableLength() > 0) {
this.value.push(this.factory().decode(sequenceOfStream, decoder));
}
return this;
};
/**
* BitString type
* @param value {Buffer}
*/
function BitString(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.BitString));
this.value = [];
}
inherits(BitString, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {BitString}
*/
BitString.prototype.decode = function(s, decoder) {
var bitStream = new type.Stream(decoder.decode(s, this.tag).value);
var padding = new type.UInt8().read(bitStream).value;
var value = [];
for(var i = 0; i < padding; i++) {
value.push(0);
}
while(bitStream.availableLength() > 0) {
var octet = new type.UInt8().read(bitStream).value;
var currentPadding = 0;
if(bitStream.availableLength() === 0) {
currentPadding = padding;
}
for(var i = 7; i >= currentPadding; i--) {
value.push(((octet >> i) & 1)?1:0);
}
}
this.value = value;
return this;
};
/**
* Convert bit string to buffer object
* @returns {Buffer}
*/
BitString.prototype.toBuffer = function () {
var length = this.value.length / 8;
var resultStream = new type.Stream(length);
for (var i = 0; i < length; i ++) {
var currentOctet = 0;
for (var j = 0; j < 8; j++) {
currentOctet = currentOctet | (this.value[i * 8 + j] << (7 - j));
}
new type.UInt8(currentOctet).write(resultStream);
}
return resultStream.buffer;
}
/**
* T61String type
* @param value {Buffer}
*/
function T61String(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.T61String));
this.value = value;
}
inherits(T61String, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {T61String}
*/
T61String.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* PrintableString type
* @param value {Buffer}
*/
function PrintableString(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.PrintableString));
this.value = value;
}
inherits(PrintableString, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {PrintableString}
*/
PrintableString.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* UniversalString type
* @param value {Buffer}
*/
function UniversalString(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.UniversalString));
this.value = value;
}
inherits(UniversalString, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {UniversalString}
*/
UniversalString.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* UTF8String type
* @param value {Buffer}
*/
function UTF8String(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.UTF8String));
this.value = value;
}
inherits(UTF8String, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {UTF8String}
*/
UTF8String.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* BMPString type
* @param value {Buffer}
*/
function BMPString(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.BMPString));
this.value = value;
}
inherits(BMPString, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {BMPString}
*/
BMPString.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* IA5String type
* @param value {Buffer}
*/
function IA5String(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.IA5String));
this.value = value;
}
inherits(IA5String, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {IA5String}
*/
IA5String.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* UTCTime type
* @param value {Buffer}
*/
function UTCTime(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.UTCTime));
this.value = value;
}
inherits(UTCTime, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {UTCTime}
*/
UTCTime.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
/**
* GeneralizedTime type
* @param value {Buffer}
*/
function GeneralizedTime(value) {
spec.Asn1Spec.call(this, new spec.Asn1Tag(spec.TagClass.Universal, spec.TagFormat.Primitive, UniversalTag.GeneralizedTime));
this.value = value;
}
inherits(GeneralizedTime, spec.Asn1Spec);
/**
* @param s {type.Stream}
* @param decoder {ber.decoder}
* @returns {GeneralizedTime}
*/
GeneralizedTime.prototype.decode = function(s, decoder) {
this.value = decoder.decode(s, this.tag).value;
return this;
};
module.exports = {
Boolean : Boolean,
Integer : Integer,
Sequence : Sequence,
Enumerate : Enumerate,
OctetString : OctetString,
ObjectIdentifier : ObjectIdentifier,
Null : Null,
Choice : Choice,
SequenceOf : SequenceOf,
SetOf : SetOf,
BitString : BitString,
T61String : T61String,
PrintableString : PrintableString,
UniversalString : UniversalString,
UTF8String : UTF8String,
BMPString : BMPString,
IA5String : IA5String,
UTCTime : UTCTime,
GeneralizedTime : GeneralizedTime
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
/**
* Fatal error stop program
*/
function FatalError(message, code) {
Error.captureStackTrace(this);
this.message = message || "";
this.code = code || 'NODE_RDP_CORE_ERROR_NO_ERROR_CODE';
}
/**
* inherit from error
*/
inherits(FatalError, Error);
/**
* Protocol error (non fatal);
*/
function ProtocolError(code, message) {
Error.captureStackTrace(this);
this.code = code;
this.message = message || "";
}
/**
* inherit from error
*/
inherits(ProtocolError, Error);
/**
* ImplementationError error (non fatal);
*/
function ImplementationError(code, message) {
Error.captureStackTrace(this);
this.code = code;
this.message = message || "";
}
/**
* inherit from error
*/
inherits(ImplementationError, Error);
/**
* Module exports
*/
module.exports = {
FatalError : FatalError,
ProtocolError : ProtocolError,
ImplementationError : ImplementationError
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var layer = require('./layer');
var type = require('./type');
var log = require('./log');
var error = require('./error');
var rle = require('./rle');
module.exports = {
layer : layer,
type : type,
log : log,
error : error,
rle : rle
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var fs = require('fs');
var type = require('./type');
var log = require('./log');
var tls = require('tls');
var crypto = require('crypto');
var events = require('events');
/**
* Buffer data from socket to present
* well formed packets
*/
function BufferLayer(socket) {
//for ssl connection
this.secureSocket = null;
this.socket = socket;
var self = this;
// bind event
this.socket.on('data', function(data) {
try {
self.recv(data);
}
catch(e) {
self.socket.destroy();
self.emit('error', e);
}
}).on('close', function() {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
//buffer data
this.buffers = [];
this.bufferLength = 0;
//expected size
this.expectedSize = 0;
}
inherits(BufferLayer, events.EventEmitter);
/**
* Call from tcp layer
* @param data tcp stream
*/
BufferLayer.prototype.recv = function (data) {
if (this.buffers.length == 0) { this.bufferLength = 0; } // CORRECT
this.buffers[this.buffers.length] = data;
this.bufferLength += data.length;
//console.log('TCP RECV', this.bufferLength, this.expectedSize, data.toString('hex'));
//console.log('this.buffers', this.buffers);
//console.log('this.expectedSize', this.expectedSize);
//console.log('this.bufferLength', this.bufferLength);
if (this.expectedSize == 0) { console.log('this.expectedSize == 0'); return; }
while (this.bufferLength >= this.expectedSize) {
//console.log('this.expectedSize', this.expectedSize);
//console.log('this.bufferLength', this.bufferLength);
//linear buffer
var expectedData = new type.Stream(this.expectedSize);
//create expected data
while (expectedData.availableLength() > 0) {
var rest = expectedData.availableLength();
var buffer = this.buffers.shift();
//console.log('xx', rest, buffer);
if (buffer.length > expectedData.availableLength()) {
this.buffers.unshift(buffer.slice(rest));
new type.BinaryString(buffer, { readLength : new type.CallableValue(expectedData.availableLength()) }).write(expectedData);
} else {
new type.BinaryString(buffer).write(expectedData);
}
}
this.bufferLength -= this.expectedSize;
expectedData.offset = 0;
//console.log('TCP EMIT', expectedData);
this.emit('data', expectedData);
}
};
/**
* Call tcp socket to write stream
* @param {type.Type} packet
*/
BufferLayer.prototype.send = function(data) {
var s = new type.Stream(data.size());
data.write(s);
if(this.secureSocket) {
this.secureSocket.write(s.buffer);
}
else {
this.socket.write(s.buffer);
}
};
/**
* Call tcp socket to write a buffer
*/
BufferLayer.prototype.sendBuffer = function (buffer) {
if (this.secureSocket) {
//console.log('SSL sendBuffer', buffer.length, buffer.toString('hex'));
this.secureSocket.write(buffer);
}
else {
//console.log('TCP sendBuffer', buffer.length, buffer.toString('hex'));
this.socket.write(buffer);
}
};
/**
* Wait expected size data before call callback function
* @param {number} expectSize size expected
*/
BufferLayer.prototype.expect = function(expectedSize) {
this.expectedSize = expectedSize;
};
/**
* Convert connection to TLS connection
* @param callback {func} when connection is done
*/
BufferLayer.prototype.startTLS = function(callback) {
var self = this;
this.secureSocket = tls.connect({
socket: this.socket,
secureContext: tls.createSecureContext(),
isServer: false,
requestCert: false,
rejectUnauthorized: false
}, (err) => {
log.warn(err);
callback(err);
});
this.secureSocket.on('data', function (data) {
//console.log('SSL RECV', data.length, data);
try {
self.recv(data);
}
catch (e) {
//console.log('SSL RECV ERR', e);
self.socket.destroy();
self.emit('error', e);
}
}).on('error', function (err) {
self.emit('error', err);
});
};
/**
* Convert connection to TLS server
* @param keyFilePath {string} key file path
* @param crtFilePath {string} certificat file path
* @param callback {function}
*/
BufferLayer.prototype.listenTLS = function(keyFilePath, crtFilePath, callback) {
var self = this;
this.secureSocket = tls.connect({
socket: this.socket,
secureContext: tls.createSecureContext({
key: fs.readFileSync(keyFilePath),
cert: fs.readFileSync(crtFilePath),
}),
isServer: true,
requestCert: false,
rejectUnauthorized: false
}, (err) => {
log.warn(err);
callback(err);
});
this.secureSocket.on('data', function(data) {
try {
self.recv(data);
}
catch(e) {
self.socket.destroy();
self.emit('error', e);
}
}).on('error', function (err) {
self.emit('error', err);
});
};
/**
* close stack
*/
BufferLayer.prototype.close = function() {
this.socket.end();
};
/**
* Module exports
*/
module.exports = {
BufferLayer : BufferLayer
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var Levels = {
'DEBUG': 1,
'INFO': 2,
'WARN': 3,
'ERROR': 4,
'NONE': 5
}
/*
var Logger = require('bunyan');
let logStreams = [];
if (process.env.enable_log_file === 'true') {
logStreams.push(
{
type: 'rotating-file',
period: '1d',
count: 2,
path: `node-rdpjs${process.pid}.log`,
level: process.env.log_level
}
);
}
logStreams.push(
{
stream: process.stderr,
level: process.env.log_level
}
);
var logger = Logger.createLogger({
name: 'node-rdpjs',
streams: logStreams
});
*/
function log(level, message) {
if (Levels[level] < module.exports.level) return;
console.log("[node-rdpjs] " + level + ":\t" + message);
}
/**
* Module exports
*/
module.exports = {
level: Levels.INFO, // Levels.INFO,
Levels: Levels,
debug: function (message) {
//logger.debug(message);
},
info: function (message) {
//logger.info(message);
},
warn: function (message) {
//logger.warn(message);
},
error: function (message) {
//logger.error(message);
}
};

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488
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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var log = require('./log');
var error = require('./error');
/**
* Stream wrapper around buffer type
* @param i {Buffer | integer} size of init buffer
* @returns
*/
function Stream(i) {
this.offset = 0;
if (i instanceof Buffer) {
this.buffer = i;
}
else {
this.buffer = Buffer.alloc(i || 8192);
}
}
/**
* Return length of available data in stream
* @returns {Number} length of available data in stream
*/
Stream.prototype.availableLength = function() {
return this.buffer.length - this.offset;
};
/**
* increment offset
* @param length {integer} length of padding
*/
Stream.prototype.readPadding = function(length) {
this.offset += length;
};
/**
* Format string buffer
* @returns {string} buffer stringified
*/
Stream.prototype.getValue = function() {
return this.buffer;
};
/**
* @param value {object | function} inner value
* @returns
*/
function CallableValue(value) {
if(value) {
this.value = value;
}
}
/**
* For syntaxic purpose
*/
Object.defineProperty(CallableValue.prototype, "value", {
get: function() { return this._value(); },
set: function(e) {
if(typeof e !== 'function') {
this._value = function () { return e; };
}
else {
this._value = e;
}
}
});
/**
* Type readable or writable by binary stream
* @param {object} opt
* .conditional {boolean} read or write type depend on conditional call
* @returns
*/
function Type(opt) {
CallableValue.call(this);
this.opt = opt || {};
this.isReaded = false;
this.isWritten = false;
}
inherits(Type, CallableValue);
/**
* Write type into binary stream s
* @param {type.Stream} s binary stream
*/
Type.prototype.write = function(s) {
//do not write false conditional type
if(this.opt.conditional && !this.opt.conditional())
return this;
this.isWritten = true;
this.writeValue(s);
return this;
};
/**
* Read type from binary stream
* @param {type.Stream} s binary stream
* @returns this to chain call
*/
Type.prototype.read = function(s) {
//do not read false conditional type
if(this.opt.conditional && !this.opt.conditional())
return this;
if(this.opt.optional && s.availableLength() < this.size())
return this;
this.isReaded = true;
//constant case
if(this.opt.constant) {
var oldValue = this.value;
try {
this.readValue(s);
}
catch(e) {
if (e instanceof RangeError) {
throw new error.ProtocolError("NODE_RDP_CORE_TYPE_STREAM_TOO_SMALL");
}
throw e;
}
if(oldValue !== this.value) {
log.error('constant value mismatch ' + oldValue + ' != ' + this.value);
throw new error.ProtocolError("NODE_RDP_CORE_TYPE_CONSTANT_VALUE_MISMATCH");
}
}
else {
try {
this.readValue(s);
}
catch(e) {
if (e instanceof RangeError) {
throw new error.ProtocolError("NODE_RDP_CORE_TYPE_STREAM_TOO_SMALL");
}
throw e;
}
}
return this;
};
/**
* Size of type
* @returns {int} Size of type
*/
Type.prototype.size = function() {
if(this.opt.conditional && !this.opt.conditional())
return 0;
return this._size_();
};
/**
* Convert type to stream
* Usefull when you want to buffer
* @returns {Stream}
*/
Type.prototype.toStream = function() {
var result = new Stream(this.size());
this.write(result);
return result;
};
/**
* Node of Raw types
* @param {object} obj composite object
* @param {object} opt Type parameters
*/
function Component(obj, opt) {
Type.call(this, opt);
this.obj = obj;
}
//inherit from type
inherits(Component, Type);
/**
* ignore criterion
* @param i {string} index name in obj
* @returns {Boolean} true if can be ignore
*/
Component.prototype.ignore = function(i) {
// ignore meta information
if(i.lastIndexOf("__", 0) === 0) {
return true;
}
// ignore function
if(typeof(this.obj[i]) === 'function') {
return true;
}
return false;
};
/**
* Write each sub type into stream
* @param {Stream} s
*/
Component.prototype.writeValue = function(s) {
for(var i in this.obj) {
if(this.ignore(i)) {
continue;
}
try {
this.obj[i].write(s);
}
catch(e) {
log.info('during write of field ' + i);
throw e;
}
}
};
/**
* Read each sub type into stream
* @param {Stream} s from read stream
*/
Component.prototype.readValue = function(s) {
var readStream = s;
if(this.opt.readLength) {
readStream = new Stream(s.buffer.slice(s.offset, s.offset + this.opt.readLength.value));
}
for(var i in this.obj) {
// ignore meta information
if(this.ignore(i)) {
continue;
}
try {
this.obj[i].read(readStream);
}
catch(e) {
log.info('during read of field ' + i);
throw e;
}
}
// padding
if (this.opt.readLength) {
s.offset += this.opt.readLength.value;
if (readStream.offset < this.opt.readLength.value) {
log.debug('still have available data : read it as padding');
}
}
};
/**
* Sum size of sub types
*/
Component.prototype._size_ = function() {
var size = 0;
for(var i in this.obj) {
if(this.ignore(i)) {
continue;
}
size += this.obj[i].size();
}
return size;
};
/**
* Leaf of tree type
* @param {number} value of type
* @param {function} readBufferCallback Buffer prototype read function
* @param {function} writeBufferCallback Buffer prototype write function
* @param {object} opt Type parameter
*/
function SingleType(value, nbBytes, readBufferCallback, writeBufferCallback, opt){
Type.call(this, opt);
this.value = value || 0;
this.nbBytes = nbBytes;
this.readBufferCallback = readBufferCallback;
this.writeBufferCallback = writeBufferCallback;
}
//inherit from type
inherits(SingleType, Type);
/**
* Write SingleType value into stream
* @param s
*/
SingleType.prototype.writeValue = function(s) {
this.writeBufferCallback.call(s.buffer, this.value, s.offset);
s.offset += this._size_();
};
/**
* Read SingleType value into stream
* @param {Stream} s from read stream
*/
SingleType.prototype.readValue = function(s) {
this.value = this.readBufferCallback.call(s.buffer, s.offset);
s.offset += this._size_();
};
/**
* Size of single type
* @returns Size of single type
*/
SingleType.prototype._size_ = function() {
return this.nbBytes;
};
/**
* Integer on 1 byte
* @param {number | function} value of type
* @param {object} opt Type parameter
* @returns
*/
function UInt8(value, opt) {
SingleType.call(this, value, 1, Buffer.prototype.readUInt8, Buffer.prototype.writeUInt8, opt);
}
//inherit from type
inherits(UInt8, SingleType);
/**
* Integer on 2 bytes in Little Endian
* @param {number | function} value to write or compare if constant
* @param {object} opt Type parameter
* @returns
*/
function UInt16Le(value, opt) {
SingleType.call(this, value, 2, Buffer.prototype.readUInt16LE, Buffer.prototype.writeUInt16LE, opt);
}
//inherit from type
inherits(UInt16Le, SingleType);
/**
* Integer on 2 bytes in Big Endian
* @param {number | function} value to write or compare if constant
* @param {object} opt Type parameter
* @returns
*/
function UInt16Be(value, opt) {
SingleType.call(this, value, 2, Buffer.prototype.readUInt16BE, Buffer.prototype.writeUInt16BE, opt);
}
//inherit from type
inherits(UInt16Be, SingleType);
/**
* Integer on 4 bytes in Little Endian
* @param {number | function} value to write or compare if constant
* @param {object} opt Type parameter
* @returns
*/
function UInt32Le(value, opt) {
SingleType.call(this, value, 4, Buffer.prototype.readUInt32LE, Buffer.prototype.writeUInt32LE, opt);
}
//inherit from type
inherits(UInt32Le, SingleType);
/**
* Integer on 4 bytes in Big Endian
* @param {number | function} value to write or compare if constant
* @param {object} opt Type parameter
* @returns
*/
function UInt32Be(value, opt) {
SingleType.call(this, value, 4, Buffer.prototype.readUInt32BE, Buffer.prototype.writeUInt32BE, opt);
}
//inherit from type
inherits(UInt32Be, SingleType);
/**
* @param value {Buffer} javascript source string
* @param opt {object} type options
* .readLength {type} length for reading operation
* @returns {type.BinaryString}
*/
function BinaryString(value, opt) {
Type.call(this, opt);
this.value = value || Buffer.alloc(0);
}
//inherit from type
inherits(BinaryString, Type);
/**
* Write value into string
* @param s {type.Stream}
*/
BinaryString.prototype.writeValue = function(s) {
this.value.copy(s.buffer, s.offset);
s.offset += this._size_();
};
/**
* Read string from offset to read length if specified or end of stream
* @param s {type.Stream}
*/
BinaryString.prototype.readValue = function(s) {
if(this.opt.readLength) {
this.value = s.buffer.slice(s.offset, s.offset + this.opt.readLength.value);
}
else {
this.value = s.buffer.slice(s.offset);
}
s.offset += this._size_();
};
/**
* @returns {integer} length of string
*/
BinaryString.prototype._size_ = function() {
return this.value.length;
};
/**
* Dynamic built type depend on factory function
* @param message {object} parent object
* @param field {string} name of object field
* @param factory {function} factory use to built new type
* @param opt {object} type options
*/
function Factory(factory, opt) {
Type.call(this, opt);
this.factory = factory;
}
//inherit from type
inherits(Factory, Type);
/**
* build type and write into stream
* @param s {Stream} input stream
*/
Factory.prototype.writeValue = function(s) {
this.factory(s);
};
/**
* build type and read from stream
* @param s {Stream} input stream
*/
Factory.prototype.readValue = function(s) {
this.factory(s);
};
/**
* must be never called
*/
Factory.prototype._size_ = function() {
throw new error.FatalError('NODE_RDP_CORE_TYPE_FACTORY_TYPE_HAVE_NO_SIZE');
};
/**
* Module exports
*/
module.exports = {
Stream : Stream,
Component : Component,
UInt8 : UInt8,
UInt16Le : UInt16Le,
UInt16Be : UInt16Be,
UInt32Le : UInt32Le,
UInt32Be : UInt32Be,
BinaryString : BinaryString,
CallableValue : CallableValue,
Factory : Factory
};

24
rdp/index.js Normal file
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@ -0,0 +1,24 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var protocol = require('./protocol');
module.exports = {
createClient : protocol.rdp.createClient,
createServer : protocol.rdp.createServer
};

175
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@ -0,0 +1,175 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../core').type;
var log = require('../core').log;
var x509 = require('../security').x509;
var rsa = require('../security').rsa;
var asn1 = require('../asn1');
/**
*  @see http://msdn.microsoft.com/en-us/library/cc240521.aspx
*/
var CertificateType = {
CERT_CHAIN_VERSION_1 : 0x00000001,
CERT_CHAIN_VERSION_2 : 0x00000002
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240520.aspx
* @returns
*/
function rsaPublicKey(opt) {
var self = {
magic : new type.UInt32Le(0x31415352, { constant : true }),
keylen : new type.UInt32Le(function() {
return self.modulus.size() + self.paddinf.size();
}),
bitlen : new type.UInt32Le(function() {
return (self.keylen.value - 8) * 8;
}),
datalen : new type.UInt32Le(function() {
return (self.bitlen.value / 8) - 1;
}),
pubExp : new type.UInt32Le(),
modulus : new type.BinaryString(null, { readLength : new type.CallableValue(function() {
return self.keylen.value - 8;
}) }),
padding : new type.BinaryString(Buffer.from(Array(8 + 1).join('\x00')), { readLength : new type.CallableValue(8) })
};
return new type.Component(self, opt);
}
/**
* http://msdn.microsoft.com/en-us/library/cc240519.aspx
* @returns {type.Component}
*/
function proprietaryCertificate() {
var self = {
__TYPE__ : CertificateType.CERT_CHAIN_VERSION_1,
dwSigAlgId : new type.UInt32Le(0x00000001, { constant : true }),
dwKeyAlgId : new type.UInt32Le(0x00000001, { constant : true }),
wPublicKeyBlobType : new type.UInt16Le(0x0006, { constant : true }),
wPublicKeyBlobLen : new type.UInt16Le(function() {
return self.PublicKeyBlob.size();
}),
PublicKeyBlob : rsaPublicKey({ readLength : new type.CallableValue(function() {
return self.wPublicKeyBlobLen.value;
}) }),
wSignatureBlobType : new type.UInt16Le(0x0008, { constant : true }),
wSignatureBlobLen : new type.UInt16Le(function() {
return self.SignatureBlob.size() + self.padding.size();
}),
SignatureBlob : new type.BinaryString(null, { readLength : new type.CallableValue(function() {
return self.wSignatureBlobLen.value - self.padding.size;
}) }),
padding : new type.BinaryString(Array(8 + 1).join('\x00'), { readLength : new type.CallableValue(8) }),
/**
* @return {object} rsa.publicKey
*/
getPublicKey : function() {
return rsa.publicKey(self.PublicKeyBlob.obj.modulus.value, self.PublicKeyBlob.obj.pubExp.value);
}
};
return new type.Component(self);
}
/**
* For x509 certificate
* @see http://msdn.microsoft.com/en-us/library/cc241911.aspx
* @returns {type.Component}
*/
function certBlob() {
var self = {
cbCert : new type.UInt32Le(function() {
return self.abCert.size();
}),
abCert : new type.BinaryString(null, { readLength : new type.CallableValue(function() {
return self.cbCert.value;
}) })
};
return new type.Component(self);
}
/**
* x509 certificate chain
* @see http://msdn.microsoft.com/en-us/library/cc241910.aspx
* @returns {type.Component}
*/
function x509CertificateChain() {
var self = {
__TYPE__ : CertificateType.CERT_CHAIN_VERSION_2,
NumCertBlobs : new type.UInt32Le(),
CertBlobArray : new type.Factory(function(s) {
self.CertBlobArray = new type.Component([]);
for(var i = 0; i < self.NumCertBlobs.value; i++) {
self.CertBlobArray.obj.push(certBlob().read(s));
}
}),
padding : new type.BinaryString(null, { readLength : new type.CallableValue(function() {
return 8 + 4 * self.NumCertBlobs.value;
}) }),
/**
* @return {object} {n : modulus{bignum}, e : publicexponent{integer}
*/
getPublicKey : function(){
var cert = x509.X509Certificate().decode(new type.Stream(self.CertBlobArray.obj[self.CertBlobArray.obj.length - 1].obj.abCert.value), asn1.ber);
var publikeyStream = new type.Stream(cert.value.tbsCertificate.value.subjectPublicKeyInfo.value.subjectPublicKey.toBuffer());
var asn1PublicKey = x509.RSAPublicKey().decode(publikeyStream, asn1.ber);
return rsa.publicKey(asn1PublicKey.value.modulus.value, asn1PublicKey.value.publicExponent.value);
}
};
return new type.Component(self);
}
function certificate() {
var self = {
dwVersion : new type.UInt32Le(function() {
return self.certData.__TYPE__;
}),
certData : new type.Factory(function(s) {
switch(self.dwVersion.value & 0x7fffffff) {
case CertificateType.CERT_CHAIN_VERSION_1:
log.debug('read proprietary certificate');
self.certData = proprietaryCertificate().read(s);
break;
case CertificateType.CERT_CHAIN_VERSION_2:
log.debug('read x.509 certificate chain');
self.certData = x509CertificateChain().read(s);
break;
default:
log.error('unknown cert type ' + self.dwVersion.value & 0x7fffffff);
}
})
};
return new type.Component(self);
}
/**
* Module exports
*/
module.exports = {
CertificateType : CertificateType,
certificate : certificate
};

30
rdp/protocol/index.js Normal file
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@ -0,0 +1,30 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var TPKT = require('./tpkt');
var x224 = require('./x224');
var t125 = require('./t125');
var rdp = require('./rdp');
module.exports = {
TPKT : TPKT,
x224 : x224,
t125 : t125,
rdp : rdp
};

View File

@ -1,8 +1,223 @@
const inherits = require('util').inherits;
const type = require('../core').type;
const events = require('events');
const crypto = require('crypto'); const crypto = require('crypto');
const forge = require('node-forge'); const forge = require('node-forge');
const asn1 = forge.asn1; const asn1 = forge.asn1;
const pki = forge.pki; const pki = forge.pki;
/**
* NLA layer of rdp stack
*/
function NLA(transport, nlaCompletedFunc, domain, user, password) {
// Get NTLM ready
const ntlm = Create_Ntlm();
ntlm.domain = domain;
ntlm.completedFunc = nlaCompletedFunc;
ntlm.user = user;
ntlm.password = password;
ntlm.response_key_nt = ntowfv2(ntlm.password, ntlm.user, ntlm.domain);
ntlm.response_key_lm = lmowfv2(ntlm.password, ntlm.user, ntlm.domain);
this.ntlm = ntlm;
this.state = 1;
// Get transport ready
this.transport = transport;
// Wait 2 bytes
this.transport.expect(2);
// Next state is receive header
var self = this;
this.oldDataListeners = this.transport.listeners('data');
this.oldCloseListeners = this.transport.listeners('close');
this.oldErrorListeners = this.transport.listeners('error');
// Unhook the previous transport handler
this.transport.removeAllListeners('data');
this.transport.removeAllListeners('close');
this.transport.removeAllListeners('error');
// Hook this module as the transport handler
this.transport.once('data', function (s) {
self.recvHeader(s);
}).on('close', function () {
self.emit('close');
}).on('error', function (err) {
self.emit('close'); // Errors occur when NLA authentication fails, for now, just close.
//self.emit('error', err);
});
}
/**
* inherit from a packet layer
*/
inherits(NLA, events.EventEmitter);
/**
* Receive correct packet as expected
* @param s {type.Stream}
*/
NLA.prototype.recvHeader = function (s) {
//console.log('NLA - recvHeader', s);
var self = this;
var derType = new type.UInt8().read(s).value;
var derLen = new type.UInt8().read(s).value;
self.buffers = [ s.buffer ];
if (derLen < 128) {
// wait for the entire data block
this.transport.expect(derLen);
this.transport.once('data', function (s) { self.recvData(s); });
} else {
// wait for the header size
this.transport.expect(derLen - 128);
this.transport.once('data', function (s) { self.recvHeaderSize(s); });
}
//console.log('NLA - DER', derType, derLen);
};
/**
* Receive correct packet as expected
* @param s {type.Stream}
*/
NLA.prototype.recvHeaderSize = function (s) {
//console.log('NLA - recvHeaderSize', s.buffer.length);
var self = this;
self.buffers.push(s.buffer);
if (s.buffer.length == 1) {
// wait for the entire data block
var derLen = s.buffer.readUInt8(0);
this.transport.expect(derLen);
this.transport.once('data', function (s) { self.recvData(s); });
} else if (s.buffer.length == 2) {
// wait for the entire data block
var derLen = s.buffer.readUInt16BE(0);
this.transport.expect(derLen);
this.transport.once('data', function (s) { self.recvData(s); });
}
}
/**
* Receive correct packet as expected
* @param s {type.Stream}
*/
NLA.prototype.recvData = function (s) {
//console.log('NLA - recvData', s.buffer.length);
var self = this;
self.buffers.push(s.buffer);
var entireBuffer = Buffer.concat(self.buffers);
//console.log('entireBuffer', entireBuffer.toString('hex'));
// We have a full ASN1 data block, decode it now
const der = asn1.fromDer(entireBuffer.toString('binary'));
const derNum = der.value[0].value[0].value.charCodeAt(0);
//console.log('NLA - Number', derNum);
if (derNum == 6) {
if (this.state == 1) {
const derBuffer = Buffer.from(der.value[1].value[0].value[0].value[0].value[0].value, 'binary');
const client_challenge = read_challenge_message(this.ntlm, derBuffer);
self.security_interface = build_security_interface(this.ntlm);
const peer_cert = this.transport.secureSocket.getPeerCertificate();
const challenge = create_ts_authenticate(client_challenge, self.security_interface.gss_wrapex(peer_cert.pubkey.slice(24)));
this.ntlm.publicKeyDer = peer_cert.pubkey.slice(24);
this.send(challenge);
this.state = 2;
} else if (this.state == 2) {
const derBuffer = Buffer.from(der.value[1].value[0].value, 'binary');
const publicKeyDer = self.security_interface.gss_unwrapex(derBuffer);
// Check that the public key is identical except the first byte which is the DER encoding type.
if (!this.ntlm.publicKeyDer.slice(1).equals(publicKeyDer.slice(1))) { console.log('RDP man-in-the-middle detected.'); close(); return; }
delete this.ntlm.publicKeyDer; // Clean this up, we don't need it anymore.
var xdomain, xuser, xpassword;
if (this.ntlm.is_unicode) {
xdomain = toUnicode(this.ntlm.domain);
xuser = toUnicode(this.ntlm.user);
xpassword = toUnicode(this.ntlm.password);
} else {
xdomain = Buffer.from(this.ntlm.domain, 'utf8');
xuser = Buffer.from(this.ntlm.user, 'utf8');
xpassword = Buffer.from(this.ntlm.password, 'utf8');
}
const credentials = create_ts_authinfo(self.security_interface.gss_wrapex(create_ts_credentials(xdomain, xuser, xpassword)));
this.send(credentials);
// Rehook the previous transport handler
this.transport.removeAllListeners('data');
this.transport.removeAllListeners('close');
this.transport.removeAllListeners('error');
for (var i in this.oldDataListeners) { this.transport.once('data', this.oldDataListeners[i]); }
for (var i in this.oldCloseListeners) { this.transport.on('close', this.oldCloseListeners[i]); }
for (var i in this.oldErrorListeners) { this.transport.on('error', this.oldErrorListeners[i]); }
// Done!
this.transport.expect(2);
this.state = 3;
this.ntlm.completedFunc();
return;
}
}
// Receive next block of data
this.transport.expect(2);
this.transport.once('data', function (s) { self.recvHeader(s); });
}
/**
* Send message throught NLA layer
* @param message {type.*}
*/
NLA.prototype.send = function (message) {
this.transport.sendBuffer(message);
};
/**
* close stack
*/
NLA.prototype.close = function() {
this.transport.close();
};
NLA.prototype.sendNegotiateMessage = function () {
// Create create_ts_request
this.ntlm.negotiate_message = create_negotiate_message();
const asn1obj =
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.INTEGER, false, asn1.integerToDer(2)),
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 1, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, this.ntlm.negotiate_message.toString('binary'))
])
])
])
])
]);
// Serialize an ASN.1 object to DER format
this.send(Buffer.from(asn1.toDer(asn1obj).data, 'binary'));
}
/**
* Module exports
*/
module.exports = NLA;
const NegotiateFlags = { const NegotiateFlags = {
NtlmsspNegociate56: 0x80000000, NtlmsspNegociate56: 0x80000000,
NtlmsspNegociateKeyExch: 0x40000000, NtlmsspNegociateKeyExch: 0x40000000,
@ -171,10 +386,10 @@ function build_security_interface(ntlm) {
const encrypted_data = obj.encrypt.update(data); const encrypted_data = obj.encrypt.update(data);
const signature = mac(obj.encrypt, obj.signing_key, obj.seq_num, data); const signature = mac(obj.encrypt, obj.signing_key, obj.seq_num, data);
obj.seq_num++; obj.seq_num++;
return Buffer.concat([ signature, encrypted_data ] ); return Buffer.concat([signature, encrypted_data]);
} }
obj.gss_unwrapex = function(data) { obj.gss_unwrapex = function (data) {
const version = data.readInt32LE(0); const version = data.readInt32LE(0);
const checksum = data.slice(4, 12); const checksum = data.slice(4, 12);
const seqnum = data.readInt32LE(12); const seqnum = data.readInt32LE(12);
@ -183,9 +398,9 @@ function build_security_interface(ntlm) {
const plaintext_checksum = obj.decrypt.update(checksum); const plaintext_checksum = obj.decrypt.update(checksum);
const seqnumbuf = Buffer.alloc(4); const seqnumbuf = Buffer.alloc(4);
seqnumbuf.writeInt32LE(seqnum, 0); seqnumbuf.writeInt32LE(seqnum, 0);
const computed_checksum = hmac_md5(obj.verify_key, Buffer.concat([ seqnumbuf, plaintext_payload ])).slice(0, 8); const computed_checksum = hmac_md5(obj.verify_key, Buffer.concat([seqnumbuf, plaintext_payload])).slice(0, 8);
if (!plaintext_checksum.equals(computed_checksum)) { console.log("Invalid checksum on NTLMv2"); } if (!plaintext_checksum.equals(computed_checksum)) { console.log("Invalid checksum on NTLMv2"); }
return plaintext_payload.toString(); return plaintext_payload;
} }
return obj; return obj;
@ -220,19 +435,19 @@ function authenticate_message(lm_challenge_response, nt_challenge_response, doma
buf.writeInt32LE(3, 8); // MessageType buf.writeInt32LE(3, 8); // MessageType
buf.writeInt16LE(lm_challenge_response.length, 12); // LmChallengeResponseLen buf.writeInt16LE(lm_challenge_response.length, 12); // LmChallengeResponseLen
buf.writeInt16LE(lm_challenge_response.length, 14); // LmChallengeResponseMaxLen buf.writeInt16LE(lm_challenge_response.length, 14); // LmChallengeResponseMaxLen
if (lm_challenge_response.length > 0) { buf.writeInt32LE(offset, 16); } // LmChallengeResponseBufferOffset buf.writeInt32LE(offset, 16); // LmChallengeResponseBufferOffset
buf.writeInt16LE(nt_challenge_response.length, 20); // NtChallengeResponseLen buf.writeInt16LE(nt_challenge_response.length, 20); // NtChallengeResponseLen
buf.writeInt16LE(nt_challenge_response.length, 22); // NtChallengeResponseMaxLen buf.writeInt16LE(nt_challenge_response.length, 22); // NtChallengeResponseMaxLen
if (nt_challenge_response.length > 0) { buf.writeInt32LE(offset + lm_challenge_response.length, 24); } // NtChallengeResponseBufferOffset buf.writeInt32LE(offset + lm_challenge_response.length, 24); // NtChallengeResponseBufferOffset
buf.writeInt16LE(domain.length, 28); // DomainNameLen buf.writeInt16LE(domain.length, 28); // DomainNameLen
buf.writeInt16LE(domain.length, 30); // DomainNameMaxLen buf.writeInt16LE(domain.length, 30); // DomainNameMaxLen
if (domain.length > 0) { buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length, 32); } // DomainNameBufferOffset buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length, 32); // DomainNameBufferOffset
buf.writeInt16LE(user.length, 36); // UserNameLen buf.writeInt16LE(user.length, 36); // UserNameLen
buf.writeInt16LE(user.length, 38); // UserNameMaxLen buf.writeInt16LE(user.length, 38); // UserNameMaxLen
if (user.length > 0) { buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length, 40); } // UserNameBufferOffset buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length, 40); // UserNameBufferOffset
buf.writeInt16LE(workstation.length, 44); // WorkstationLen buf.writeInt16LE(workstation.length, 44); // WorkstationLen
buf.writeInt16LE(workstation.length, 46); // WorkstationMaxLen buf.writeInt16LE(workstation.length, 46); // WorkstationMaxLen
if (workstation.length > 0) { buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length + user.length, 48); } // WorkstationBufferOffset buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length + user.length, 48); // WorkstationBufferOffset
buf.writeInt16LE(encrypted_random_session_key.length, 52); // EncryptedRandomSessionLen buf.writeInt16LE(encrypted_random_session_key.length, 52); // EncryptedRandomSessionLen
buf.writeInt16LE(encrypted_random_session_key.length, 54); // EncryptedRandomSessionMaxLen buf.writeInt16LE(encrypted_random_session_key.length, 54); // EncryptedRandomSessionMaxLen
buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length + user.length + workstation.length, 56); // EncryptedRandomSessionBufferOffset buf.writeInt32LE(offset + lm_challenge_response.length + nt_challenge_response.length + domain.length + user.length + workstation.length, 56); // EncryptedRandomSessionBufferOffset
@ -248,7 +463,81 @@ function authenticate_message(lm_challenge_response, nt_challenge_response, doma
return [buf, payload]; return [buf, payload];
} }
function create_ts_authinfo(auth_info) {
asn1obj =
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.INTEGER, false, asn1.integerToDer(2)),
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 2, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, auth_info.toString('binary'))
])
]);
return Buffer.from(asn1.toDer(asn1obj).data, 'binary');
}
function create_ts_credentials(domain, user, password) {
var asn1obj =
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, domain.toString('binary'))
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 1, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, user.toString('binary'))
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 2, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, password.toString('binary'))
])
]);
const ts_password_cred_encoded = asn1.toDer(asn1obj).data;
asn1obj =
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.INTEGER, false, asn1.integerToDer(1)),
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 1, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, ts_password_cred_encoded)
])
]);
return Buffer.from(asn1.toDer(asn1obj).data, 'binary');
}
function create_ts_authenticate(nego, pub_key_auth) {
// Create create_ts_request
const asn1obj =
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.INTEGER, false, asn1.integerToDer(2)),
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 1, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.SEQUENCE, true, [
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 0, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, nego.toString('binary'))
])
])
])
]),
asn1.create(asn1.Class.CONTEXT_SPECIFIC, 3, true, [
asn1.create(asn1.Class.UNIVERSAL, asn1.Type.OCTETSTRING, false, pub_key_auth.toString('binary'))
]),
]);
// Serialize an ASN.1 object to DER format
return Buffer.from(asn1.toDer(asn1obj).data, 'binary');
}
function read_challenge_message(ntlm, derBuffer) { function read_challenge_message(ntlm, derBuffer) {
//console.log('ntlm.negotiate_message', ntlm.negotiate_message.toString('hex'));
//ntlm.negotiate_message = Buffer.from('4e544c4d53535000010000003582086000000000000000000000000000000000', 'hex');
// ********
//ntlm.exported_session_key = Buffer.from('9a1ed052e932834a311daf90c2750219', 'hex'); // *************************
//derBuffer = Buffer.from('4e544c4d53535000020000000e000e003800000035828a6259312ef59a4517dd000000000000000058005800460000000a00614a0000000f430045004e005400520041004c0002000e00430045004e005400520041004c0001000e00430045004e005400520041004c0004000e00430065006e007400720061006c0003000e00430065006e007400720061006c00070008007b7b3bee9e5ad80100000000', 'hex');
//console.log("YST: read_challenge_message1: ", derBuffer.toString('hex'));
const headerSignature = derBuffer.slice(0, 8); const headerSignature = derBuffer.slice(0, 8);
if (headerSignature.toString('hex') != '4e544c4d53535000') { console.log('BAD SIGNATURE'); } if (headerSignature.toString('hex') != '4e544c4d53535000') { console.log('BAD SIGNATURE'); }
const messageType = derBuffer.readInt32LE(8); const messageType = derBuffer.readInt32LE(8);
@ -264,22 +553,40 @@ function read_challenge_message(ntlm, derBuffer) {
const targetInfoLenMax = derBuffer.readInt16LE(42); const targetInfoLenMax = derBuffer.readInt16LE(42);
const targetInfoBufferOffset = derBuffer.readInt32LE(44); const targetInfoBufferOffset = derBuffer.readInt32LE(44);
const targetName = derBuffer.slice(targetNameBufferOffset, targetNameBufferOffset + targetNameLen); const targetName = derBuffer.slice(targetNameBufferOffset, targetNameBufferOffset + targetNameLen);
const targetInfoBuf = derBuffer.slice(targetInfoBufferOffset, targetInfoBufferOffset + targetInfoLen);
const targetInfo = decodeTargetInfo(derBuffer.slice(targetInfoBufferOffset, targetInfoBufferOffset + targetInfoLen)); const targetInfo = decodeTargetInfo(derBuffer.slice(targetInfoBufferOffset, targetInfoBufferOffset + targetInfoLen));
const timestamp = targetInfo[7]; const timestamp = targetInfo[7];
//const timestamp = Buffer.from('7b7b3bee9e5ad801', 'hex'); // **************
if (timestamp == null) { console.log('NO TIMESTAMP'); } if (timestamp == null) { console.log('NO TIMESTAMP'); }
const clientChallenge = crypto.randomBytes(8); const clientChallenge = crypto.randomBytes(8);
//const clientChallenge = Buffer.from('10aac9679ef64e66', 'hex'); // *****************************
const response_key_nt = ntowfv2(ntlm.password, ntlm.user, ntlm.domain); // Password, Username, Domain const response_key_nt = ntowfv2(ntlm.password, ntlm.user, ntlm.domain); // Password, Username, Domain
const response_key_lm = lmowfv2(ntlm.password, ntlm.user, ntlm.domain); // Password, Username, Domain const response_key_lm = lmowfv2(ntlm.password, ntlm.user, ntlm.domain); // Password, Username, Domain
var resp = compute_response_v2(response_key_nt, response_key_lm, serverChallenge, clientChallenge, timestamp, targetName); //console.log("YST: target_name:", targetInfoBuf.toString('hex'));
//console.log("YST: timestamp:", timestamp.toString('hex'));
//console.log('YST: client_challenge:', clientChallenge.toString('hex'));
//console.log("YST: response_key_nt:", response_key_nt.toString('hex'));
//console.log("YST: response_key_lm:", response_key_lm.toString('hex'));
var resp = compute_response_v2(response_key_nt, response_key_lm, serverChallenge, clientChallenge, timestamp, targetInfoBuf);
const nt_challenge_response = resp[0]; const nt_challenge_response = resp[0];
const lm_challenge_response = resp[1]; const lm_challenge_response = resp[1];
const session_base_key = resp[2]; const session_base_key = resp[2];
//console.log('YST: nt_challenge_response:', nt_challenge_response.toString('hex'));
//console.log('YST: lm_challenge_response:', lm_challenge_response.toString('hex'));
//console.log("YST: session_base_key:", session_base_key.toString('hex'));
const key_exchange_key = kx_key_v2(session_base_key, lm_challenge_response, serverChallenge); const key_exchange_key = kx_key_v2(session_base_key, lm_challenge_response, serverChallenge);
const encrypted_random_session_key = rc4k(key_exchange_key, ntlm.exported_session_key); const encrypted_random_session_key = rc4k(key_exchange_key, ntlm.exported_session_key);
//console.log("YST: key_exchange_key:", key_exchange_key.toString('hex'));
//console.log("YST: self.exported_session_key:", ntlm.exported_session_key.toString('hex'));
//console.log("YST: encrypted_random_session_key:", encrypted_random_session_key.toString('hex'));
ntlm.is_unicode = ((negotiateFlags & 1) != 0) ntlm.is_unicode = ((negotiateFlags & 1) != 0)
//console.log("YST: self.is_unicode: {}", ntlm.is_unicode);
var xdomain = null; var xdomain = null;
var xuser = null; var xuser = null;
if (ntlm.is_unicode) { if (ntlm.is_unicode) {
@ -290,39 +597,28 @@ function read_challenge_message(ntlm, derBuffer) {
xuser = Buffer.from(ntlm.user, 'utf8'); xuser = Buffer.from(ntlm.user, 'utf8');
} }
//console.log("YST: domain:", xdomain.toString('hex'));
//console.log("YST: user:", xuser.toString('hex'));
const auth_message_compute = authenticate_message(lm_challenge_response, nt_challenge_response, xdomain, xuser, zeroBuffer(0), encrypted_random_session_key, negotiateFlags); const auth_message_compute = authenticate_message(lm_challenge_response, nt_challenge_response, xdomain, xuser, zeroBuffer(0), encrypted_random_session_key, negotiateFlags);
// Write a tmp message to compute MIC and then include it into final message // Write a tmp message to compute MIC and then include it into final message
const tmp_final_auth_message = Buffer.concat([auth_message_compute[0], zeroBuffer(16), auth_message_compute[1]]); const tmp_final_auth_message = Buffer.concat([auth_message_compute[0], zeroBuffer(16), auth_message_compute[1]]);
//console.log("YST: tmp_final_auth_message: {}", tmp_final_auth_message.toString('hex'));
const signature = mic(ntlm.exported_session_key, ntlm.negotiate_message, derBuffer, tmp_final_auth_message); const signature = mic(ntlm.exported_session_key, ntlm.negotiate_message, derBuffer, tmp_final_auth_message);
return Buffer.concat([auth_message_compute[0], signature, auth_message_compute[1]]);
//console.log("YST: signature: {}", signature.toString('hex'));
const r = Buffer.concat([auth_message_compute[0], signature, auth_message_compute[1]]);
//console.log("YST: read_challenge_message2: {}", r.toString('hex'));
return r;
} }
/*
// Create create_ts_request
const entireBuffer = Buffer.from('3081b2a003020106a181aa3081a73081a4a081a104819e4e544c4d53535000020000000e000e003800000035828a62f2290572b3cac375000000000000000058005800460000000a00614a0000000f430045004e005400520041004c0002000e00430045004e005400520041004c0001000e00430045004e005400520041004c0004000e00430065006e007400720061006c0003000e00430065006e007400720061006c0007000800afbc2c2a9256d80100000000', 'hex').toString('binary');
const ntml = Create_Ntlm();
ntml.domain = "";
ntml.user = "default";
ntml.password = "";
ntml.negotiate_message = Buffer.from('4e544c4d53535000010000003582086000000000000000000000000000000000', 'hex');
// We have a full ASN1 data block, decode it now
const der = asn1.fromDer(entireBuffer.toString('binary'));
const derNum = der.value[0].value[0].value.charCodeAt(0);
const derBuffer = Buffer.from(der.value[1].value[0].value[0].value[0].value[0].value, 'binary');
const client_challenge = read_challenge_message(ntml, derBuffer);
console.log('client_challenge', client_challenge.toString('hex'));
const NTLMv2SecurityInterface = build_security_interface(ntml);
*/
function unitTest() { function unitTest() {
console.log('--- Starting RDP NLA Unit Tests'); console.log('--- Starting RDP NLA Unit Tests');
@ -387,9 +683,19 @@ function unitTest() {
r = rc4.update(Buffer.from("bar")); r = rc4.update(Buffer.from("bar"));
console.log(compareArray(bufToArr(r), [201, 67, 159]) ? "RC4 1 passed." : "RC4 1 failed."); console.log(compareArray(bufToArr(r), [201, 67, 159]) ? "RC4 1 passed." : "RC4 1 failed.");
r = rc4.update(Buffer.from("bar")); r = rc4.update(Buffer.from("bar"));
console.log(compareArray(bufToArr(r), [75, 169, 19]) ? "RC4 2 passed." : "RC4 failed."); console.log(compareArray(bufToArr(r), [75, 169, 19]) ? "RC4 2 passed." : "RC4 2 failed.");
// Test create_ts_authenticate
r = create_ts_authenticate(Buffer.from("000102", 'hex'), Buffer.from("000102", 'hex'));
console.log(compareArray(bufToArr(r), [48, 25, 160, 3, 2, 1, 2, 161, 11, 48, 9, 48, 7, 160, 5, 4, 3, 0, 1, 2, 163, 5, 4, 3, 0, 1, 2]) ? "create_ts_authenticate passed." : "create_ts_authenticate failed.");
// Test test_create_ts_credentials
r = create_ts_credentials(Buffer.from("domain"), Buffer.from("user"), Buffer.from("password"));
console.log(compareArray(bufToArr(r), [48, 41, 160, 3, 2, 1, 1, 161, 34, 4, 32, 48, 30, 160, 8, 4, 6, 100, 111, 109, 97, 105, 110, 161, 6, 4, 4, 117, 115, 101, 114, 162, 10, 4, 8, 112, 97, 115, 115, 119, 111, 114, 100]) ? "test_create_ts_credentials passed." : "test_create_ts_credentials failed.");
// Test create_ts_authinfo
r = create_ts_authinfo(Buffer.from("foo"));
console.log(compareArray(bufToArr(r), [48, 12, 160, 3, 2, 1, 2, 162, 5, 4, 3, 102, 111, 111]) ? "create_ts_authinfo passed." : "create_ts_authinfo failed.");
console.log('--- RDP NLA Unit Tests Completed'); console.log('--- RDP NLA Unit Tests Completed');
} }
unitTest();

704
rdp/protocol/pdu/caps.js Normal file
View File

@ -0,0 +1,704 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../../core').type;
var log = require('../../core').log;
var error = require('../../core').error;
/**
* @see http://msdn.microsoft.com/en-us/library/cc240486.aspx
*/
var CapsType = {
CAPSTYPE_GENERAL : 0x0001,
CAPSTYPE_BITMAP : 0x0002,
CAPSTYPE_ORDER : 0x0003,
CAPSTYPE_BITMAPCACHE : 0x0004,
CAPSTYPE_CONTROL : 0x0005,
CAPSTYPE_ACTIVATION : 0x0007,
CAPSTYPE_POINTER : 0x0008,
CAPSTYPE_SHARE : 0x0009,
CAPSTYPE_COLORCACHE : 0x000A,
CAPSTYPE_SOUND : 0x000C,
CAPSTYPE_INPUT : 0x000D,
CAPSTYPE_FONT : 0x000E,
CAPSTYPE_BRUSH : 0x000F,
CAPSTYPE_GLYPHCACHE : 0x0010,
CAPSTYPE_OFFSCREENCACHE : 0x0011,
CAPSTYPE_BITMAPCACHE_HOSTSUPPORT : 0x0012,
CAPSTYPE_BITMAPCACHE_REV2 : 0x0013,
CAPSTYPE_VIRTUALCHANNEL : 0x0014,
CAPSTYPE_DRAWNINEGRIDCACHE : 0x0015,
CAPSTYPE_DRAWGDIPLUS : 0x0016,
CAPSTYPE_RAIL : 0x0017,
CAPSTYPE_WINDOW : 0x0018,
CAPSETTYPE_COMPDESK : 0x0019,
CAPSETTYPE_MULTIFRAGMENTUPDATE : 0x001A,
CAPSETTYPE_LARGE_POINTER : 0x001B,
CAPSETTYPE_SURFACE_COMMANDS : 0x001C,
CAPSETTYPE_BITMAP_CODECS : 0x001D,
CAPSSETTYPE_FRAME_ACKNOWLEDGE : 0x001E
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240549.aspx
*/
var MajorType = {
OSMAJORTYPE_UNSPECIFIED : 0x0000,
OSMAJORTYPE_WINDOWS : 0x0001,
OSMAJORTYPE_OS2 : 0x0002,
OSMAJORTYPE_MACINTOSH : 0x0003,
OSMAJORTYPE_UNIX : 0x0004,
OSMAJORTYPE_IOS : 0x0005,
OSMAJORTYPE_OSX : 0x0006,
OSMAJORTYPE_ANDROID : 0x0007
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240549.aspx
*/
var MinorType = {
OSMINORTYPE_UNSPECIFIED : 0x0000,
OSMINORTYPE_WINDOWS_31X : 0x0001,
OSMINORTYPE_WINDOWS_95 : 0x0002,
OSMINORTYPE_WINDOWS_NT : 0x0003,
OSMINORTYPE_OS2_V21 : 0x0004,
OSMINORTYPE_POWER_PC : 0x0005,
OSMINORTYPE_MACINTOSH : 0x0006,
OSMINORTYPE_NATIVE_XSERVER : 0x0007,
OSMINORTYPE_PSEUDO_XSERVER : 0x0008,
OSMINORTYPE_WINDOWS_RT : 0x0009
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240549.aspx
*/
var GeneralExtraFlag = {
FASTPATH_OUTPUT_SUPPORTED : 0x0001,
NO_BITMAP_COMPRESSION_HDR : 0x0400,
LONG_CREDENTIALS_SUPPORTED : 0x0004,
AUTORECONNECT_SUPPORTED : 0x0008,
ENC_SALTED_CHECKSUM : 0x0010
};
var Boolean = {
FALSE : 0x00,
TRUE : 0x01
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240556.aspx
*/
var OrderFlag = {
NEGOTIATEORDERSUPPORT : 0x0002,
ZEROBOUNDSDELTASSUPPORT : 0x0008,
COLORINDEXSUPPORT : 0x0020,
SOLIDPATTERNBRUSHONLY : 0x0040,
ORDERFLAGS_EXTRA_FLAGS : 0x0080
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240556.aspx
*/
var Order = {
TS_NEG_DSTBLT_INDEX : 0x00,
TS_NEG_PATBLT_INDEX : 0x01,
TS_NEG_SCRBLT_INDEX : 0x02,
TS_NEG_MEMBLT_INDEX : 0x03,
TS_NEG_MEM3BLT_INDEX : 0x04,
TS_NEG_DRAWNINEGRID_INDEX : 0x07,
TS_NEG_LINETO_INDEX : 0x08,
TS_NEG_MULTI_DRAWNINEGRID_INDEX : 0x09,
TS_NEG_SAVEBITMAP_INDEX : 0x0B,
TS_NEG_MULTIDSTBLT_INDEX : 0x0F,
TS_NEG_MULTIPATBLT_INDEX : 0x10,
TS_NEG_MULTISCRBLT_INDEX : 0x11,
TS_NEG_MULTIOPAQUERECT_INDEX : 0x12,
TS_NEG_FAST_INDEX_INDEX : 0x13,
TS_NEG_POLYGON_SC_INDEX : 0x14,
TS_NEG_POLYGON_CB_INDEX : 0x15,
TS_NEG_POLYLINE_INDEX : 0x16,
TS_NEG_FAST_GLYPH_INDEX : 0x18,
TS_NEG_ELLIPSE_SC_INDEX : 0x19,
TS_NEG_ELLIPSE_CB_INDEX : 0x1A,
TS_NEG_INDEX_INDEX : 0x1B
};
var OrderEx = {
ORDERFLAGS_EX_CACHE_BITMAP_REV3_SUPPORT : 0x0002,
ORDERFLAGS_EX_ALTSEC_FRAME_MARKER_SUPPORT : 0x0004
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240563.aspx
*/
var InputFlags = {
INPUT_FLAG_SCANCODES : 0x0001,
INPUT_FLAG_MOUSEX : 0x0004,
INPUT_FLAG_FASTPATH_INPUT : 0x0008,
INPUT_FLAG_UNICODE : 0x0010,
INPUT_FLAG_FASTPATH_INPUT2 : 0x0020,
INPUT_FLAG_UNUSED1 : 0x0040,
INPUT_FLAG_UNUSED2 : 0x0080,
TS_INPUT_FLAG_MOUSE_HWHEEL : 0x0100
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240564.aspx
*/
var BrushSupport = {
BRUSH_DEFAULT : 0x00000000,
BRUSH_COLOR_8x8 : 0x00000001,
BRUSH_COLOR_FULL : 0x00000002
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240565.aspx
*/
var GlyphSupport = {
GLYPH_SUPPORT_NONE : 0x0000,
GLYPH_SUPPORT_PARTIAL : 0x0001,
GLYPH_SUPPORT_FULL : 0x0002,
GLYPH_SUPPORT_ENCODE : 0x0003
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240550.aspx
*/
var OffscreenSupportLevel = {
FALSE : 0x00000000,
TRUE : 0x00000001
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240551.aspx
*/
var VirtualChannelCompressionFlag = {
VCCAPS_NO_COMPR : 0x00000000,
VCCAPS_COMPR_SC : 0x00000001,
VCCAPS_COMPR_CS_8K : 0x00000002
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240552.aspx
*/
var SoundFlag = {
NONE : 0x0000,
SOUND_BEEPS_FLAG : 0x0001
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240549.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function generalCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_GENERAL,
osMajorType : new type.UInt16Le(),
osMinorType : new type.UInt16Le(),
protocolVersion : new type.UInt16Le(0x0200, {constant : true}),
pad2octetsA : new type.UInt16Le(),
generalCompressionTypes : new type.UInt16Le(0, {constant : true}),
extraFlags : new type.UInt16Le(),
updateCapabilityFlag : new type.UInt16Le(0, {constant : true}),
remoteUnshareFlag : new type.UInt16Le(0, {constant : true}),
generalCompressionLevel : new type.UInt16Le(0, {constant : true}),
refreshRectSupport : new type.UInt8(),
suppressOutputSupport : new type.UInt8()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240554.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function bitmapCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_BITMAP,
preferredBitsPerPixel : new type.UInt16Le(),
receive1BitPerPixel : new type.UInt16Le(0x0001),
receive4BitsPerPixel : new type.UInt16Le(0x0001),
receive8BitsPerPixel : new type.UInt16Le(0x0001),
desktopWidth : new type.UInt16Le(),
desktopHeight : new type.UInt16Le(),
pad2octets : new type.UInt16Le(),
desktopResizeFlag : new type.UInt16Le(),
bitmapCompressionFlag : new type.UInt16Le(0x0001, {constant : true}),
highColorFlags : new type.UInt8(0),
drawingFlags : new type.UInt8(),
multipleRectangleSupport : new type.UInt16Le(0x0001, {constant : true}),
pad2octetsB : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240556.aspx
* @param orders {type.BinaryString|null} list of available orders
* @param opt {object} type options
* @returns {type.Component}
*/
function orderCapability(orders, opt) {
if(orders && orders.size() !== 32) {
throw new error.FatalError('NODE_RDP_PROTOCOL_PDU_CAPS_BAD_ORDERS_SIZE');
}
var self = {
__TYPE__ : CapsType.CAPSTYPE_ORDER,
terminalDescriptor : new type.BinaryString(Buffer.from(Array(16 + 1).join('\x00'), 'binary'), {readLength : new type.CallableValue(16)}),
pad4octetsA : new type.UInt32Le(0),
desktopSaveXGranularity : new type.UInt16Le(1),
desktopSaveYGranularity : new type.UInt16Le(20),
pad2octetsA : new type.UInt16Le(0),
maximumOrderLevel : new type.UInt16Le(1),
numberFonts : new type.UInt16Le(),
orderFlags : new type.UInt16Le(OrderFlag.NEGOTIATEORDERSUPPORT),
orderSupport : orders || new type.Factory(function(s) {
self.orderSupport = new type.BinaryString(null, {readLength : new type.CallableValue(32)}).read(s);
}),
textFlags : new type.UInt16Le(),
orderSupportExFlags : new type.UInt16Le(),
pad4octetsB : new type.UInt32Le(),
desktopSaveSize : new type.UInt32Le(480 * 480),
pad2octetsC : new type.UInt16Le(),
pad2octetsD : new type.UInt16Le(),
textANSICodePage : new type.UInt16Le(0),
pad2octetsE : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240559.aspx
* @param opt type options
* @returns {type.Component}
*/
function bitmapCacheCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_BITMAPCACHE,
pad1 : new type.UInt32Le(),
pad2 : new type.UInt32Le(),
pad3 : new type.UInt32Le(),
pad4 : new type.UInt32Le(),
pad5 : new type.UInt32Le(),
pad6 : new type.UInt32Le(),
cache0Entries : new type.UInt16Le(),
cache0MaximumCellSize : new type.UInt16Le(),
cache1Entries : new type.UInt16Le(),
cache1MaximumCellSize : new type.UInt16Le(),
cache2Entries : new type.UInt16Le(),
cache2MaximumCellSize : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
*
* @param isServer {boolean} true if in server mode
* @param opt {object} type options
* @returns {type.Component}
*/
function pointerCapability(isServer, opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_POINTER,
colorPointerFlag : new type.UInt16Le(),
colorPointerCacheSize : new type.UInt16Le(20),
//old version of rdp doesn't support ...
pointerCacheSize : new type.UInt16Le(null, {conditional : function() {
return isServer || false;
}})
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240563.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function inputCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_INPUT,
inputFlags : new type.UInt16Le(),
pad2octetsA : new type.UInt16Le(),
// same value as gcc.ClientCoreSettings.kbdLayout
keyboardLayout : new type.UInt32Le(),
// same value as gcc.ClientCoreSettings.keyboardType
keyboardType : new type.UInt32Le(),
// same value as gcc.ClientCoreSettings.keyboardSubType
keyboardSubType : new type.UInt32Le(),
// same value as gcc.ClientCoreSettings.keyboardFnKeys
keyboardFunctionKey : new type.UInt32Le(),
// same value as gcc.ClientCoreSettingrrs.imeFileName
imeFileName : new type.BinaryString(Buffer.from(Array(64 + 1).join('\x00'), 'binary'), {readLength : new type.CallableValue(64)})
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240564.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function brushCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_BRUSH,
brushSupportLevel : new type.UInt32Le(BrushSupport.BRUSH_DEFAULT)
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240566.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function cacheEntry(opt) {
var self = {
cacheEntries : new type.UInt16Le(),
cacheMaximumCellSize : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240565.aspx
* @param entries {type.Component} cache entries
* @param opt {object} type options
* @returns {type.Component}
*/
function glyphCapability(entries, opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_GLYPHCACHE,
glyphCache : entries || new type.Factory(function(s) {
self.glyphCache = new type.Component([]);
for(var i = 0; i < 10; i++) {
self.glyphCache.obj.push(cacheEntry().read(s));
}
}),
fragCache : new type.UInt32Le(),
// all fonts are sent with bitmap format (very expensive)
glyphSupportLevel : new type.UInt16Le(GlyphSupport.GLYPH_SUPPORT_NONE),
pad2octets : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240550.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function offscreenBitmapCacheCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_OFFSCREENCACHE,
offscreenSupportLevel : new type.UInt32Le(OffscreenSupportLevel.FALSE),
offscreenCacheSize : new type.UInt16Le(),
offscreenCacheEntries : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240551.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function virtualChannelCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_VIRTUALCHANNEL,
flags : new type.UInt32Le(VirtualChannelCompressionFlag.VCCAPS_NO_COMPR),
VCChunkSize : new type.UInt32Le(null, {optional : true})
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240552.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function soundCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_SOUND,
soundFlags : new type.UInt16Le(SoundFlag.NONE),
pad2octetsA : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240568.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function controlCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_CONTROL,
controlFlags : new type.UInt16Le(),
remoteDetachFlag : new type.UInt16Le(),
controlInterest : new type.UInt16Le(0x0002),
detachInterest : new type.UInt16Le(0x0002)
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240569.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function windowActivationCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_ACTIVATION,
helpKeyFlag : new type.UInt16Le(),
helpKeyIndexFlag : new type.UInt16Le(),
helpExtendedKeyFlag : new type.UInt16Le(),
windowManagerKeyFlag : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240571.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function fontCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_FONT,
fontSupportFlags : new type.UInt16Le(0x0001),
pad2octets : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241564.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function colorCacheCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_COLORCACHE,
colorTableCacheSize : new type.UInt16Le(0x0006),
pad2octets : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240570.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function shareCapability(opt) {
var self = {
__TYPE__ : CapsType.CAPSTYPE_SHARE,
nodeId : new type.UInt16Le(),
pad2octets : new type.UInt16Le()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240649.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function multiFragmentUpdate(opt) {
var self = {
__TYPE__ : CapsType.CAPSETTYPE_MULTIFRAGMENTUPDATE,
MaxRequestSize : new type.UInt32Le(0)
};
return new type.Component(self, opt);
}
/**
* Capability wrapper packet
* @see http://msdn.microsoft.com/en-us/library/cc240486.aspx
* @param cap {type.Component}
* @param opt {object} type options
* @returns {type.Component}
*/
function capability(cap, opt) {
var self = {
capabilitySetType : new type.UInt16Le(function() {
return self.capability.obj.__TYPE__;
}),
lengthCapability : new type.UInt16Le(function() {
return new type.Component(self).size();
}),
capability : cap || new type.Factory(function(s) {
switch(self.capabilitySetType.value) {
case CapsType.CAPSTYPE_GENERAL:
self.capability = generalCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_BITMAP:
self.capability = bitmapCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_ORDER:
self.capability = orderCapability(null, {readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_BITMAPCACHE:
self.capability = bitmapCacheCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_POINTER:
self.capability = pointerCapability(false, {readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_INPUT:
self.capability = inputCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_BRUSH:
self.capability = brushCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_GLYPHCACHE:
self.capability = glyphCapability(null, {readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_OFFSCREENCACHE:
self.capability = offscreenBitmapCacheCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_VIRTUALCHANNEL:
self.capability = virtualChannelCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_SOUND:
self.capability = soundCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_CONTROL:
self.capability = controlCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_ACTIVATION:
self.capability = windowActivationCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_FONT:
self.capability = fontCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_COLORCACHE:
self.capability = colorCacheCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSTYPE_SHARE:
self.capability = shareCapability({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
case CapsType.CAPSETTYPE_MULTIFRAGMENTUPDATE:
self.capability = multiFragmentUpdate({readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
break;
default:
log.debug('unknown capability ' + self.capabilitySetType.value);
self.capability = new type.BinaryString(null, {readLength : new type.CallableValue(function() {
return self.lengthCapability.value - 4;
})}).read(s);
}
})
};
return new type.Component(self, opt);
}
/**
* Module exports
*/
module.exports = {
CapsType : CapsType,
MajorType : MajorType,
MinorType : MinorType,
GeneralExtraFlag : GeneralExtraFlag,
Boolean : Boolean,
OrderFlag : OrderFlag,
Order : Order,
OrderEx : OrderEx,
InputFlags : InputFlags,
BrushSupport : BrushSupport,
GlyphSupport : GlyphSupport,
OffscreenSupportLevel : OffscreenSupportLevel,
VirtualChannelCompressionFlag : VirtualChannelCompressionFlag,
SoundFlag : SoundFlag,
generalCapability : generalCapability,
bitmapCapability : bitmapCapability,
orderCapability : orderCapability,
bitmapCacheCapability : bitmapCacheCapability,
pointerCapability : pointerCapability,
inputCapability : inputCapability,
brushCapability : brushCapability,
cacheEntry : cacheEntry,
glyphCapability : glyphCapability,
offscreenBitmapCacheCapability : offscreenBitmapCacheCapability,
virtualChannelCapability : virtualChannelCapability,
soundCapability : soundCapability,
controlCapability : controlCapability,
windowActivationCapability : windowActivationCapability,
fontCapability : fontCapability,
colorCacheCapability : colorCacheCapability,
shareCapability : shareCapability,
multiFragmentUpdate : multiFragmentUpdate,
capability : capability
};

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rdp/protocol/pdu/data.js Normal file

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rdp/protocol/pdu/global.js Normal file
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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var events = require('events');
var caps = require('./caps');
var data = require('./data');
var type = require('../../core').type;
var log = require('../../core').log;
/**
* Global channel for all graphic updates
* capabilities exchange and input handles
*/
function Global(transport, fastPathTransport) {
this.transport = transport;
this.fastPathTransport = fastPathTransport;
// must be init via connect event
this.userId = 0;
this.serverCapabilities = [];
this.clientCapabilities = [];
}
//inherit from Layer
inherits(Global, events.EventEmitter);
/**
* Send formated PDU message
* @param message {type.Component} PDU message
*/
Global.prototype.sendPDU = function(message) {
this.transport.send(data.pdu(this.userId, message));
};
/**
* Send formated Data PDU message
* @param message {type.Component} PDU message
*/
Global.prototype.sendDataPDU = function(message) {
this.sendPDU(data.dataPDU(message, this.shareId));
};
/**
* Client side of Global channel automata
* @param transport
*/
function Client(transport, fastPathTransport) {
Global.call(this, transport, fastPathTransport);
var self = this;
this.transport.once('connect', function(core, userId, channelId) {
self.connect(core, userId, channelId);
}).on('close', function() {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
if (this.fastPathTransport) {
this.fastPathTransport.on('fastPathData', function (secFlag, s) {
self.recvFastPath(secFlag, s);
});
}
// init client capabilities
this.clientCapabilities[caps.CapsType.CAPSTYPE_GENERAL] = caps.generalCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_BITMAP] = caps.bitmapCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_ORDER] = caps.orderCapability(
new type.Component([
new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0),
new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0),
new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0),
new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0), new type.UInt8(0)
]));
this.clientCapabilities[caps.CapsType.CAPSTYPE_BITMAPCACHE] = caps.bitmapCacheCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_POINTER] = caps.pointerCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_INPUT] = caps.inputCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_BRUSH] = caps.brushCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_GLYPHCACHE] = caps.glyphCapability(
new type.Component([
caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry(),
caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry(), caps.cacheEntry()
]));
this.clientCapabilities[caps.CapsType.CAPSTYPE_OFFSCREENCACHE] = caps.offscreenBitmapCacheCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_VIRTUALCHANNEL] = caps.virtualChannelCapability();
this.clientCapabilities[caps.CapsType.CAPSTYPE_SOUND] = caps.soundCapability();
this.clientCapabilities[caps.CapsType.CAPSETTYPE_MULTIFRAGMENTUPDATE] = caps.multiFragmentUpdate();
}
// inherit from Layer
inherits(Client, Global);
/**
* connect function
* @param gccCore {type.Component(clientCoreData)}
*/
Client.prototype.connect = function(gccCore, userId, channelId) {
this.gccCore = gccCore;
this.userId = userId;
this.channelId = channelId;
var self = this;
this.transport.once('data', function(s) {
self.recvDemandActivePDU(s);
});
};
/**
* close stack
*/
Client.prototype.close = function() {
this.transport.close();
};
/**
* Receive capabilities from server
* @param s {type.Stream}
*/
Client.prototype.recvDemandActivePDU = function(s) {
var pdu = data.pdu().read(s);
if (pdu.obj.shareControlHeader.obj.pduType.value !== data.PDUType.PDUTYPE_DEMANDACTIVEPDU) {
log.debug('ignore message type ' + pdu.obj.shareControlHeader.obj.pduType.value + ' during connection sequence');
// loop on state
var self = this;
this.transport.once('data', function(s) {
self.recvDemandActivePDU(s);
});
return;
}
// store share id
this.shareId = pdu.obj.pduMessage.obj.shareId.value;
// store server capabilities
for(var i in pdu.obj.pduMessage.obj.capabilitySets.obj) {
var cap = pdu.obj.pduMessage.obj.capabilitySets.obj[i].obj.capability;
if(!cap.obj) {
continue;
}
this.serverCapabilities[cap.obj.__TYPE__] = cap;
}
this.transport.enableSecureCheckSum = !!(this.serverCapabilities[caps.CapsType.CAPSTYPE_GENERAL].obj.extraFlags.value & caps.GeneralExtraFlag.ENC_SALTED_CHECKSUM);
this.sendConfirmActivePDU();
this.sendClientFinalizeSynchronizePDU();
var self = this;
this.transport.once('data', function(s) {
self.recvServerSynchronizePDU(s);
});
};
/**
* global channel automata state
* @param s {type.Stream}
*/
Client.prototype.recvServerSynchronizePDU = function(s) {
var pdu = data.pdu().read(s);
if ( pdu.obj.shareControlHeader.obj.pduType.value !== data.PDUType.PDUTYPE_DATAPDU
|| pdu.obj.pduMessage.obj.shareDataHeader.obj.pduType2.value !== data.PDUType2.PDUTYPE2_SYNCHRONIZE) {
log.debug('ignore message type ' + pdu.obj.shareControlHeader.obj.pduType.value + ' during connection sequence');
// loop on state
var self = this;
this.transport.once('data', function(s) {
self.recvServerSynchronizePDU(s);
});
return;
}
var self = this;
this.transport.once('data', function(s) {
self.recvServerControlCooperatePDU(s);
});
};
/**
* global channel automata state
* @param s {type.Stream}
*/
Client.prototype.recvServerControlCooperatePDU = function(s) {
var pdu = data.pdu().read(s);
if ( pdu.obj.shareControlHeader.obj.pduType.value !== data.PDUType.PDUTYPE_DATAPDU
|| pdu.obj.pduMessage.obj.shareDataHeader.obj.pduType2.value !== data.PDUType2.PDUTYPE2_CONTROL
|| pdu.obj.pduMessage.obj.pduData.obj.action.value !== data.Action.CTRLACTION_COOPERATE) {
log.debug('ignore message type ' + pdu.obj.shareControlHeader.obj.pduType.value + ' during connection sequence');
// loop on state
var self = this;
this.transport.once('data', function(s) {
self.recvServerControlCooperatePDU(s);
});
}
var self = this;
this.transport.once('data', function(s) {
self.recvServerControlGrantedPDU(s);
});
};
/**
* global channel automata state
* @param s {type.Stream}
*/
Client.prototype.recvServerControlGrantedPDU = function(s) {
var pdu = data.pdu().read(s);
if ( pdu.obj.shareControlHeader.obj.pduType.value !== data.PDUType.PDUTYPE_DATAPDU
|| pdu.obj.pduMessage.obj.shareDataHeader.obj.pduType2.value !== data.PDUType2.PDUTYPE2_CONTROL
|| pdu.obj.pduMessage.obj.pduData.obj.action.value !== data.Action.CTRLACTION_GRANTED_CONTROL) {
log.debug('ignore message type ' + pdu.obj.shareControlHeader.obj.pduType.value + ' during connection sequence');
// loop on state
var self = this;
this.transport.once('data', function(s) {
self.recvServerControlGrantedPDU(s);
});
}
var self = this;
this.transport.once('data', function(s) {
self.recvServerFontMapPDU(s);
});
};
/**
* global channel automata state
* @param s {type.Stream}
*/
Client.prototype.recvServerFontMapPDU = function(s) {
var pdu = data.pdu().read(s);
if ( pdu.obj.shareControlHeader.obj.pduType.value !== data.PDUType.PDUTYPE_DATAPDU
|| pdu.obj.pduMessage.obj.shareDataHeader.obj.pduType2.value !== data.PDUType2.PDUTYPE2_FONTMAP) {
log.debug('ignore message type ' + pdu.obj.shareControlHeader.obj.pduType.value + ' during connection sequence');
// loop on state
var self = this;
this.transport.once('data', function(s) {
self.recvServerFontMapPDU(s);
});
}
this.emit('connect');
var self = this;
this.transport.on('data', function(s) {
self.recvPDU(s);
});
};
/**
* Main reveive fast path
* @param secFlag {integer}
* @param s {type.Stream}
*/
Client.prototype.recvFastPath = function (secFlag, s) {
while (s.availableLength() > 0) {
var pdu = data.fastPathUpdatePDU().read(s);
switch (pdu.obj.updateHeader.value & 0xf) {
case data.FastPathUpdateType.FASTPATH_UPDATETYPE_BITMAP:
this.emit('bitmap', pdu.obj.updateData.obj.rectangles.obj);
break;
default:
}
}
};
/**
* global channel automata state
* @param s {type.Stream}
*/
Client.prototype.recvPDU = function(s) {
while (s.availableLength() > 0) {
var pdu = data.pdu().read(s);
switch(pdu.obj.shareControlHeader.obj.pduType.value) {
case data.PDUType.PDUTYPE_DEACTIVATEALLPDU:
var self = this;
this.transport.removeAllListeners('data');
this.transport.once('data', function(s) {
self.recvDemandActivePDU(s);
});
break;
case data.PDUType.PDUTYPE_DATAPDU:
this.readDataPDU(pdu.obj.pduMessage)
break;
default:
log.debug('ignore pdu type ' + pdu.obj.shareControlHeader.obj.pduType.value);
}
}
};
/**
* main receive for data PDU packet
* @param dataPDU {data.dataPDU}
*/
Client.prototype.readDataPDU = function (dataPDU) {
switch(dataPDU.obj.shareDataHeader.obj.pduType2.value) {
case data.PDUType2.PDUTYPE2_SET_ERROR_INFO_PDU:
break;
case data.PDUType2.PDUTYPE2_SHUTDOWN_DENIED:
this.transport.close();
break;
case data.PDUType2.PDUTYPE2_SAVE_SESSION_INFO:
this.emit('session');
break;
case data.PDUType2.PDUTYPE2_UPDATE:
this.readUpdateDataPDU(dataPDU.obj.pduData)
break;
}
};
/**
* Main upadate pdu receive function
* @param updateDataPDU
*/
Client.prototype.readUpdateDataPDU = function (updateDataPDU) {
switch(updateDataPDU.obj.updateType.value) {
case data.UpdateType.UPDATETYPE_BITMAP:
this.emit('bitmap', updateDataPDU.obj.updateData.obj.rectangles.obj)
break;
}
};
/**
* send all client capabilities
*/
Client.prototype.sendConfirmActivePDU = function () {
var generalCapability = this.clientCapabilities[caps.CapsType.CAPSTYPE_GENERAL].obj;
generalCapability.osMajorType.value = caps.MajorType.OSMAJORTYPE_WINDOWS;
generalCapability.osMinorType.value = caps.MinorType.OSMINORTYPE_WINDOWS_NT;
generalCapability.extraFlags.value = caps.GeneralExtraFlag.LONG_CREDENTIALS_SUPPORTED
| caps.GeneralExtraFlag.NO_BITMAP_COMPRESSION_HDR
| caps.GeneralExtraFlag.ENC_SALTED_CHECKSUM
| caps.GeneralExtraFlag.FASTPATH_OUTPUT_SUPPORTED;
var bitmapCapability = this.clientCapabilities[caps.CapsType.CAPSTYPE_BITMAP].obj;
bitmapCapability.preferredBitsPerPixel.value = this.gccCore.highColorDepth.value;
bitmapCapability.desktopWidth.value = this.gccCore.desktopWidth.value;
bitmapCapability.desktopHeight.value = this.gccCore.desktopHeight.value;
var orderCapability = this.clientCapabilities[caps.CapsType.CAPSTYPE_ORDER].obj;
orderCapability.orderFlags.value |= caps.OrderFlag.ZEROBOUNDSDELTASSUPPORT;
var inputCapability = this.clientCapabilities[caps.CapsType.CAPSTYPE_INPUT].obj;
inputCapability.inputFlags.value = caps.InputFlags.INPUT_FLAG_SCANCODES | caps.InputFlags.INPUT_FLAG_MOUSEX | caps.InputFlags.INPUT_FLAG_UNICODE;
inputCapability.keyboardLayout = this.gccCore.kbdLayout;
inputCapability.keyboardType = this.gccCore.keyboardType;
inputCapability.keyboardSubType = this.gccCore.keyboardSubType;
inputCapability.keyboardrFunctionKey = this.gccCore.keyboardFnKeys;
inputCapability.imeFileName = this.gccCore.imeFileName;
var capabilities = new type.Component([]);
for(var i in this.clientCapabilities) {
capabilities.obj.push(caps.capability(this.clientCapabilities[i]));
}
var confirmActivePDU = data.confirmActivePDU(capabilities, this.shareId);
this.sendPDU(confirmActivePDU);
};
/**
* send synchronize PDU
*/
Client.prototype.sendClientFinalizeSynchronizePDU = function() {
this.sendDataPDU(data.synchronizeDataPDU(this.channelId));
this.sendDataPDU(data.controlDataPDU(data.Action.CTRLACTION_COOPERATE));
this.sendDataPDU(data.controlDataPDU(data.Action.CTRLACTION_REQUEST_CONTROL));
this.sendDataPDU(data.fontListDataPDU());
};
/**
* Send input event as slow path input
* @param inputEvents {array}
*/
Client.prototype.sendInputEvents = function (inputEvents) {
var pdu = data.clientInputEventPDU(new type.Component(inputEvents.map(function (e) {
return data.slowPathInputEvent(e);
})));
this.sendDataPDU(pdu);
};
/**
* Module exports
*/
module.exports = {
Client : Client
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var lic = require('./lic');
var sec = require('./sec');
var global = require('./global');
var data = require('./data');
module.exports = {
lic : lic,
sec : sec,
global : global,
data : data
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../../core').type;
var MessageType = {
LICENSE_REQUEST : 0x01,
PLATFORM_CHALLENGE : 0x02,
NEW_LICENSE : 0x03,
UPGRADE_LICENSE : 0x04,
LICENSE_INFO : 0x12,
NEW_LICENSE_REQUEST : 0x13,
PLATFORM_CHALLENGE_RESPONSE : 0x15,
ERROR_ALERT : 0xFF
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240482.aspx
*/
var ErrorCode = {
ERR_INVALID_SERVER_CERTIFICATE : 0x00000001,
ERR_NO_LICENSE : 0x00000002,
ERR_INVALID_SCOPE : 0x00000004,
ERR_NO_LICENSE_SERVER : 0x00000006,
STATUS_VALID_CLIENT : 0x00000007,
ERR_INVALID_CLIENT : 0x00000008,
ERR_INVALID_PRODUCTID : 0x0000000B,
ERR_INVALID_MESSAGE_LEN : 0x0000000C,
ERR_INVALID_MAC : 0x00000003
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240482.aspx
*/
var StateTransition = {
ST_TOTAL_ABORT : 0x00000001,
ST_NO_TRANSITION : 0x00000002,
ST_RESET_PHASE_TO_START : 0x00000003,
ST_RESEND_LAST_MESSAGE : 0x00000004
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240481.aspx
*/
var BinaryBlobType = {
BB_ANY_BLOB : 0x0000,
BB_DATA_BLOB : 0x0001,
BB_RANDOM_BLOB : 0x0002,
BB_CERTIFICATE_BLOB : 0x0003,
BB_ERROR_BLOB : 0x0004,
BB_ENCRYPTED_DATA_BLOB : 0x0009,
BB_KEY_EXCHG_ALG_BLOB : 0x000D,
BB_SCOPE_BLOB : 0x000E,
BB_CLIENT_USER_NAME_BLOB : 0x000F,
BB_CLIENT_MACHINE_NAME_BLOB : 0x0010
};
var Preambule = {
PREAMBLE_VERSION_2_0 : 0x2,
PREAMBLE_VERSION_3_0 : 0x3,
EXTENDED_ERROR_MSG_SUPPORTED : 0x80
};
/**
* Binary blob to emcompass license information
* @see http://msdn.microsoft.com/en-us/library/cc240481.aspx
* @param blobType {BinaryBlobType.*}
* @returns {type.Component}
*/
function licenseBinaryBlob(blobType) {
blobType = blobType || BinaryBlobType.BB_ANY_BLOB;
var self = {
wBlobType : new type.UInt16Le(blobType, { constant : (blobType === BinaryBlobType.BB_ANY_BLOB)?false:true }),
wBlobLen : new type.UInt16Le(function() {
return self.blobData.size();
}),
blobData : new type.BinaryString(null, { readLength : new type.CallableValue(function() {
return self.wBlobLen.value;
})})
};
return new type.Component(self);
}
/**
* Error message in license PDU automata
* @see http://msdn.microsoft.com/en-us/library/cc240482.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function licensingErrorMessage(opt) {
var self = {
__TYPE__ : MessageType.ERROR_ALERT,
dwErrorCode : new type.UInt32Le(),
dwStateTransition : new type.UInt32Le(),
blob : licenseBinaryBlob(BinaryBlobType.BB_ANY_BLOB)
};
return new type.Component(self, opt);
}
/**
* License product informations
* @see http://msdn.microsoft.com/en-us/library/cc241915.aspx
* @returns {type.Component}
*/
function productInformation() {
var self = {
dwVersion : new type.UInt32Le(),
cbCompanyName : new type.UInt32Le(function() {
return self.pbCompanyName.size();
}),
// may contain "Microsoft Corporation" from server microsoft
pbCompanyName : new type.BinaryString(Buffer.from('Microsoft Corporation', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbCompanyName.value;
})}),
cbProductId : new type.UInt32Le(function() {
return self.pbProductId.size();
}),
// may contain "A02" from microsoft license server
pbProductId : new type.BinaryString(Buffer.from('A02', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbProductId.value;
})})
};
return new type.Component(self);
}
/**
* Use in license negotiation
* @see http://msdn.microsoft.com/en-us/library/cc241917.aspx
* @returns {type.Component}
*/
function scope() {
var self = {
scope : licenseBinaryBlob(BinaryBlobType.BB_SCOPE_BLOB)
};
return new type.Component(self);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241916.aspx
* @returns {type.Component}
*/
function scopeList() {
var self = {
scopeCount : new type.UInt32Le(function() {
return self.scopeArray.length;
}),
scopeArray : new type.Factory(function(s) {
self.scopeArray = new type.Component([]);
for(var i = 0; i < self.scopeCount.value; i++) {
self.scopeArray.obj.push(scope().read(s));
}
})
};
return new type.Component(self);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241914.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function serverLicenseRequest(opt) {
var self = {
__TYPE__ : MessageType.LICENSE_REQUEST,
serverRandom : new type.BinaryString(Buffer.from(Array(32 + 1).join('\x00')), { readLength : new type.CallableValue(32) } ),
productInfo : productInformation(),
keyExchangeList : licenseBinaryBlob(BinaryBlobType.BB_KEY_EXCHG_ALG_BLOB),
serverCertificate : licenseBinaryBlob(BinaryBlobType.BB_CERTIFICATE_BLOB),
scopeList : scopeList()
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241918.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function clientNewLicenseRequest(opt) {
var self = {
__TYPE__ : MessageType.NEW_LICENSE_REQUEST,
preferredKeyExchangeAlg : new type.UInt32Le(0x00000001, { constant : true }),
// pure microsoft client ;-)
// http://msdn.microsoft.com/en-us/library/1040af38-c733-4fb3-acd1-8db8cc979eda#id10
platformId : new type.UInt32Le(0x04000000 | 0x00010000),
clientRandom : new type.BinaryString(Buffer.from(Array(32 + 1).join('\x00')), { readLength : new type.CallableValue(32) }),
encryptedPreMasterSecret : licenseBinaryBlob(BinaryBlobType.BB_RANDOM_BLOB),
ClientUserName : licenseBinaryBlob(BinaryBlobType.BB_CLIENT_USER_NAME_BLOB),
ClientMachineName : licenseBinaryBlob(BinaryBlobType.BB_CLIENT_MACHINE_NAME_BLOB)
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241921.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function serverPlatformChallenge(opt) {
var self = {
__TYPE__ : MessageType.PLATFORM_CHALLENGE,
connectFlags : new type.UInt32Le(),
encryptedPlatformChallenge : licenseBinaryBlob(BinaryBlobType.BB_ANY_BLOB),
MACData : new type.BinaryString(Buffer.from(Array(16 + 1).join('\x00')), { readLength : new type.CallableValue(16) })
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241922.aspx
* @param opt {object} type options
* @returns {type.Component}
*/
function clientPLatformChallengeResponse(opt) {
var self = {
__TYPE__ : MessageType.PLATFORM_CHALLENGE_RESPONSE,
encryptedPlatformChallengeResponse : licenseBinaryBlob(BinaryBlobType.BB_DATA_BLOB),
encryptedHWID : licenseBinaryBlob(BinaryBlobType.BB_DATA_BLOB),
MACData : new type.BinaryString(Buffer.from(Array(16 + 1).join('\x00'), 'binary'), { readLength : new type.CallableValue(16) })
};
return new type.Component(self, opt);
};
/**
* Global license packet
* @param packet {type.* | null} send packet
* @returns {type.Component}
*/
function licensePacket(message) {
var self = {
bMsgtype : new type.UInt8(function() {
return self.licensingMessage.obj.__TYPE__;
}),
flag : new type.UInt8(Preambule.PREAMBLE_VERSION_3_0),
wMsgSize : new type.UInt16Le(function() {
return new type.Component(self).size();
}),
licensingMessage : message || new type.Factory(function(s) {
switch(self.bMsgtype.value) {
case MessageType.ERROR_ALERT:
self.licensingMessage = licensingErrorMessage({ readLength : new type.CallableValue(function() {
return self.wMsgSize.value - 4;
})}).read(s);
break;
case MessageType.LICENSE_REQUEST:
self.licensingMessage = serverLicenseRequest({ readLength : new type.CallableValue(function() {
return self.wMsgSize.value - 4;
})}).read(s);
break;
case MessageType.NEW_LICENSE_REQUEST:
self.licensingMessage = clientNewLicenseRequest({ readLength : new type.CallableValue(function() {
return self.wMsgSize.value - 4;
})}).read(s);
break;
case MessageType.PLATFORM_CHALLENGE:
self.licensingMessage = serverPlatformChallenge({ readLength : new type.CallableValue(function() {
return self.wMsgSize.value - 4;
})}).read(s);
break;
case MessageType.PLATFORM_CHALLENGE_RESPONSE:
self.licensingMessage = clientPLatformChallengeResponse({ readLength : new type.CallableValue(function() {
return self.wMsgSize.value - 4;
})}).read(s);
break;
default:
log.error('unknown license message type ' + self.bMsgtype.value);
}
})
};
return new type.Component(self);
}
/**
* Module exports
*/
module.exports = {
MessageType : MessageType,
ErrorCode : ErrorCode,
StateTransition : StateTransition,
licensePacket : licensePacket,
clientNewLicenseRequest : clientNewLicenseRequest,
clientPLatformChallengeResponse : clientPLatformChallengeResponse
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var crypto = require('crypto');
var events = require('events');
var type = require('../../core').type;
var error = require('../../core').error;
var log = require('../../core').log;
var gcc = require('../t125/gcc');
var lic = require('./lic');
var cert = require('../cert');
var rsa = require('../../security').rsa;
/**
* @see http://msdn.microsoft.com/en-us/library/cc240579.aspx
*/
var SecurityFlag = {
SEC_EXCHANGE_PKT : 0x0001,
SEC_TRANSPORT_REQ : 0x0002,
RDP_SEC_TRANSPORT_RSP : 0x0004,
SEC_ENCRYPT : 0x0008,
SEC_RESET_SEQNO : 0x0010,
SEC_IGNORE_SEQNO : 0x0020,
SEC_INFO_PKT : 0x0040,
SEC_LICENSE_PKT : 0x0080,
SEC_LICENSE_ENCRYPT_CS : 0x0200,
SEC_LICENSE_ENCRYPT_SC : 0x0200,
SEC_REDIRECTION_PKT : 0x0400,
SEC_SECURE_CHECKSUM : 0x0800,
SEC_AUTODETECT_REQ : 0x1000,
SEC_AUTODETECT_RSP : 0x2000,
SEC_HEARTBEAT : 0x4000,
SEC_FLAGSHI_VALID : 0x8000
};
/**
* @see https://msdn.microsoft.com/en-us/library/cc240475.aspx
*/
var InfoFlag = {
INFO_MOUSE : 0x00000001,
INFO_DISABLECTRLALTDEL : 0x00000002,
INFO_AUTOLOGON : 0x00000008,
INFO_UNICODE : 0x00000010,
INFO_MAXIMIZESHELL : 0x00000020,
INFO_LOGONNOTIFY : 0x00000040,
INFO_COMPRESSION : 0x00000080,
INFO_ENABLEWINDOWSKEY : 0x00000100,
INFO_REMOTECONSOLEAUDIO : 0x00002000,
INFO_FORCE_ENCRYPTED_CS_PDU : 0x00004000,
INFO_RAIL : 0x00008000,
INFO_LOGONERRORS : 0x00010000,
INFO_MOUSE_HAS_WHEEL : 0x00020000,
INFO_PASSWORD_IS_SC_PIN : 0x00040000,
INFO_NOAUDIOPLAYBACK : 0x00080000,
INFO_USING_SAVED_CREDS : 0x00100000,
INFO_AUDIOCAPTURE : 0x00200000,
INFO_VIDEO_DISABLE : 0x00400000,
INFO_CompressionTypeMask : 0x00001E00
};
/**
* @see https://msdn.microsoft.com/en-us/library/cc240476.aspx
*/
var AfInet = {
AfInet : 0x00002,
AF_INET6 : 0x0017
};
/**
* @see https://msdn.microsoft.com/en-us/library/cc240476.aspx
*/
var PerfFlag = {
PERF_DISABLE_WALLPAPER : 0x00000001,
PERF_DISABLE_FULLWINDOWDRAG : 0x00000002,
PERF_DISABLE_MENUANIMATIONS : 0x00000004,
PERF_DISABLE_THEMING : 0x00000008,
PERF_DISABLE_CURSOR_SHADOW : 0x00000020,
PERF_DISABLE_CURSORSETTINGS : 0x00000040,
PERF_ENABLE_FONT_SMOOTHING : 0x00000080,
PERF_ENABLE_DESKTOP_COMPOSITION : 0x00000100
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc241992.aspx
* @param input {Buffer} Binary data
* @param salt {Buffer} salt for context call
* @param salt1 {Buffer} another salt (ex : client random)
* @param salt2 {Buffer} another salt (ex : server random)
* @return {Buffer}
*/
function saltedHash(input, salt, salt1, salt2) {
var sha1Digest = crypto.createHash('sha1');
sha1Digest.update(input);
sha1Digest.update(salt.slice(0, 48));
sha1Digest.update(salt1);
sha1Digest.update(salt2);
var sha1Sig = sha1Digest.digest();
var md5Digest = crypto.createHash('md5');
md5Digest.update(salt.slice(0, 48));
md5Digest.update(sha1Sig);
return md5Digest.digest();
}
/**
* @param key {Buffer} secret
* @param random1 {Buffer} client random
* @param random2 {Buffer} server random
* @returns {Buffer}
*/
function finalHash (key, random1, random2) {
var md5Digest = crypto.createHash('md5');
md5Digest.update(key);
md5Digest.update(random1);
md5Digest.update(random2);
return md5Digest.digest();
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241992.aspx
* @param secret {Buffer} secret
* @param random1 {Buffer} client random
* @param random2 {Buffer} server random
* @returns {Buffer}
*/
function masterSecret (secret, random1, random2) {
var sh1 = saltedHash(Buffer.from('A'), secret, random1, random2);
var sh2 = saltedHash(Buffer.from('BB'), secret, random1, random2);
var sh3 = saltedHash(Buffer.from('CCC'), secret, random1, random2);
var ms = Buffer.alloc(sh1.length + sh2.length + sh3.length);
sh1.copy(ms);
sh2.copy(ms, sh1.length);
sh3.copy(ms, sh1.length + sh2.length);
return ms;
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc241995.aspx
* @param macSaltKey {Buffer} key
* @param data {Buffer} data
* @returns {Buffer}
*/
function macData(macSaltKey, data) {
var salt1 = Buffer.alloc(40);
salt1.fill(0x36);
var salt2 = Buffer.alloc(48);
salt2.fill(0x5c);
var dataLength = new type.UInt32Le(data.length).toStream().buffer;
var sha1 = crypto.createHash('sha1');
sha1.update(macSaltKey);
sha1.update(salt1);
sha1.update(dataLength);
sha1.update(data);
var sha1Digest = sha1.digest();
var md5 = crypto.createHash('md5');
md5.update(macSaltKey);
md5.update(salt2);
md5.update(sha1Digest);
return md5.digest();
}
/**
* RDP client informations
* @param extendedInfoConditional {boolean} true if RDP5+
* @returns {type.Component}
*/
function rdpInfos(extendedInfoConditional) {
var self = {
codePage : new type.UInt32Le(),
flag : new type.UInt32Le(InfoFlag.INFO_MOUSE | InfoFlag.INFO_UNICODE | InfoFlag.INFO_LOGONNOTIFY | InfoFlag.INFO_LOGONERRORS | InfoFlag.INFO_DISABLECTRLALTDEL | InfoFlag.INFO_ENABLEWINDOWSKEY),
cbDomain : new type.UInt16Le(function() {
return self.domain.size() - 2;
}),
cbUserName : new type.UInt16Le(function() {
return self.userName.size() - 2;
}),
cbPassword : new type.UInt16Le(function() {
return self.password.size() - 2;
}),
cbAlternateShell : new type.UInt16Le(function() {
return self.alternateShell.size() - 2;
}),
cbWorkingDir : new type.UInt16Le(function() {
return self.workingDir.size() - 2;
}),
domain : new type.BinaryString(Buffer.from('\x00', 'ucs2'),{ readLength : new type.CallableValue(function() {
return self.cbDomain.value + 2;
})}),
userName : new type.BinaryString(Buffer.from('\x00', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbUserName.value + 2;
})}),
password : new type.BinaryString(Buffer.from('\x00', 'ucs2'), { readLength : new type.CallableValue(function () {
return self.cbPassword.value + 2;
})}),
alternateShell : new type.BinaryString(Buffer.from('\x00', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbAlternateShell.value + 2;
})}),
workingDir : new type.BinaryString(Buffer.from('\x00', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbWorkingDir.value + 2;
})}),
extendedInfo : rdpExtendedInfos({ conditional : extendedInfoConditional })
};
return new type.Component(self);
}
/**
* RDP client extended informations present in RDP5+
* @param opt
* @returns {type.Component}
*/
function rdpExtendedInfos(opt) {
var self = {
clientAddressFamily : new type.UInt16Le(AfInet.AfInet),
cbClientAddress : new type.UInt16Le(function() {
return self.clientAddress.size();
}),
clientAddress : new type.BinaryString(Buffer.from('\x00', 'ucs2'),{ readLength : new type.CallableValue(function() {
return self.cbClientAddress;
}) }),
cbClientDir : new type.UInt16Le(function() {
return self.clientDir.size();
}),
clientDir : new type.BinaryString(Buffer.from('\x00', 'ucs2'), { readLength : new type.CallableValue(function() {
return self.cbClientDir;
}) }),
clientTimeZone : new type.BinaryString(Buffer.from(Array(172 + 1).join("\x00"))),
clientSessionId : new type.UInt32Le(),
performanceFlags : new type.UInt32Le()
};
return new type.Component(self, opt);
}
/**
* Header of security header
* @returns {type.Component}
*/
function securityHeader() {
var self = {
securityFlag : new type.UInt16Le(),
securityFlagHi : new type.UInt16Le()
};
return new type.Component(self);
}
/**
* Security layer
* @param transport {events.EventEmitter}
*/
function Sec(transport, fastPathTransport) {
this.transport = transport;
this.fastPathTransport = fastPathTransport;
// init at connect event from transport layer
this.gccClient = null;
this.gccServer = null;
var self = this;
this.infos = rdpInfos(function() {
return self.gccClient.core.rdpVersion.value === gcc.VERSION.RDP_VERSION_5_PLUS;
});
this.machineName = '';
// basic encryption
this.enableEncryption = false;
if (this.fastPathTransport) {
this.fastPathTransport.on('fastPathData', function (secFlag, s) {
self.recvFastPath(secFlag, s);
});
}
};
//inherit from Layer
inherits(Sec, events.EventEmitter);
/**
* Send message with security header
* @param flag {integer} security flag
* @param data {type.*} message
*/
Sec.prototype.sendFlagged = function(flag, data) {
this.transport.send('global', new type.Component([
new type.UInt16Le(flag),
new type.UInt16Le(),
data
]));
};
/**
* Main send function
* @param message {type.*} message to send
*/
Sec.prototype.send = function(message) {
if (this.enableEncryption) {
throw new error.FatalError('NODE_RDP_PROTOCOL_PDU_SEC_ENCRYPT_NOT_IMPLEMENTED');
}
this.transport.send('global', message);
};
/**
* Main receive function
* @param s {type.Stream}
*/
Sec.prototype.recv = function(s) {
if (this.enableEncryption) {
throw new error.FatalError('NODE_RDP_PROTOCOL_PDU_SEC_ENCRYPT_NOT_IMPLEMENTED');
}
// not support yet basic RDP security layer
this.emit('data', s);
};
/**
* Receive fast path data
* @param secFlag {integer} security flag
* @param s {type.Stream}
*/
Sec.prototype.recvFastPath = function (secFlag, s) {
// transparent because basic RDP security layer not implemented
this.emit('fastPathData', secFlag, s);
};
/**
* Client security layer
* @param transport {events.EventEmitter}
*/
function Client(transport, fastPathTransport) {
Sec.call(this, transport, fastPathTransport);
// for basic RDP layer (in futur)
this.enableSecureCheckSum = false;
var self = this;
this.transport.on('connect', function(gccClient, gccServer, userId, channels) {
self.connect(gccClient, gccServer, userId, channels);
}).on('close', function() {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
};
//inherit from Layer
inherits(Client, Sec);
/**
* Connect event
*/
Client.prototype.connect = function(gccClient, gccServer, userId, channels) {
//init gcc information
this.gccClient = gccClient;
this.gccServer = gccServer;
this.userId = userId;
this.channelId = channels.find(function(e) {
if(e.name === 'global') return true;
}).id;
this.sendInfoPkt();
};
/**
* close stack
*/
Client.prototype.close = function() {
this.transport.close();
};
/**
* Send main information packet
* VIP (very important packet) because contain credentials
*/
Client.prototype.sendInfoPkt = function() {
this.sendFlagged(SecurityFlag.SEC_INFO_PKT, this.infos);
var self = this;
this.transport.once('global', function(s) {
self.recvLicense(s);
});
};
function reverse(buffer) {
var result = Buffer.alloc(buffer.length);
for(var i = 0; i < buffer.length; i++) {
result.writeUInt8(buffer.readUInt8(buffer.length - 1 - i), i);
}
return result;
}
/**
* Send a valid license request
* @param licenseRequest {object(lic.serverLicenseRequest)} license requets infos
*/
Client.prototype.sendClientNewLicenseRequest = function(licenseRequest) {
log.debug('new license request');
var serverRandom = licenseRequest.serverRandom.value;
// read server certificate
var s = new type.Stream(licenseRequest.serverCertificate.obj.blobData.value);
var certificate = cert.certificate().read(s).obj;
var publicKey = certificate.certData.obj.getPublicKey();
var clientRandom = crypto.randomBytes(32);
var preMasterSecret = crypto.randomBytes(48);
var mSecret = masterSecret(preMasterSecret, clientRandom, serverRandom);
var sessionKeyBlob = masterSecret(mSecret, serverRandom, clientRandom);
this.licenseMacSalt = sessionKeyBlob.slice(0, 16)
this.licenseKey = finalHash(sessionKeyBlob.slice(16, 32), clientRandom, serverRandom);
var request = lic.clientNewLicenseRequest();
request.obj.clientRandom.value = clientRandom;
var preMasterSecretEncrypted = reverse(rsa.encrypt(reverse(preMasterSecret), publicKey));
var preMasterSecretEncryptedPadded = Buffer.alloc(preMasterSecretEncrypted.length + 8);
preMasterSecretEncryptedPadded.fill(0);
preMasterSecretEncrypted.copy(preMasterSecretEncryptedPadded);
request.obj.encryptedPreMasterSecret.obj.blobData.value = preMasterSecretEncryptedPadded;
request.obj.ClientMachineName.obj.blobData.value = this.infos.obj.userName.value;
request.obj.ClientUserName.obj.blobData.value = Buffer.from(this.machineName + '\x00');
this.sendFlagged(SecurityFlag.SEC_LICENSE_PKT, lic.licensePacket(request));
};
/**
* Send a valid license request
* @param platformChallenge {object(lic.serverPlatformChallenge)} platform challenge
*/
Client.prototype.sendClientChallengeResponse = function(platformChallenge) {
log.debug('challenge license');
var serverEncryptedChallenge = platformChallenge.encryptedPlatformChallenge.obj.blobData.value;
var serverChallenge = crypto.createDecipheriv('rc4', this.licenseKey, '').update(serverEncryptedChallenge);
if (serverChallenge.toString('ucs2') !== 'TEST\x00') {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_PDU_SEC_INVALID_LICENSE_CHALLENGE');
}
var hwid = new type.Component([new type.UInt32Le(2), new type.BinaryString(crypto.randomBytes(16))]).toStream().buffer;
var response = lic.clientPLatformChallengeResponse();
response.obj.encryptedPlatformChallengeResponse.obj.blobData.value = serverEncryptedChallenge;
response.obj.encryptedHWID.obj.blobData.value = crypto.createCipheriv('rc4', this.licenseKey, '').update(hwid);
var sig = Buffer.alloc(serverChallenge.length + hwid.length);
serverChallenge.copy(sig);
hwid.copy(sig, serverChallenge.length);
response.obj.MACData.value = macData(this.licenseMacSalt, sig);
this.sendFlagged(SecurityFlag.SEC_LICENSE_PKT, lic.licensePacket(response));
};
/**
* Receive license informations
* @param s {type.Stream}
*/
Sec.prototype.recvLicense = function(s) {
var header = securityHeader().read(s).obj;
if (!(header.securityFlag.value & SecurityFlag.SEC_LICENSE_PKT)) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_PDU_SEC_BAD_LICENSE_HEADER');
}
var message = lic.licensePacket().read(s).obj;
// i'm accepted
if (message.bMsgtype.value === lic.MessageType.NEW_LICENSE ||
(message.bMsgtype.value === lic.MessageType.ERROR_ALERT
&& message.licensingMessage.obj.dwErrorCode.value === lic.ErrorCode.STATUS_VALID_CLIENT
&& message.licensingMessage.obj.dwStateTransition.value === lic.StateTransition.ST_NO_TRANSITION)) {
this.emit('connect', this.gccClient.core, this.userId, this.channelId);
var self = this;
this.transport.on('global', function(s) {
self.recv(s);
});
return;
}
// server ask license request
if (message.bMsgtype.value === lic.MessageType.LICENSE_REQUEST) {
this.sendClientNewLicenseRequest(message.licensingMessage.obj);
}
// server send challenge
if (message.bMsgtype.value === lic.MessageType.PLATFORM_CHALLENGE) {
this.sendClientChallengeResponse(message.licensingMessage.obj);
}
var self = this;
this.emit('connect', this.gccClient.core);
this.transport.once('global', function (s) {
self.recvLicense(s);
});
};
/**
* Module exports
*/
module.exports = {
PerfFlag : PerfFlag,
InfoFlag : InfoFlag,
Client : Client
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var net = require('net');
var inherits = require('util').inherits;
var events = require('events');
var layer = require('../core').layer;
var error = require('../core').error;
var rle = require('../core').rle;
var log = require('../core').log;
var TPKT = require('./tpkt');
var x224 = require('./x224');
var t125 = require('./t125');
var pdu = require('./pdu');
/**
* decompress bitmap from RLE algorithm
* @param bitmap {object} bitmap object of bitmap event of node-rdpjs
*/
function decompress (bitmap) {
var fName = null;
switch (bitmap.bitsPerPixel.value) {
case 15:
fName = 'bitmap_decompress_15';
break;
case 16:
fName = 'bitmap_decompress_16';
break;
case 24:
fName = 'bitmap_decompress_24';
break;
case 32:
fName = 'bitmap_decompress_32';
break;
default:
throw 'invalid bitmap data format';
}
var input = new Uint8Array(bitmap.bitmapDataStream.value);
var inputPtr = rle._malloc(input.length);
var inputHeap = new Uint8Array(rle.HEAPU8.buffer, inputPtr, input.length);
inputHeap.set(input);
var ouputSize = bitmap.width.value * bitmap.height.value * 4;
var outputPtr = rle._malloc(ouputSize);
var outputHeap = new Uint8Array(rle.HEAPU8.buffer, outputPtr, ouputSize);
var res = rle.ccall(fName,
'number',
['number', 'number', 'number', 'number', 'number', 'number', 'number', 'number'],
[outputHeap.byteOffset, bitmap.width.value, bitmap.height.value, bitmap.width.value, bitmap.height.value, inputHeap.byteOffset, input.length]
);
var output = new Uint8ClampedArray(outputHeap.buffer, outputHeap.byteOffset, ouputSize);
rle._free(inputPtr);
rle._free(outputPtr);
return output;
}
/**
* Main RDP module
*/
function RdpClient(config) {
config = config || {};
this.connected = false;
this.bufferLayer = new layer.BufferLayer(new net.Socket());
this.tpkt = new TPKT(this.bufferLayer);
this.x224 = new x224.Client(this.tpkt, config);
this.mcs = new t125.mcs.Client(this.x224);
this.sec = new pdu.sec.Client(this.mcs, this.tpkt);
this.global = new pdu.global.Client(this.sec, this.sec);
// config log level
log.level = log.Levels[config.logLevel || 'INFO'] || log.Levels.INFO;
// credentials
if (config.domain) {
this.sec.infos.obj.domain.value = Buffer.from(config.domain + '\x00', 'ucs2');
}
if (config.userName) {
this.sec.infos.obj.userName.value = Buffer.from(config.userName + '\x00', 'ucs2');
}
if (config.password) {
this.sec.infos.obj.password.value = Buffer.from(config.password + '\x00', 'ucs2');
}
if(config.workingDir) {
this.sec.infos.obj.workingDir.value = Buffer.from(config.workingDir + '\x00', 'ucs2');
}
if(config.alternateShell) {
this.sec.infos.obj.alternateShell.value = Buffer.from(config.alternateShell + '\x00', 'ucs2');
}
if (config.enablePerf) {
this.sec.infos.obj.extendedInfo.obj.performanceFlags.value =
pdu.sec.PerfFlag.PERF_DISABLE_WALLPAPER
| pdu.sec.PerfFlag.PERF_DISABLE_MENUANIMATIONS
| pdu.sec.PerfFlag.PERF_DISABLE_CURSOR_SHADOW
| pdu.sec.PerfFlag.PERF_DISABLE_THEMING
| pdu.sec.PerfFlag.PERF_DISABLE_FULLWINDOWDRAG;
}
if (config.autoLogin) {
this.sec.infos.obj.flag.value |= pdu.sec.InfoFlag.INFO_AUTOLOGON;
}
if (config.screen && config.screen.width && config.screen.height) {
this.mcs.clientCoreData.obj.desktopWidth.value = config.screen.width;
this.mcs.clientCoreData.obj.desktopHeight.value = config.screen.height;
}
log.debug('screen ' + this.mcs.clientCoreData.obj.desktopWidth.value + 'x' + this.mcs.clientCoreData.obj.desktopHeight.value);
// config keyboard layout
switch (config.locale) {
case 'fr':
log.debug('french keyboard layout');
this.mcs.clientCoreData.obj.kbdLayout.value = t125.gcc.KeyboardLayout.FRENCH;
break;
case 'en':
default:
log.debug('english keyboard layout');
this.mcs.clientCoreData.obj.kbdLayout.value = t125.gcc.KeyboardLayout.US;
}
//bind all events
var self = this;
this.global.on('connect', function () {
self.connected = true;
self.emit('connect');
}).on('session', function () {
self.emit('session');
}).on('close', function () {
self.connected = false;
self.emit('close');
}).on('bitmap', function (bitmaps) {
for(var bitmap in bitmaps) {
var bitmapData = bitmaps[bitmap].obj.bitmapDataStream.value;
var isCompress = bitmaps[bitmap].obj.flags.value & pdu.data.BitmapFlag.BITMAP_COMPRESSION;
if (isCompress && config.decompress) {
bitmapData = decompress(bitmaps[bitmap].obj);
isCompress = false;
}
self.emit('bitmap', {
destTop : bitmaps[bitmap].obj.destTop.value,
destLeft : bitmaps[bitmap].obj.destLeft.value,
destBottom : bitmaps[bitmap].obj.destBottom.value,
destRight : bitmaps[bitmap].obj.destRight.value,
width : bitmaps[bitmap].obj.width.value,
height : bitmaps[bitmap].obj.height.value,
bitsPerPixel : bitmaps[bitmap].obj.bitsPerPixel.value,
isCompress : isCompress,
data : bitmapData
});
}
}).on('error', function (err) {
log.warn(err.code + '(' + err.message + ')\n' + err.stack);
if (err instanceof error.FatalError) {
throw err;
}
else {
self.emit('error', err);
}
});
}
inherits(RdpClient, events.EventEmitter);
/**
* Connect RDP client
* @param host {string} destination host
* @param port {integer} destination port
*/
RdpClient.prototype.connect = function (host, port) {
log.debug('connect to ' + host + ':' + port);
var self = this;
this.bufferLayer.socket.connect(port, host, function () {
// in client mode connection start from x224 layer
self.x224.connect();
});
return this;
};
/**
* Close RDP client
*/
RdpClient.prototype.close = function () {
if(this.connected) {
this.global.close();
}
this.connected = false;
return this;
};
/**
* Send pointer event to server
* @param x {integer} mouse x position
* @param y {integer} mouse y position
* @param button {integer} button number of mouse
* @param isPressed {boolean} state of button
*/
RdpClient.prototype.sendPointerEvent = function (x, y, button, isPressed) {
if (!this.connected)
return;
var event = pdu.data.pointerEvent();
if (isPressed) {
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_DOWN;
}
switch(button) {
case 1:
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_BUTTON1;
break;
case 2:
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_BUTTON2;
break;
case 3:
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_BUTTON3
break;
default:
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_MOVE;
}
event.obj.xPos.value = x;
event.obj.yPos.value = y;
this.global.sendInputEvents([event]);
};
/**
* send scancode event
* @param code {integer}
* @param isPressed {boolean}
* @param extended {boolenan} extended keys
*/
RdpClient.prototype.sendKeyEventScancode = function (code, isPressed, extended) {
if (!this.connected)
return;
extended = extended || false;
var event = pdu.data.scancodeKeyEvent();
event.obj.keyCode.value = code;
if (!isPressed) {
event.obj.keyboardFlags.value |= pdu.data.KeyboardFlag.KBDFLAGS_RELEASE;
}
if (extended) {
event.obj.keyboardFlags.value |= pdu.data.KeyboardFlag.KBDFLAGS_EXTENDED;
}
this.global.sendInputEvents([event]);
};
/**
* Send key event as unicode
* @param code {integer}
* @param isPressed {boolean}
*/
RdpClient.prototype.sendKeyEventUnicode = function (code, isPressed) {
if (!this.connected)
return;
var event = pdu.data.unicodeKeyEvent();
event.obj.unicode.value = code;
if (!isPressed) {
event.obj.keyboardFlags.value |= pdu.data.KeyboardFlag.KBDFLAGS_RELEASE;
}
this.global.sendInputEvents([event]);
}
/**
* Wheel mouse event
* @param x {integer} mouse x position
* @param y {integer} mouse y position
* @param step {integer} wheel step
* @param isNegative {boolean}
* @param isHorizontal {boolean}
*/
RdpClient.prototype.sendWheelEvent = function (x, y, step, isNegative, isHorizontal) {
if (!this.connected)
return;
var event = pdu.data.pointerEvent();
if (isHorizontal) {
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_HWHEEL;
}
else {
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_WHEEL;
}
if (isNegative) {
event.obj.pointerFlags.value |= pdu.data.PointerFlag.PTRFLAGS_WHEEL_NEGATIVE;
}
event.obj.pointerFlags.value |= (step & pdu.data.PointerFlag.WheelRotationMask)
event.obj.xPos.value = x;
event.obj.yPos.value = y;
this.global.sendInputEvents([event]);
}
function createClient(config) {
return new RdpClient(config);
};
/**
* RDP server side protocol
* @param config {object} configuration
* @param socket {net.Socket}
*/
function RdpServer(config, socket) {
if (!(config.key && config.cert)) {
throw new error.FatalError('NODE_RDP_PROTOCOL_RDP_SERVER_CONFIG_MISSING', 'missing cryptographic tools')
}
this.connected = false;
this.bufferLayer = new layer.BufferLayer(socket);
this.tpkt = new TPKT(this.bufferLayer);
this.x224 = new x224.Server(this.tpkt, config.key, config.cert);
this.mcs = new t125.mcs.Server(this.x224);
};
inherits(RdpServer, events.EventEmitter);
function createServer (config, next) {
return net.createServer(function (socket) {
next(new RdpServer(config, socket));
});
};
/**
* Module exports
*/
module.exports = {
createClient : createClient,
createServer : createServer
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../../core').type;
var log = require('../../core').log;
var error = require('../../core').error;
var per = require('./per');
var t124_02_98_oid = [ 0, 0, 20, 124, 0, 1 ];
var h221_cs_key = "Duca";
var h221_sc_key = "McDn";
/**
* @see http://msdn.microsoft.com/en-us/library/cc240509.aspx
*/
var MessageType = {
//server -> client
SC_CORE : 0x0C01,
SC_SECURITY : 0x0C02,
SC_NET : 0x0C03,
//client -> server
CS_CORE : 0xC001,
CS_SECURITY : 0xC002,
CS_NET : 0xC003,
CS_CLUSTER : 0xC004,
CS_MONITOR : 0xC005
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var ColorDepth = {
RNS_UD_COLOR_8BPP : 0xCA01,
RNS_UD_COLOR_16BPP_555 : 0xCA02,
RNS_UD_COLOR_16BPP_565 : 0xCA03,
RNS_UD_COLOR_24BPP : 0xCA04
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var HighColor = {
HIGH_COLOR_4BPP : 0x0004,
HIGH_COLOR_8BPP : 0x0008,
HIGH_COLOR_15BPP : 0x000f,
HIGH_COLOR_16BPP : 0x0010,
HIGH_COLOR_24BPP : 0x0018
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var Support = {
RNS_UD_24BPP_SUPPORT : 0x0001,
RNS_UD_16BPP_SUPPORT : 0x0002,
RNS_UD_15BPP_SUPPORT : 0x0004,
RNS_UD_32BPP_SUPPORT : 0x0008
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var CapabilityFlag = {
RNS_UD_CS_SUPPORT_ERRINFO_PDU : 0x0001,
RNS_UD_CS_WANT_32BPP_SESSION : 0x0002,
RNS_UD_CS_SUPPORT_STATUSINFO_PDU : 0x0004,
RNS_UD_CS_STRONG_ASYMMETRIC_KEYS : 0x0008,
RNS_UD_CS_UNUSED : 0x0010,
RNS_UD_CS_VALID_CONNECTION_TYPE : 0x0020,
RNS_UD_CS_SUPPORT_MONITOR_LAYOUT_PDU : 0x0040,
RNS_UD_CS_SUPPORT_NETCHAR_AUTODETECT : 0x0080,
RNS_UD_CS_SUPPORT_DYNVC_GFX_PROTOCOL : 0x0100,
RNS_UD_CS_SUPPORT_DYNAMIC_TIME_ZONE : 0x0200,
RNS_UD_CS_SUPPORT_HEARTBEAT_PDU : 0x0400
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var ConnectionType = {
CONNECTION_TYPE_MODEM : 0x01,
CONNECTION_TYPE_BROADBAND_LOW : 0x02,
CONNECTION_TYPE_SATELLITE : 0x03,
CONNECTION_TYPE_BROADBAND_HIGH : 0x04,
CONNECTION_TYPE_WAN : 0x05,
CONNECTION_TYPE_LAN : 0x06,
CONNECTION_TYPE_AUTODETECT : 0x07
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
*/
var VERSION = {
RDP_VERSION_4 : 0x00080001,
RDP_VERSION_5_PLUS : 0x00080004
};
var Sequence = {
RNS_UD_SAS_DEL : 0xAA03
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240511.aspx
*/
var EncryptionMethod = {
ENCRYPTION_FLAG_40BIT : 0x00000001,
ENCRYPTION_FLAG_128BIT : 0x00000002,
ENCRYPTION_FLAG_56BIT : 0x00000008,
FIPS_ENCRYPTION_FLAG : 0x00000010
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240518.aspx
*/
var EncryptionLevel = {
ENCRYPTION_LEVEL_NONE : 0x00000000,
ENCRYPTION_LEVEL_LOW : 0x00000001,
ENCRYPTION_LEVEL_CLIENT_COMPATIBLE : 0x00000002,
ENCRYPTION_LEVEL_HIGH : 0x00000003,
ENCRYPTION_LEVEL_FIPS : 0x00000004
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240513.aspx
*/
var ChannelOptions = {
CHANNEL_OPTION_INITIALIZED : 0x80000000,
CHANNEL_OPTION_ENCRYPT_RDP : 0x40000000,
CHANNEL_OPTION_ENCRYPT_SC : 0x20000000,
CHANNEL_OPTION_ENCRYPT_CS : 0x10000000,
CHANNEL_OPTION_PRI_HIGH : 0x08000000,
CHANNEL_OPTION_PRI_MED : 0x04000000,
CHANNEL_OPTION_PRI_LOW : 0x02000000,
CHANNEL_OPTION_COMPRESS_RDP : 0x00800000,
CHANNEL_OPTION_COMPRESS : 0x00400000,
CHANNEL_OPTION_SHOW_PROTOCOL : 0x00200000,
REMOTE_CONTROL_PERSISTENT : 0x00100000
};
/**
* IBM_101_102_KEYS is the most common keyboard type
*/
var KeyboardType = {
IBM_PC_XT_83_KEY : 0x00000001,
OLIVETTI : 0x00000002,
IBM_PC_AT_84_KEY : 0x00000003,
IBM_101_102_KEYS : 0x00000004,
NOKIA_1050 : 0x00000005,
NOKIA_9140 : 0x00000006,
JAPANESE : 0x00000007
};
/**
* @see http://technet.microsoft.com/en-us/library/cc766503%28WS.10%29.aspx
*/
var KeyboardLayout = {
ARABIC : 0x00000401,
BULGARIAN : 0x00000402,
CHINESE_US_KEYBOARD : 0x00000404,
CZECH : 0x00000405,
DANISH : 0x00000406,
GERMAN : 0x00000407,
GREEK : 0x00000408,
US : 0x00000409,
SPANISH : 0x0000040a,
FINNISH : 0x0000040b,
FRENCH : 0x0000040c,
HEBREW : 0x0000040d,
HUNGARIAN : 0x0000040e,
ICELANDIC : 0x0000040f,
ITALIAN : 0x00000410,
JAPANESE : 0x00000411,
KOREAN : 0x00000412,
DUTCH : 0x00000413,
NORWEGIAN : 0x00000414
};
/**
* @see http://msdn.microsoft.com/en-us/library/cc240521.aspx
*/
var CertificateType = {
CERT_CHAIN_VERSION_1 : 0x00000001,
CERT_CHAIN_VERSION_2 : 0x00000002
};
/**
* @param {type.Type} data
* @returns {type.Component}
*/
function block(data) {
var self = {
// type of data block
type : new type.UInt16Le(function() {
return self.data.obj.__TYPE__;
}),
// length of entire packet
length : new type.UInt16Le(function() {
return new type.Component(self).size();
}),
// data block
data : data || new type.Factory(function(s){
var options = {
readLength : new type.CallableValue( function () {
return self.length.value - 4;
})
};
switch(self.type.value) {
case MessageType.SC_CORE:
self.data = serverCoreData(options).read(s);
break;
case MessageType.SC_SECURITY:
self.data = serverSecurityData(options).read(s);
break;
case MessageType.SC_NET:
self.data = serverNetworkData(null, options).read(s);
break;
case MessageType.CS_CORE:
self.data = clientCoreData(options).read(s);
break;
case MessageType.CS_SECURITY:
self.data = clientSecurityData(options).read(s);
break;
case MessageType.CS_NET:
self.data = clientNetworkData(null, options).read(s);
break;
default:
log.debug("unknown gcc block type " + self.type.value);
self.data = new type.BinaryString(null, options).read(s);
}
})
};
return new type.Component(self);
}
/**
* Main client informations
* keyboard
* screen definition
* color depth
* @see http://msdn.microsoft.com/en-us/library/cc240510.aspx
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function clientCoreData(opt) {
var self = {
__TYPE__ : MessageType.CS_CORE,
rdpVersion : new type.UInt32Le(VERSION.RDP_VERSION_5_PLUS),
desktopWidth : new type.UInt16Le(1280),
desktopHeight : new type.UInt16Le(800),
colorDepth : new type.UInt16Le(ColorDepth.RNS_UD_COLOR_8BPP),
sasSequence : new type.UInt16Le(Sequence.RNS_UD_SAS_DEL),
kbdLayout : new type.UInt32Le(KeyboardLayout.FRENCH),
clientBuild : new type.UInt32Le(3790),
clientName : new type.BinaryString(Buffer.from('node-rdpjs\x00\x00\x00\x00\x00\x00', 'ucs2'), { readLength : new type.CallableValue(32) }),
keyboardType : new type.UInt32Le(KeyboardType.IBM_101_102_KEYS),
keyboardSubType : new type.UInt32Le(0),
keyboardFnKeys : new type.UInt32Le(12),
imeFileName : new type.BinaryString(Buffer.from(Array(64 + 1).join('\x00')), { readLength : new type.CallableValue(64), optional : true }),
postBeta2ColorDepth : new type.UInt16Le(ColorDepth.RNS_UD_COLOR_8BPP, { optional : true }),
clientProductId : new type.UInt16Le(1, { optional : true }),
serialNumber : new type.UInt32Le(0, { optional : true }),
highColorDepth : new type.UInt16Le(HighColor.HIGH_COLOR_24BPP, { optional : true }),
supportedColorDepths : new type.UInt16Le(Support.RNS_UD_15BPP_SUPPORT | Support.RNS_UD_16BPP_SUPPORT | Support.RNS_UD_24BPP_SUPPORT | Support.RNS_UD_32BPP_SUPPORT, { optional : true }),
earlyCapabilityFlags : new type.UInt16Le(CapabilityFlag.RNS_UD_CS_SUPPORT_ERRINFO_PDU, { optional : true }),
clientDigProductId : new type.BinaryString(Buffer.from(Array(64 + 1).join('\x00')), { optional : true, readLength : new type.CallableValue(64) }),
connectionType : new type.UInt8(0, { optional : true }),
pad1octet : new type.UInt8(0, { optional : true }),
serverSelectedProtocol : new type.UInt32Le(0, { optional : true })
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240517.aspx
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function serverCoreData(opt) {
var self = {
__TYPE__ : MessageType.SC_CORE,
rdpVersion : new type.UInt32Le(VERSION.RDP_VERSION_5_PLUS),
clientRequestedProtocol : new type.UInt32Le(null, { optional : true }),
earlyCapabilityFlags : new type.UInt32Le(null, { optional : true })
};
return new type.Component(self, opt);
}
/**
* @see http://msdn.microsoft.com/en-us/library/cc240511.aspx
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function clientSecurityData(opt) {
var self = {
__TYPE__ : MessageType.CS_SECURITY,
encryptionMethods : new type.UInt32Le(EncryptionMethod.ENCRYPTION_FLAG_40BIT | EncryptionMethod.ENCRYPTION_FLAG_56BIT | EncryptionMethod.ENCRYPTION_FLAG_128BIT),
extEncryptionMethods : new type.UInt32Le()
};
return new type.Component(self, opt);
}
/**
* Only use for SSL (RDP security layer TODO)
* @see http://msdn.microsoft.com/en-us/library/cc240518.aspx
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function serverSecurityData(opt) {
var self = {
__TYPE__ : MessageType.SC_SECURITY,
encryptionMethod : new type.UInt32Le(),
encryptionLevel : new type.UInt32Le()
};
return new type.Component(self, opt);
}
/**
* Channel definition
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function channelDef (opt) {
var self = {
name : new type.BinaryString(null, { readLength : new type.CallableValue(8) }),
options : new type.UInt32Le()
};
return new type.Component(self, opt);
}
/**
* Optional channel requests (sound, clipboard ...)
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function clientNetworkData(channelDefArray, opt) {
var self = {
__TYPE__ : MessageType.CS_NET,
channelCount : new type.UInt32Le( function () {
return self.channelDefArray.obj.length;
}),
channelDefArray : channelDefArray || new type.Factory( function (s) {
self.channelDefArray = new type.Component([]);
for (var i = 0; i < self.channelCount.value; i++) {
self.channelDefArray.obj.push(channelDef().read(s));
}
})
};
return new type.Component(self, opt);
}
/**
* @param channelIds {type.Component} list of available channels
* @param opt {object} Classic type options
* @returns {type.Component}
*/
function serverNetworkData (channelIds, opt) {
var self = {
__TYPE__ : MessageType.SC_NET,
MCSChannelId : new type.UInt16Le(1003, { constant : true }),
channelCount : new type.UInt16Le(function () {
return self.channelIdArray.obj.length;
}),
channelIdArray : channelIds || new type.Factory( function (s) {
self.channelIdArray = new type.Component([]);
for (var i = 0; i < self.channelCount.value; i++) {
self.channelIdArray.obj.push(new type.UInt16Le().read(s));
}
}),
pad : new type.UInt16Le(null, { conditional : function () {
return (self.channelCount.value % 2) === 1;
}})
};
return new type.Component(self, opt);
}
/**
* Client or server GCC settings block
* @param blocks {type.Component} array of gcc blocks
* @param opt {object} options to component type
* @returns {type.Component}
*/
function settings(blocks, opt) {
var self = {
blocks : blocks || new type.Factory(function(s) {
self.blocks = new type.Component([]);
// read until end of stream
while(s.availableLength() > 0) {
self.blocks.obj.push(block().read(s));
}
}),
};
return new type.Component(self, opt);
}
/**
* Read GCC response from server
* @param s {type.Stream} current stream
* @returns {Array(type.Component)} list of server block
*/
function readConferenceCreateResponse(s) {
per.readChoice(s);
if(!per.readObjectIdentifier(s, t124_02_98_oid)) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_T125_GCC_BAD_OBJECT_IDENTIFIER_T124');
}
per.readLength(s);
per.readChoice(s);
per.readInteger16(s, 1001);
per.readInteger(s);
per.readEnumerates(s);
per.readNumberOfSet(s);
per.readChoice(s);
if (!per.readOctetStream(s, h221_sc_key, 4)) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_T125_GCC_BAD_H221_SC_KEY');
}
length = per.readLength(s);
serverSettings = settings(null, { readLength : new type.CallableValue(length) });
// Object magic
return serverSettings.read(s).obj.blocks.obj.map(function(e) {
return e.obj.data;
});
}
/**
* Read GCC request
* @param s {type.Stream}
* @returns {Array(type.Component)} list of client block
*/
function readConferenceCreateRequest (s) {
per.readChoice(s);
if (!per.readObjectIdentifier(s, t124_02_98_oid)) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_T125_GCC_BAD_H221_SC_KEY');
}
per.readLength(s);
per.readChoice(s);
per.readSelection(s);
per.readNumericString(s, 1);
per.readPadding(s, 1);
if (per.readNumberOfSet(s) !== 1) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_T125_GCC_BAD_SET');
}
if (per.readChoice(s) !== 0xc0) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_T125_GCC_BAD_CHOICE');
}
per.readOctetStream(s, h221_cs_key, 4);
length = per.readLength(s);
var clientSettings = settings(null, { readLength : new type.CallableValue(length) });
// Object magic
return clientSettings.read(s).obj.blocks.obj.map(function(e) {
return e.obj.data;
});
}
/**
* Built {type.Componen} from gcc user data
* @param userData {type.Component} GCC data from client
* @returns {type.Component} GCC encoded client user data
*/
function writeConferenceCreateRequest (userData) {
var userDataStream = new type.Stream(userData.size());
userData.write(userDataStream);
return new type.Component([
per.writeChoice(0), per.writeObjectIdentifier(t124_02_98_oid),
per.writeLength(userData.size() + 14), per.writeChoice(0),
per.writeSelection(0x08), per.writeNumericString("1", 1), per.writePadding(1),
per.writeNumberOfSet(1), per.writeChoice(0xc0),
per.writeOctetStream(Buffer.from(h221_cs_key), 4), per.writeOctetStream(userDataStream.getValue())
]);
}
function writeConferenceCreateResponse (userData) {
var userDataStream = new type.Stream(userData.size());
userData.write(userDataStream);
return new type.Component([
per.writeChoice(0), per.writeObjectIdentifier(t124_02_98_oid),
per.writeLength(userData.size() + 14), per.writeChoice(0x14),
per.writeInteger16(0x79F3, 1001), per.writeInteger(1), per.writeEnumerates(0),
per.writeNumberOfSet(1), per.writeChoice(0xc0),
per.writeOctetStream(Buffer.from(h221_sc_key), 4), per.writeOctetStream(userDataStream.getValue())
]);
}
/**
* Module exports
*/
module.exports = {
MessageType : MessageType,
VERSION : VERSION,
KeyboardLayout : KeyboardLayout,
block : block,
clientCoreData : clientCoreData,
clientNetworkData : clientNetworkData,
clientSecurityData : clientSecurityData,
serverCoreData : serverCoreData,
serverSecurityData : serverSecurityData,
serverNetworkData : serverNetworkData,
readConferenceCreateResponse : readConferenceCreateResponse,
readConferenceCreateRequest : readConferenceCreateRequest,
writeConferenceCreateRequest : writeConferenceCreateRequest,
writeConferenceCreateResponse : writeConferenceCreateResponse
};

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@ -0,0 +1,26 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var mcs = require('./mcs');
var gcc = require('./gcc');
module.exports = {
mcs : mcs,
gcc : gcc
};

490
rdp/protocol/t125/mcs.js Normal file
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@ -0,0 +1,490 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var events = require('events');
var type = require('../../core').type;
var log = require('../../core').log;
var error = require('../../core').error;
var gcc = require('./gcc');
var per = require('./per');
var asn1 = require('../../asn1');
var Message = {
MCS_TYPE_CONNECT_INITIAL : 0x65,
MCS_TYPE_CONNECT_RESPONSE : 0x66
};
var DomainMCSPDU = {
ERECT_DOMAIN_REQUEST : 1,
DISCONNECT_PROVIDER_ULTIMATUM : 8,
ATTACH_USER_REQUEST : 10,
ATTACH_USER_CONFIRM : 11,
CHANNEL_JOIN_REQUEST : 14,
CHANNEL_JOIN_CONFIRM : 15,
SEND_DATA_REQUEST : 25,
SEND_DATA_INDICATION : 26
};
var Channel = {
MCS_GLOBAL_CHANNEL : 1003,
MCS_USERCHANNEL_BASE : 1001
};
/**
* @see http://www.itu.int/rec/T-REC-T.125-199802-I/en page 25
* @returns {asn1.univ.Sequence}
*/
function DomainParameters(maxChannelIds, maxUserIds, maxTokenIds,
numPriorities, minThoughput, maxHeight, maxMCSPDUsize, protocolVersion) {
return new asn1.univ.Sequence({
maxChannelIds : new asn1.univ.Integer(maxChannelIds),
maxUserIds : new asn1.univ.Integer(maxUserIds),
maxTokenIds : new asn1.univ.Integer(maxTokenIds),
numPriorities : new asn1.univ.Integer(numPriorities),
minThoughput : new asn1.univ.Integer(minThoughput),
maxHeight : new asn1.univ.Integer(maxHeight),
maxMCSPDUsize : new asn1.univ.Integer(maxMCSPDUsize),
protocolVersion : new asn1.univ.Integer(protocolVersion)
});
}
/**
* @see http://www.itu.int/rec/T-REC-T.125-199802-I/en page 25
* @param userData {Buffer}
* @returns {asn1.univ.Sequence}
*/
function ConnectInitial (userData) {
return new asn1.univ.Sequence({
callingDomainSelector : new asn1.univ.OctetString(Buffer.from('\x01', 'binary')),
calledDomainSelector : new asn1.univ.OctetString(Buffer.from('\x01', 'binary')),
upwardFlag : new asn1.univ.Boolean(true),
targetParameters : DomainParameters(34, 2, 0, 1, 0, 1, 0xffff, 2),
minimumParameters : DomainParameters(1, 1, 1, 1, 0, 1, 0x420, 2),
maximumParameters : DomainParameters(0xffff, 0xfc17, 0xffff, 1, 0, 1, 0xffff, 2),
userData : new asn1.univ.OctetString(userData)
}).implicitTag(new asn1.spec.Asn1Tag(asn1.spec.TagClass.Application, asn1.spec.TagFormat.Constructed, 101));
}
/**
* @see http://www.itu.int/rec/T-REC-T.125-199802-I/en page 25
* @returns {asn1.univ.Sequence}
*/
function ConnectResponse (userData) {
return new asn1.univ.Sequence({
result : new asn1.univ.Enumerate(0),
calledConnectId : new asn1.univ.Integer(0),
domainParameters : DomainParameters(22, 3, 0, 1, 0, 1,0xfff8, 2),
userData : new asn1.univ.OctetString(userData)
}).implicitTag(new asn1.spec.Asn1Tag(asn1.spec.TagClass.Application, asn1.spec.TagFormat.Constructed, 102));
}
/**
* Format MCS PDU header packet
* @param mcsPdu {integer}
* @param options {integer}
* @returns {type.UInt8} headers
*/
function writeMCSPDUHeader(mcsPdu, options) {
options = options || 0;
return new type.UInt8((mcsPdu << 2) | options);
}
/**
* Read MCS PDU header
* @param opcode
* @param mcsPdu
* @returns {Boolean}
*/
function readMCSPDUHeader(opcode, mcsPdu) {
return (opcode >> 2) === mcsPdu;
}
/**
* Multi-Channel Services
* @param transport {events.EventEmitter} transport layer listen (connect, data) events
* @param recvOpCode {DomainMCSPDU} opcode use in receive automata
* @param sendOpCode {DomainMCSPDU} opcode use to send message
*/
function MCS(transport, recvOpCode, sendOpCode) {
this.transport = transport;
this.recvOpCode = recvOpCode;
this.sendOpCode = sendOpCode;
this.channels = [{id : Channel.MCS_GLOBAL_CHANNEL, name : 'global'}];
this.channels.find = function(callback) {
for(var i in this) {
if(callback(this[i])) return this[i];
};
};
// bind events
var self = this;
this.transport.on('close', function () {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
}
//inherit from Layer
inherits(MCS, events.EventEmitter);
/**
* Send message to a specific channel
* @param channelName {string} name of channel
* @param data {type.*} message to send
*/
MCS.prototype.send = function(channelName, data) {
var channelId = this.channels.find(function(element) {
if (element.name === channelName) return true;
}).id;
this.transport.send(new type.Component([
writeMCSPDUHeader(this.sendOpCode),
per.writeInteger16(this.userId, Channel.MCS_USERCHANNEL_BASE),
per.writeInteger16(channelId),
new type.UInt8(0x70),
per.writeLength(data.size()),
data
]));
};
/**
* Main receive function
* @param s {type.Stream}
*/
MCS.prototype.recv = function(s) {
opcode = new type.UInt8().read(s).value;
if (readMCSPDUHeader(opcode, DomainMCSPDU.DISCONNECT_PROVIDER_ULTIMATUM)) {
log.info("MCS DISCONNECT_PROVIDER_ULTIMATUM");
this.transport.close();
return
}
else if(!readMCSPDUHeader(opcode, this.recvOpCode)) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_BAD_RECEIVE_OPCODE');
}
per.readInteger16(s, Channel.MCS_USERCHANNEL_BASE);
var channelId = per.readInteger16(s);
per.readEnumerates(s);
per.readLength(s);
var channelName = this.channels.find(function(e) {
if (e.id === channelId) return true;
}).name;
this.emit(channelName, s);
};
/**
* Only main channels handle actually
* @param transport {event.EventEmitter} bind connect and data events
* @returns
*/
function Client(transport) {
MCS.call(this, transport, DomainMCSPDU.SEND_DATA_INDICATION, DomainMCSPDU.SEND_DATA_REQUEST);
// channel context automata
this.channelsConnected = 0;
// init gcc information
this.clientCoreData = gcc.clientCoreData();
this.clientNetworkData = gcc.clientNetworkData(new type.Component([]));
this.clientSecurityData = gcc.clientSecurityData();
// must be readed from protocol
this.serverCoreData = null;
this.serverSecurityData = null;
this.serverNetworkData = null;
var self = this;
this.transport.on('connect', function(s) {
self.connect(s);
});
}
inherits(Client, MCS);
/**
* Connect event layer
*/
Client.prototype.connect = function(selectedProtocol) {
this.clientCoreData.obj.serverSelectedProtocol.value = selectedProtocol;
this.sendConnectInitial();
};
/**
* close stack
*/
Client.prototype.close = function() {
this.transport.close();
};
/**
* MCS connect response (server->client)
* @param s {type.Stream}
*/
Client.prototype.recvConnectResponse = function(s) {
var userData = new type.Stream(ConnectResponse().decode(s, asn1.ber).value.userData.value);
var serverSettings = gcc.readConferenceCreateResponse(userData);
// record server gcc block
for(var i in serverSettings) {
if(!serverSettings[i].obj) {
continue;
}
switch(serverSettings[i].obj.__TYPE__) {
case gcc.MessageType.SC_CORE:
this.serverCoreData = serverSettings[i];
break;
case gcc.MessageType.SC_SECURITY:
this.serverSecurityData = serverSettings[i];
break;
case gcc.MessageType.SC_NET:
this.serverNetworkData = serverSettings[i];
break;
default:
log.warn('unhandle server gcc block : ' + serverSettings[i].obj.__TYPE__);
}
}
// send domain request
this.sendErectDomainRequest();
// send attach user request
this.sendAttachUserRequest();
// now wait user confirm from server
var self = this;
this.transport.once('data', function(s) {
self.recvAttachUserConfirm(s);
});
};
/**
* MCS connection automata step
* @param s {type.Stream}
*/
Client.prototype.recvAttachUserConfirm = function(s) {
if (!readMCSPDUHeader(new type.UInt8().read(s).value, DomainMCSPDU.ATTACH_USER_CONFIRM)) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_BAD_HEADER');
}
if (per.readEnumerates(s) !== 0) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_SERVER_REJECT_USER');
}
this.userId = per.readInteger16(s, Channel.MCS_USERCHANNEL_BASE);
//ask channel for specific user
this.channels.push({ id : this.userId, name : 'user' });
// channel connect automata
this.connectChannels();
};
/**
* Last state in channel connection automata
* @param s {type.Stream}
*/
Client.prototype.recvChannelJoinConfirm = function(s) {
var opcode = new type.UInt8().read(s).value;
if (!readMCSPDUHeader(opcode, DomainMCSPDU.CHANNEL_JOIN_CONFIRM)) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_WAIT_CHANNEL_JOIN_CONFIRM');
}
var confirm = per.readEnumerates(s);
var userId = per.readInteger16(s, Channel.MCS_USERCHANNEL_BASE);
if (this.userId !== userId) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_INVALID_USER_ID');
}
var channelId = per.readInteger16(s);
if ((confirm !== 0) && (channelId === Channel.MCS_GLOBAL_CHANNEL || channelId === this.userId)) {
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_MCS_SERVER_MUST_CONFIRM_STATIC_CHANNEL');
}
this.connectChannels();
};
/**
* First MCS message
*/
Client.prototype.sendConnectInitial = function() {
var ccReq = gcc.writeConferenceCreateRequest(new type.Component([
gcc.block(this.clientCoreData),
gcc.block(this.clientNetworkData),
gcc.block(this.clientSecurityData)
])).toStream().getValue();
this.transport.send(ConnectInitial(ccReq).encode(asn1.ber));
// next event is connect response
var self = this;
this.transport.once('data', function(s) {
self.recvConnectResponse(s);
});
};
/**
* MCS connection automata step
*/
Client.prototype.sendErectDomainRequest = function() {
this.transport.send(new type.Component([
writeMCSPDUHeader(DomainMCSPDU.ERECT_DOMAIN_REQUEST),
per.writeInteger(0),
per.writeInteger(0)
]));
};
/**
* MCS connection automata step
*/
Client.prototype.sendAttachUserRequest = function() {
this.transport.send(writeMCSPDUHeader(DomainMCSPDU.ATTACH_USER_REQUEST));
};
/**
* Send a channel join request
* @param channelId {integer} channel id
*/
Client.prototype.sendChannelJoinRequest = function(channelId) {
this.transport.send(new type.Component([
writeMCSPDUHeader(DomainMCSPDU.CHANNEL_JOIN_REQUEST),
per.writeInteger16(this.userId, Channel.MCS_USERCHANNEL_BASE),
per.writeInteger16(channelId)
]));
};
/**
* Connect channels automata
* @param s {type.Stream}
*/
Client.prototype.connectChannels = function(s) {
if(this.channelsConnected == this.channels.length) {
var self = this;
this.transport.on('data', function(s) {
self.recv(s);
});
// send client and sever gcc informations
this.emit('connect',
{
core : this.clientCoreData.obj,
security : this.clientSecurityData.obj,
net : this.clientNetworkData.obj
},
{
core : this.serverCoreData.obj,
security : this.serverSecurityData.obj
}, this.userId, this.channels);
return;
}
this.sendChannelJoinRequest(this.channels[this.channelsConnected++].id);
var self = this;
this.transport.once('data', function(s) {
self.recvChannelJoinConfirm(s);
});
};
/**
* Server side of MCS layer
* @param transport
*/
function Server (transport) {
MCS.call(this, transport, DomainMCSPDU.SEND_DATA_REQUEST, DomainMCSPDU.SEND_DATA_INDICATION);
// must be readed from protocol
this.clientCoreData = null;
this.clientNetworkData = null;
this.clientSecurityData = null;
// init gcc information
this.serverCoreData = gcc.serverCoreData();
this.serverSecurityData = gcc.serverSecurityData();
this.serverNetworkData = gcc.serverNetworkData(new type.Component([]));
var self = this;
this.transport.on('connect', function (selectedProtocol) {
self.serverCoreData.obj.clientRequestedProtocol.value = selectedProtocol;
}).once('data', function (s) {
self.recvConnectInitial(s);
});
}
inherits(Server, MCS);
/**
* First state of server automata
* @param s {type.Stream}
*/
Server.prototype.recvConnectInitial = function (s) {
var userData = new type.Stream(ConnectInitial().decode(s, asn1.ber).value.userData.value);
var clientSettings = gcc.readConferenceCreateRequest(userData);
// record server gcc block
for(var i in clientSettings) {
if(!clientSettings[i].obj) {
continue;
}
switch(clientSettings[i].obj.__TYPE__) {
case gcc.MessageType.CS_CORE:
this.clientCoreData = clientSettings[i];
break;
case gcc.MessageType.CS_SECURITY:
this.clientSecurityData = clientSettings[i];
break;
case gcc.MessageType.CS_NET:
this.clientNetworkData = clientSettings[i];
for (var i = 0; i < this.clientNetworkData.obj.channelCount.value; i++) {
this.serverNetworkData.obj.channelIdArray.obj.push(new type.UInt16Le( i + 1 + Channel.MCS_GLOBAL_CHANNEL));
}
break;
default:
log.debug('unhandle client gcc block : ' + clientSettings[i].obj.__TYPE__);
}
}
this.sendConnectResponse();
};
/**
* State 2 in mcs server connetion automata
*/
Server.prototype.sendConnectResponse = function () {
var ccReq = gcc.writeConferenceCreateResponse(new type.Component([
gcc.block(this.serverCoreData),
gcc.block(this.serverSecurityData),
gcc.block(this.serverNetworkData),
])).toStream().getValue();
this.transport.send(ConnectResponse(ccReq).encode(asn1.ber));
};
/**
* Module exports
*/
module.exports = {
Client : Client,
Server : Server
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var type = require('../../core').type;
var error = require('../../core').error;
/**
* @param s {type.Stream} read value from stream
* @returns read length from per format
*/
function readLength(s) {
var byte = new type.UInt8().read(s).value;
var size = 0;
if(byte & 0x80) {
byte &= ~0x80;
size = byte << 8;
size += new type.UInt8().read(s).value;
}
else {
size = byte;
}
return size;
}
/**
* @param value {raw} value to convert to per format
* @returns type objects per encoding value
*/
function writeLength(value) {
if(value > 0x7f) {
return new type.UInt16Be(value | 0x8000);
}
else {
return new type.UInt8(value);
}
}
/**
* @param s {type.Stream}
* @returns {integer} choice decoding from per encoding
*/
function readChoice(s) {
return new type.UInt8().read(s).value;
}
/**
* @param choice {integer}
* @returns {type.UInt8} choice per encoded
*/
function writeChoice(choice) {
return new type.UInt8(choice);
}
/**
* @param s {type.Stream}
* @returns {integer} number represent selection
*/
function readSelection(s) {
return new type.UInt8().read(s).value;
}
/**
* @param selection {integer}
* @returns {type.UInt8} per encoded selection
*/
function writeSelection(selection) {
return new type.UInt8(selection);
}
/**
* @param s {type.Stream}
* @returns {integer} number of sets
*/
function readNumberOfSet(s) {
return new type.UInt8().read(s).value;
}
/**
* @param numberOfSet {integer}
* @returns {type.UInt8} per encoded nuimber of sets
*/
function writeNumberOfSet(numberOfSet) {
return new type.UInt8(numberOfSet);
}
/**
* @param s {type.Stream}
* @returns {integer} enumerates number
*/
function readEnumerates(s) {
return new type.UInt8().read(s).value;
}
/**
* @param enumerate {integer}
* @returns {type.UInt8} per encoded enumerate
*/
function writeEnumerates(enumerate) {
return new type.UInt8(enumerate);
}
/**
* @param s {type.Stream}
* @returns {integer} integer per decoded
*/
function readInteger(s) {
var result;
var size = readLength(s);
switch(size) {
case 1:
result = new type.UInt8();
break;
case 2:
result = new type.UInt16Be();
break;
case 4:
result = new type.UInt32Be();
break;
default:
throw new error.UnexpectedFatalError('NODE_RDP_PROTOCOL_T125_PER_BAD_INTEGER_LENGTH');
}
return result.read(s).value;
}
/**
* @param value {integer}
* @returns {type.Component} per encoded integer
*/
function writeInteger(value) {
if(value <= 0xff) {
return new type.Component([writeLength(1), new type.UInt8(value)]);
}
else if(value < 0xffff) {
return new type.Component([writeLength(2), new type.UInt16Be(value)]);
}
else {
return new type.Component([writeLength(4), new type.UInt32Be(value)]);
}
}
/**
* @param s {type.Stream}
* @param minimum {integer} increment (default 0)
* @returns {integer} per decoded integer 16 bits
*/
function readInteger16(s, minimum) {
return new type.UInt16Be().read(s).value + (minimum || 0);
}
/**
* @param value {integer}
* @param minimum {integer} decrement (default 0)
* @returns {type.UInt16Be} per encoded integer 16 bits
*/
function writeInteger16(value, minimum) {
return new type.UInt16Be(value - (minimum || 0));
}
/**
* Check object identifier
* @param s {type.Stream}
* @param oid {array} object identifier to check
*/
function readObjectIdentifier(s, oid) {
var size = readLength(s);
if(size !== 5) {
return false;
}
var a_oid = [0, 0, 0, 0, 0, 0];
var t12 = new type.UInt8().read(s).value;
a_oid[0] = t12 >> 4;
a_oid[1] = t12 & 0x0f;
a_oid[2] = new type.UInt8().read(s).value;
a_oid[3] = new type.UInt8().read(s).value;
a_oid[4] = new type.UInt8().read(s).value;
a_oid[5] = new type.UInt8().read(s).value;
for(var i in oid) {
if(oid[i] !== a_oid[i]) return false;
}
return true;
}
/**
* @param oid {array} oid to write
* @returns {type.Component} per encoded object identifier
*/
function writeObjectIdentifier(oid) {
return new type.Component([new type.UInt8(5), new type.UInt8((oid[0] << 4) & (oid[1] & 0x0f)), new type.UInt8(oid[2]), new type.UInt8(oid[3]), new type.UInt8(oid[4]), new type.UInt8(oid[5])]);
}
/**
* Read as padding...
* @param s {type.Stream}
* @param minValue
*/
function readNumericString(s, minValue) {
var length = readLength(s);
length = (length + minValue + 1) / 2;
s.readPadding(length);
}
/**
* @param nStr {String}
* @param minValue {integer}
* @returns {type.Component} per encoded numeric string
*/
function writeNumericString(nStr, minValue) {
var length = nStr.length;
var mlength = minValue;
if(length - minValue >= 0) {
mlength = length - minValue;
}
var result = [];
for(var i = 0; i < length; i += 2) {
var c1 = nStr.charCodeAt(i);
var c2 = 0;
if(i + 1 < length) {
c2 = nStr.charCodeAt(i + 1);
}
else {
c2 = 0x30;
}
c1 = (c1 - 0x30) % 10;
c2 = (c2 - 0x30) % 10;
result[result.length] = new type.UInt8((c1 << 4) | c2);
}
return new type.Component([writeLength(mlength), new type.Component(result)]);
}
/**
* @param s {type.Stream}
* @param length {integer} length of padding
*/
function readPadding(s, length) {
s.readPadding(length);
}
/**
* @param length {integer} length of padding
* @returns {type.BinaryString} per encoded padding
*/
function writePadding(length) {
return new type.BinaryString(Buffer.from(Array(length + 1).join("\x00")));
}
/**
* @param s {type.Stream}
* @param octetStream {String}
* @param minValue {integer} default 0
* @returns {Boolean} true if read octectStream is equal to octetStream
*/
function readOctetStream(s, octetStream, minValue) {
var size = readLength(s) + (minValue || 0);
if(size !== octetStream.length) {
return false;
}
for(var i = 0; i < size; i++) {
var c = new type.UInt8().read(s);
if(octetStream.charCodeAt(i) !== c.value) {
return false;
}
}
return true;
}
/**
* @param oStr {String}
* @param minValue {integer} default 0
* @returns {type.Component} per encoded octet stream
*/
function writeOctetStream(oStr, minValue) {
minValue = minValue || 0;
var length = oStr.length;
var mlength = minValue;
if(length - minValue >= 0) {
mlength = length - minValue;
}
result = [];
for(var i = 0; i < length; i++) {
result[result.length] = new type.UInt8(oStr[i]);
}
return new type.Component([writeLength(mlength), new type.Component(result)]);
}
/**
* Module exports
*/
module.exports = {
readLength : readLength,
writeLength : writeLength,
readChoice : readChoice,
writeChoice : writeChoice,
readSelection : readSelection,
writeSelection : writeSelection,
readNumberOfSet : readNumberOfSet,
writeNumberOfSet : writeNumberOfSet,
readEnumerates : readEnumerates,
writeEnumerates : writeEnumerates,
readInteger : readInteger,
writeInteger : writeInteger,
readInteger16 : readInteger16,
writeInteger16 : writeInteger16,
readObjectIdentifier : readObjectIdentifier,
writeObjectIdentifier : writeObjectIdentifier,
readNumericString : readNumericString,
writeNumericString : writeNumericString,
readPadding : readPadding,
writePadding : writePadding,
readOctetStream : readOctetStream,
writeOctetStream : writeOctetStream
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var type = require('../core').type;
var events = require('events');
/**
* Type of tpkt packet
* Fastpath is use to shortcut RDP stack
* @see http://msdn.microsoft.com/en-us/library/cc240621.aspx
* @see http://msdn.microsoft.com/en-us/library/cc240589.aspx
*/
var Action = {
FASTPATH_ACTION_FASTPATH : 0x0,
FASTPATH_ACTION_X224 : 0x3
};
/**
* TPKT layer of rdp stack
*/
function TPKT(transport) {
this.transport = transport;
// wait 2 bytes
this.transport.expect(2);
// next state is receive header
var self = this;
this.transport.once('data', function(s) {
self.recvHeader(s);
}).on('close', function() {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
}
/**
* inherit from a packet layer
*/
inherits(TPKT, events.EventEmitter);
/**
* Receive correct packet as expected
* @param s {type.Stream}
*/
TPKT.prototype.recvHeader = function (s) {
var version = new type.UInt8().read(s).value;
var self = this;
if(version === Action.FASTPATH_ACTION_X224) {
new type.UInt8().read(s);
this.transport.expect(2);
this.transport.once('data', function(s) {
self.recvExtendedHeader(s);
});
}
else {
this.secFlag = ((version >> 6) & 0x3);
var length = new type.UInt8().read(s).value;
if (length & 0x80) {
this.transport.expect(1);
this.transport.once('data', function(s) {
self.recvExtendedFastPathHeader(s, length);
});
}
else {
this.transport.expect(length - 2);
this.transport.once('data', function(s) {
self.recvFastPath(s);
});
}
}
};
/**
* Receive second part of header packet
* @param s {type.Stream}
*/
TPKT.prototype.recvExtendedHeader = function (s) {
var size = new type.UInt16Be().read(s);
this.transport.expect(size.value - 4);
//next state receive packet
var self = this;
this.transport.once('data', function(s) {
self.recvData(s);
});
};
/**
* Receive data available for presentation layer
* @param s {type.Stream}
*/
TPKT.prototype.recvData = function (s) {
this.emit('data', s);
this.transport.expect(2);
//next state receive header
var self = this;
this.transport.once('data', function(s) {
self.recvHeader(s);
});
};
/**
* Read extended fastpath header
* @param s {type.Stream}
*/
TPKT.prototype.recvExtendedFastPathHeader = function (s, length) {
var rightPart = new type.UInt8().read(s).value;
var leftPart = length & ~0x80;
var packetSize = (leftPart << 8) + rightPart;
var self = this;
this.transport.expect(packetSize - 3);
this.transport.once('data', function(s) {
self.recvFastPath(s);
});
};
/**
* Read fast path data
* @param s {type.Stream}
*/
TPKT.prototype.recvFastPath = function (s) {
this.emit('fastPathData', this.secFlag, s);
var self = this;
this.transport.expect(2);
this.transport.once('data', function(s) {
self.recvHeader(s);
});
};
/**
* Send message throught TPKT layer
* @param message {type.*}
*/
TPKT.prototype.send = function(message) {
this.transport.send(new type.Component([
new type.UInt8(Action.FASTPATH_ACTION_X224),
new type.UInt8(0),
new type.UInt16Be(message.size() + 4),
message
]));
};
/**
* close stack
*/
TPKT.prototype.close = function() {
this.transport.close();
};
/**
* Module exports
*/
module.exports = TPKT;

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var inherits = require('util').inherits;
var events = require('events');
var type = require('../core').type;
var log = require('../core').log;
var error = require('../core').error;
/**
* Message type present in X224 packet header
*/
var MessageType = {
X224_TPDU_CONNECTION_REQUEST : 0xE0,
X224_TPDU_CONNECTION_CONFIRM : 0xD0,
X224_TPDU_DISCONNECT_REQUEST : 0x80,
X224_TPDU_DATA : 0xF0,
X224_TPDU_ERROR : 0x70
};
/**
* Type of negotiation present in negotiation packet
*/
var NegotiationType = {
TYPE_RDP_NEG_REQ : 0x01,
TYPE_RDP_NEG_RSP : 0x02,
TYPE_RDP_NEG_FAILURE : 0x03
};
/**
* Protocols available for x224 layer
*/
var Protocols = {
PROTOCOL_RDP : 0x00000000,
PROTOCOL_SSL : 0x00000001,
PROTOCOL_HYBRID : 0x00000002,
PROTOCOL_HYBRID_EX : 0x00000008
};
/**
* Use to negotiate security layer of RDP stack
* In node-rdpjs only ssl is available
* @param opt {object} component type options
* @see request -> http://msdn.microsoft.com/en-us/library/cc240500.aspx
* @see response -> http://msdn.microsoft.com/en-us/library/cc240506.aspx
* @see failure ->http://msdn.microsoft.com/en-us/library/cc240507.aspx
*/
function negotiation(opt) {
var self = {
type : new type.UInt8(),
flag : new type.UInt8(),
length : new type.UInt16Le(0x0008, { constant : true }),
result : new type.UInt32Le()
};
return new type.Component(self, opt);
}
/**
* X224 client connection request
* @param opt {object} component type options
* @see http://msdn.microsoft.com/en-us/library/cc240470.aspx
*/
function clientConnectionRequestPDU(opt, cookie) {
var self = {
len : new type.UInt8(function() {
return new type.Component(self).size() - 1;
}),
code : new type.UInt8(MessageType.X224_TPDU_CONNECTION_REQUEST, { constant : true }),
padding : new type.Component([new type.UInt16Le(), new type.UInt16Le(), new type.UInt8()]),
cookie : cookie || new type.Factory( function (s) {
var offset = 0;
while (true) {
var token = s.buffer.readUInt16LE(s.offset + offset);
if (token === 0x0a0d) {
self.cookie = new type.BinaryString(null, { readLength : new type.CallableValue(offset + 2) }).read(s);
return;
}
else {
offset += 1;
}
}
}, { conditional : function () {
return self.len.value > 14;
}}),
protocolNeg : negotiation({ optional : true })
};
return new type.Component(self, opt);
}
/**
* X224 Server connection confirm
* @param opt {object} component type options
* @see http://msdn.microsoft.com/en-us/library/cc240506.aspx
*/
function serverConnectionConfirm(opt) {
var self = {
len : new type.UInt8(function() {
return new type.Component(self).size() - 1;
}),
code : new type.UInt8(MessageType.X224_TPDU_CONNECTION_CONFIRM, { constant : true }),
padding : new type.Component([new type.UInt16Le(), new type.UInt16Le(), new type.UInt8()]),
protocolNeg : negotiation({ optional : true })
};
return new type.Component(self, opt);
}
/**
* Header of each data message from x224 layer
* @returns {type.Component}
*/
function x224DataHeader() {
var self = {
header : new type.UInt8(2),
messageType : new type.UInt8(MessageType.X224_TPDU_DATA, { constant : true }),
separator : new type.UInt8(0x80, { constant : true })
};
return new type.Component(self);
}
/**
* Common X224 Automata
* @param presentation {Layer} presentation layer
*/
function X224(transport) {
this.transport = transport;
this.requestedProtocol = Protocols.PROTOCOL_SSL | Protocols.PROTOCOL_HYBRID;
this.selectedProtocol = Protocols.PROTOCOL_SSL | Protocols.PROTOCOL_HYBRID;
var self = this;
this.transport.on('close', function() {
self.emit('close');
}).on('error', function (err) {
self.emit('error', err);
});
}
//inherit from Layer
inherits(X224, events.EventEmitter);
/**
* Main data received function
* after connection sequence
* @param s {type.Stream} stream formated from transport layer
*/
X224.prototype.recvData = function(s) {
// check header
x224DataHeader().read(s);
this.emit('data', s);
};
/**
* Format message from x224 layer to transport layer
* @param message {type}
* @returns {type.Component} x224 formated message
*/
X224.prototype.send = function(message) {
this.transport.send(new type.Component([x224DataHeader(), message]));
};
/**
* Client x224 automata
* @param transport {events.EventEmitter} (bind data events)
*/
function Client(transport, config) {
this.config = config;
X224.call(this, transport);
}
//inherit from X224 automata
inherits(Client, X224);
/**
* Client automata connect event
*/
Client.prototype.connect = function() {
var message = clientConnectionRequestPDU(null, new type.BinaryString());
message.obj.protocolNeg.obj.type.value = NegotiationType.TYPE_RDP_NEG_REQ;
message.obj.protocolNeg.obj.result.value = this.requestedProtocol;
this.transport.send(message);
// next state wait connection confirm packet
var self = this;
this.transport.once('data', function(s) {
self.recvConnectionConfirm(s);
});
};
/**
* close stack
*/
Client.prototype.close = function() {
this.transport.close();
};
/**
* Receive connection from server
* @param s {Stream}
*/
Client.prototype.recvConnectionConfirm = function(s) {
var message = serverConnectionConfirm().read(s);
if (message.obj.protocolNeg.obj.type.value == NegotiationType.TYPE_RDP_NEG_FAILURE) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_X224_NEG_FAILURE',
'Failure code:' + message.obj.protocolNeg.obj.result.value + " (see https://msdn.microsoft.com/en-us/library/cc240507.aspx)");
}
if (message.obj.protocolNeg.obj.type.value == NegotiationType.TYPE_RDP_NEG_RSP) {
this.selectedProtocol = message.obj.protocolNeg.obj.result.value;
}
if ([Protocols.PROTOCOL_HYBRID_EX].indexOf(this.selectedProtocol) !== -1) {
throw new error.ProtocolError('NODE_RDP_PROTOCOL_X224_NLA_NOT_SUPPORTED');
}
if (this.selectedProtocol == Protocols.PROTOCOL_RDP) {
log.debug("RDP standard security selected");
return;
}
if (this.selectedProtocol == Protocols.PROTOCOL_HYBRID) {
log.debug("NLA security layer selected");
var self = this;
var transportEx = this.transport.transport;
this.transport.transport.startTLS(function () {
//console.log('TLS connected, start cssp_connect()');
var NLA = require('./nla');
self.nla = new NLA(transportEx, function () { self.nlaCompleted(); }, self.config.domain, self.config.userName, self.config.password);
self.nla.sendNegotiateMessage();
});
return;
}
// finish connection sequence
var self = this;
this.transport.on('data', function(s) {
self.recvData(s);
});
if (this.selectedProtocol == Protocols.PROTOCOL_SSL) {
log.debug("SSL standard security selected");
this.transport.transport.startTLS(function() {
self.emit('connect', self.selectedProtocol);
});
return;
}
};
/**
* Called when NLA is completed
*/
Client.prototype.nlaCompleted = function () {
const self = this;
delete self.nla;
this.transport.on('data', function (s) { self.recvData(s); });
this.emit('connect', this.selectedProtocol);
}
/**
* Server x224 automata
*/
function Server(transport, keyFilePath, crtFilePath) {
X224.call(this, transport);
this.keyFilePath = keyFilePath;
this.crtFilePath = crtFilePath;
var self = this;
this.transport.once('data', function (s) {
self.recvConnectionRequest(s);
});
}
//inherit from X224 automata
inherits(Server, X224);
/**
* @see http://msdn.microsoft.com/en-us/library/cc240470.aspx
* @param s {type.Stream}
*/
Server.prototype.recvConnectionRequest = function (s) {
var request = clientConnectionRequestPDU().read(s);
if (!request.obj.protocolNeg.isReaded) {
throw new Error('NODE_RDP_PROTOCOL_X224_NO_BASIC_SECURITY_LAYER');
}
this.requestedProtocol = request.obj.protocolNeg.obj.result.value;
this.selectedProtocol = this.requestedProtocol & Protocols.PROTOCOL_SSL;
if (!(this.selectedProtocol & Protocols.PROTOCOL_SSL)) {
var confirm = serverConnectionConfirm();
confirm.obj.protocolNeg.obj.type.value = NegociationType.TYPE_RDP_NEG_FAILURE;
confirm.obj.protocolNeg.obj.result.value = NegotiationFailureCode.SSL_REQUIRED_BY_SERVER;
this.transport.send(confirm);
this.close();
}
else {
this.sendConnectionConfirm();
}
};
/**
* Start SSL connection if needed
* @see http://msdn.microsoft.com/en-us/library/cc240501.aspx
*/
Server.prototype.sendConnectionConfirm = function () {
var confirm = serverConnectionConfirm();
confirm.obj.protocolNeg.obj.type.value = NegotiationType.TYPE_RDP_NEG_RSP;
confirm.obj.protocolNeg.obj.result.value = this.selectedProtocol;
this.transport.send(confirm);
// finish connection sequence
var self = this;
this.transport.on('data', function(s) {
self.recvData(s);
});
this.transport.transport.listenTLS(this.keyFilePath, this.crtFilePath, function() {
log.debug('start SSL connection');
self.emit('connect', self.requestedProtocol);
});
};
/**
* Module exports
*/
module.exports = {
Client : Client,
Server : Server
};

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/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var x509 = require('./x509');
var rsa = require('./rsa');
module.exports = {
x509 : x509,
rsa : rsa
};

1543
rdp/security/jsbn.js Normal file

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43
rdp/security/rsa.js Normal file
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@ -0,0 +1,43 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var BigInteger = require('./jsbn');
/**
* @param modulus {Buffer}
* @param pubExp {integer}
*/
function publicKey(modulus, pubExp) {
return {
n : modulus,
e : pubExp
}
}
function encrypt(data, publicKey) {
return new BigInteger(data).modPowInt(publicKey.e, new BigInteger(publicKey.n)).toBuffer();
}
/**
* Module Export
*/
module.exports = {
publicKey : publicKey,
encrypt : encrypt
};

216
rdp/security/x509.js Normal file
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@ -0,0 +1,216 @@
/*
* Copyright (c) 2014-2015 Sylvain Peyrefitte
*
* This file is part of node-rdpjs.
*
* node-rdpjs is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
// https://tools.ietf.org/html/rfc5280
var asn1 = require('../asn1');
/**
* @see https://tools.ietf.org/html/rfc5280 page 20
* @returns {asn1.univ.Choice}
*/
function DirectoryString() {
return new asn1.univ.Choice({
teletexString : new asn1.univ.T61String(),
printableString : new asn1.univ.PrintableString(),
universalString : new asn1.univ.UniversalString(),
utf8String : new asn1.univ.UTF8String(),
bmpString : new asn1.univ.BMPString(),
ia5String : new asn1.univ.IA5String()
});
}
/**
* https://tools.ietf.org/html/rfc5280 page 20
* @returns {asn1.univ.Choice}
*/
function AttributeValue() {
return DirectoryString();
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 20
* @returns {asn1.univ.ObjectIdentifier}
*/
function AttributeType() {
return new asn1.univ.ObjectIdentifier();
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 20
* @returns {asn1.univ.Sequence}
*/
function AttributeTypeAndValue() {
return new asn1.univ.Sequence({
type : AttributeType(),
value : AttributeValue()
});
}
/**
* https://tools.ietf.org/html/rfc5280 page 116
* @returns {asn1.univ.SetOf}
*/
function RelativeDistinguishedName() {
return new asn1.univ.SetOf(AttributeTypeAndValue);
}
/**
* https://tools.ietf.org/html/rfc5280 page 116
* @returns {asn1.univ.SequenceOf}
*/
function RDNSequence() {
return new asn1.univ.SequenceOf(RelativeDistinguishedName);
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 116
* @returns {asn1.univ.Choice}
*/
function Name() {
return new asn1.univ.Choice({
rdnSequence : RDNSequence()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 18
* @returns {asn1.univ.Sequence}
*/
function AlgorithmIdentifier() {
return new asn1.univ.Sequence({
algorithm : new asn1.univ.ObjectIdentifier(),
parameters : new asn1.univ.Null()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Sequence}
*/
function Extension() {
return new asn1.univ.Sequence({
extnID : new asn1.univ.ObjectIdentifier(),
critical : new asn1.univ.Boolean(),
extnValue : new asn1.univ.OctetString()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.SequenceOf}
*/
function Extensions() {
return new asn1.univ.SequenceOf(Extension);
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Choice}
*/
function Time() {
return new asn1.univ.Choice({
utcTime : new asn1.univ.UTCTime(),
generalTime : new asn1.univ.GeneralizedTime()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Sequence}
*/
function Validity() {
return new asn1.univ.Sequence({
notBefore : Time(),
notAfter : Time()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Integer}
*/
function CertificateSerialNumber() {
return new asn1.univ.Integer();
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Sequence}
*/
function SubjectPublicKeyInfo() {
return new asn1.univ.Sequence({
algorithm : AlgorithmIdentifier(),
subjectPublicKey : new asn1.univ.BitString()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.BitString}
*/
function UniqueIdentifier() {
return new asn1.univ.BitString();
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Sequence}
*/
function TbsCertificate() {
return new asn1.univ.Sequence({
version : CertificateSerialNumber().explicitTag(new asn1.spec.Asn1Tag(asn1.spec.TagClass.Context, asn1.spec.TagFormat.Constructed, 0)),
serialNumber : new asn1.univ.Integer(),
signature : AlgorithmIdentifier(),
issuer : Name(),
validity : Validity(),
subject : Name(),
subjectPublicKeyInfo : SubjectPublicKeyInfo(),
issuerUniqueID : UniqueIdentifier().implicitTag(asn1.spec.TagClass.Context, asn1.spec.TagFormat.Primitive, 1).optional(),
subjectUniqueID : UniqueIdentifier().implicitTag(asn1.spec.TagClass.Context, asn1.spec.TagFormat.Primitive, 2).optional(),
extensions : Extensions().implicitTag(asn1.spec.TagClass.Context, asn1.spec.TagFormat.Primitive, 3).optional()
});
}
/**
* @see https://tools.ietf.org/html/rfc5280 page 117
* @returns {asn1.univ.Sequence}
*/
function X509Certificate() {
return new asn1.univ.Sequence({
tbsCertificate : TbsCertificate(),
signatureAlgorithm : AlgorithmIdentifier(),
signatureValue : new asn1.univ.BitString()
});
}
function RSAPublicKey() {
return new asn1.univ.Sequence({
modulus : new asn1.univ.Integer(),
publicExponent : new asn1.univ.Integer()
});
}
/**
* Module Export
*/
module.exports = {
X509Certificate : X509Certificate,
RSAPublicKey : RSAPublicKey
};

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@ -2931,7 +2931,7 @@ module.exports.CreateWebServer = function (parent, db, args, certificates, doneF
if (domain.sessionrecording != null) { features += 0x08000000; } // Server recordings enabled if (domain.sessionrecording != null) { features += 0x08000000; } // Server recordings enabled
if (domain.urlswitching === false) { features += 0x10000000; } // Disables the URL switching feature if (domain.urlswitching === false) { features += 0x10000000; } // Disables the URL switching feature
if (domain.novnc === false) { features += 0x20000000; } // Disables noVNC if (domain.novnc === false) { features += 0x20000000; } // Disables noVNC
if (domain.mstsc !== true) { features += 0x40000000; } // Disables MSTSC.js if (domain.mstsc === false) { features += 0x40000000; } // Disables MSTSC.js
if (obj.isTrustedCert(domain) == false) { features += 0x80000000; } // Indicate we are not using a trusted certificate if (obj.isTrustedCert(domain) == false) { features += 0x80000000; } // Indicate we are not using a trusted certificate
if (obj.parent.amtManager != null) { features2 += 0x00000001; } // Indicates that the Intel AMT manager is active if (obj.parent.amtManager != null) { features2 += 0x00000001; } // Indicates that the Intel AMT manager is active
if (obj.parent.firebase != null) { features2 += 0x00000002; } // Indicates the server supports Firebase push messaging if (obj.parent.firebase != null) { features2 += 0x00000002; } // Indicates the server supports Firebase push messaging