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/ *
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Copyright 2018 - 2021 Intel Corporation
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Licensed under the Apache License , Version 2.0 ( the "License" ) ;
you may not use this file except in compliance with the License .
You may obtain a copy of the License at
http : //www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing , software
distributed under the License is distributed on an "AS IS" BASIS ,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND , either express or implied .
See the License for the specific language governing permissions and
limitations under the License .
* /
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/*xjslint node: true */
/*xjslint plusplus: true */
/*xjslint maxlen: 256 */
/*jshint node: true */
/*jshint strict: false */
/*jshint esversion: 6 */
"use strict" ;
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const exeJavaScriptGuid = 'B996015880544A19B7F7E9BE44914C18' ;
const exeMeshPolicyGuid = 'B996015880544A19B7F7E9BE44914C19' ;
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const exeNullPolicyGuid = 'B996015880544A19B7F7E9BE44914C20' ;
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// Changes a Windows Executable to add JavaScript inside of it.
// This method will write to destination stream and close it.
//
// options = {
// platform: 'win32' or 'linux',
// sourceFileName: 'pathToBinary',
// destinationStream: 'outputStream'
// js: 'jsContent',
// peinfo {} // Optional, if PE header already parsed place it here.
// }
//
module . exports . streamExeWithJavaScript = function ( options ) {
// Check all inputs
if ( ! options . platform ) { throw ( 'platform not specified' ) ; }
if ( ! options . destinationStream ) { throw ( 'destination stream was not specified' ) ; }
if ( ! options . sourceFileName ) { throw ( 'source file not specified' ) ; }
if ( ! options . js ) { throw ( 'js content not specified' ) ; }
// If a Windows binary, parse it if not already parsed
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if ( ( options . platform == 'win32' ) && ( ! options . peinfo ) ) { options . peinfo = module . exports . parseWindowsExecutable ( options . sourceFileName ) ; }
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// If unsigned Windows or Linux, we merge at the end with the GUID and no padding.
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if ( ( ( options . platform == 'win32' ) && ( options . peinfo . CertificateTableAddress == 0 ) ) || ( options . platform != 'win32' ) ) {
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// This is not a signed binary, so we can just send over the EXE then the MSH
options . destinationStream . sourceStream = require ( 'fs' ) . createReadStream ( options . sourceFileName , { flags : 'r' } ) ;
options . destinationStream . sourceStream . options = options ;
options . destinationStream . sourceStream . on ( 'end' , function ( ) {
// Once the binary is streamed, write the msh + length + guid in that order.
this . options . destinationStream . write ( this . options . js ) ; // JS content
var sz = Buffer . alloc ( 4 ) ;
sz . writeUInt32BE ( this . options . js . length , 0 ) ;
this . options . destinationStream . write ( sz ) ; // Length in small endian
this . options . destinationStream . end ( Buffer . from ( exeJavaScriptGuid , 'hex' ) ) ; // GUID
} ) ;
// Pipe the entire source binary without ending the stream.
options . destinationStream . sourceStream . pipe ( options . destinationStream , { end : false } ) ;
} else {
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throw ( 'streamExeWithJavaScript(): Cannot stream JavaScript with signed executable.' ) ;
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}
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} ;
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// Changes a Windows Executable to add the MSH inside of it.
// This method will write to destination stream and close it.
//
// options = {
// platform: 'win32' or 'linux',
// sourceFileName: 'pathToBinary',
// destinationStream: 'outputStream'
// msh: 'mshContent',
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// randomPolicy: true, // Set is the MSH contains random data
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// peinfo {} // Optional, if PE header already parsed place it here.
// }
//
module . exports . streamExeWithMeshPolicy = function ( options ) {
// Check all inputs
if ( ! options . platform ) { throw ( 'platform not specified' ) ; }
if ( ! options . destinationStream ) { throw ( 'destination stream was not specified' ) ; }
if ( ! options . sourceFileName ) { throw ( 'source file not specified' ) ; }
if ( ! options . msh ) { throw ( 'msh content not specified' ) ; }
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options . mshbuf = Buffer . from ( options . msh , 'utf8' ) ;
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// If a Windows binary, parse it if not already parsed
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if ( ( options . platform == 'win32' ) && ( ! options . peinfo ) ) { options . peinfo = module . exports . parseWindowsExecutable ( options . sourceFileName ) ; }
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// If unsigned Windows or Linux, we merge at the end with the GUID and no padding.
if ( ( options . platform == 'win32' && options . peinfo . CertificateTableAddress == 0 ) || options . platform != 'win32' ) {
// This is not a signed binary, so we can just send over the EXE then the MSH
options . destinationStream . sourceStream = require ( 'fs' ) . createReadStream ( options . sourceFileName , { flags : 'r' } ) ;
options . destinationStream . sourceStream . options = options ;
options . destinationStream . sourceStream . on ( 'end' , function ( ) {
// Once the binary is streamed, write the msh + length + guid in that order.
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this . options . destinationStream . write ( this . options . mshbuf ) ; // MSH
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var sz = Buffer . alloc ( 4 ) ;
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sz . writeUInt32BE ( this . options . mshbuf . length , 0 ) ;
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this . options . destinationStream . write ( sz ) ; // Length in small endian
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this . options . destinationStream . end ( Buffer . from ( ( this . options . randomPolicy === true ) ? exeNullPolicyGuid : exeMeshPolicyGuid , 'hex' ) ) ; // Guid
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} ) ;
// Pipe the entire source binary without ending the stream.
options . destinationStream . sourceStream . pipe ( options . destinationStream , { end : false } ) ;
} else if ( options . platform == 'win32' && options . peinfo . CertificateTableAddress != 0 ) {
// Read up to the certificate table size and stream that out
options . destinationStream . sourceStream = require ( 'fs' ) . createReadStream ( options . sourceFileName , { flags : 'r' , start : 0 , end : options . peinfo . CertificateTableSizePos - 1 } ) ;
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options . destinationStream . sourceStream . mshPadding = ( 8 - ( ( options . peinfo . certificateDwLength + options . mshbuf . length + 20 ) % 8 ) ) % 8 ; // Compute the padding with quad-align
options . destinationStream . sourceStream . CertificateTableSize = ( options . peinfo . CertificateTableSize + options . mshbuf . length + 20 + options . destinationStream . sourceStream . mshPadding ) ; // Add to the certificate table size
options . destinationStream . sourceStream . certificateDwLength = ( options . peinfo . certificateDwLength + options . mshbuf . length + 20 + options . destinationStream . sourceStream . mshPadding ) ; // Add to the certificate size
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options . destinationStream . sourceStream . options = options ;
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options . destinationStream . sourceStream . on ( 'end' , function ( ) {
// We sent up to the CertificateTableSize, now we need to send the updated certificate table size
var sz = Buffer . alloc ( 4 ) ;
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sz . writeUInt32LE ( this . CertificateTableSize , 0 ) ;
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this . options . destinationStream . write ( sz ) ; // New cert table size
// Stream everything up to the start of the certificate table entry
var source2 = require ( 'fs' ) . createReadStream ( options . sourceFileName , { flags : 'r' , start : this . options . peinfo . CertificateTableSizePos + 4 , end : this . options . peinfo . CertificateTableAddress - 1 } ) ;
source2 . options = this . options ;
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source2 . mshPadding = this . mshPadding ;
source2 . certificateDwLength = this . certificateDwLength ;
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source2 . on ( 'end' , function ( ) {
// We've sent up to the Certificate DWLength, which we need to update
var sz = Buffer . alloc ( 4 ) ;
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sz . writeUInt32LE ( this . certificateDwLength , 0 ) ;
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this . options . destinationStream . write ( sz ) ; // New certificate length
// Stream the entire binary until the end
var source3 = require ( 'fs' ) . createReadStream ( options . sourceFileName , { flags : 'r' , start : this . options . peinfo . CertificateTableAddress + 4 } ) ;
source3 . options = this . options ;
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source3 . mshPadding = this . mshPadding ;
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source3 . on ( 'end' , function ( ) {
// We've sent the entire binary... Now send: Padding + MSH + MSHLength + GUID
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if ( this . mshPadding > 0 ) { this . options . destinationStream . write ( Buffer . alloc ( this . mshPadding ) ) ; } // Padding
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this . options . destinationStream . write ( this . options . mshbuf ) ; // MSH content
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var sz = Buffer . alloc ( 4 ) ;
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sz . writeUInt32BE ( this . options . mshbuf . length , 0 ) ;
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this . options . destinationStream . write ( sz ) ; // MSH Length, small-endian
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this . options . destinationStream . end ( Buffer . from ( ( this . options . randomPolicy === true ) ? exeNullPolicyGuid : exeMeshPolicyGuid , 'hex' ) ) ; // Guid
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} ) ;
source3 . pipe ( this . options . destinationStream , { end : false } ) ;
this . options . sourceStream = source3 ;
} ) ;
source2 . pipe ( this . options . destinationStream , { end : false } ) ;
this . options . destinationStream . sourceStream = source2 ;
} ) ;
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options . destinationStream . sourceStream . pipe ( options . destinationStream , { end : false } ) ;
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}
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} ;
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// Return information about this executable
// This works only on Windows binaries
module . exports . parseWindowsExecutable = function ( exePath ) {
var retVal = { } ;
var fs = require ( 'fs' ) ;
var fd = fs . openSync ( exePath , 'r' ) ;
var bytesRead ;
var dosHeader = Buffer . alloc ( 64 ) ;
var ntHeader = Buffer . alloc ( 24 ) ;
var optHeader ;
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var numRVA ;
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// Read the DOS header
bytesRead = fs . readSync ( fd , dosHeader , 0 , 64 , 0 ) ;
if ( dosHeader . readUInt16LE ( 0 ) . toString ( 16 ) . toUpperCase ( ) != '5A4D' ) { throw ( 'unrecognized binary format' ) ; }
// Read the NT header
bytesRead = fs . readSync ( fd , ntHeader , 0 , ntHeader . length , dosHeader . readUInt32LE ( 60 ) ) ;
if ( ntHeader . slice ( 0 , 4 ) . toString ( 'hex' ) != '50450000' ) {
throw ( 'not a PE file' ) ;
}
switch ( ntHeader . readUInt16LE ( 4 ) . toString ( 16 ) ) {
case '14c' : // 32 bit
retVal . format = 'x86' ;
break ;
case '8664' : // 64 bit
retVal . format = 'x64' ;
break ;
default : // Unknown
retVal . format = undefined ;
break ;
}
retVal . optionalHeaderSize = ntHeader . readUInt16LE ( 20 ) ;
retVal . optionalHeaderSizeAddress = dosHeader . readUInt32LE ( 60 ) + 20 ;
// Read the optional header
optHeader = Buffer . alloc ( ntHeader . readUInt16LE ( 20 ) ) ;
bytesRead = fs . readSync ( fd , optHeader , 0 , optHeader . length , dosHeader . readUInt32LE ( 60 ) + 24 ) ;
retVal . CheckSumPos = dosHeader . readUInt32LE ( 60 ) + 24 + 64 ;
retVal . SizeOfCode = optHeader . readUInt32LE ( 4 ) ;
retVal . SizeOfInitializedData = optHeader . readUInt32LE ( 8 ) ;
retVal . SizeOfUnInitializedData = optHeader . readUInt32LE ( 12 ) ;
switch ( optHeader . readUInt16LE ( 0 ) . toString ( 16 ) . toUpperCase ( ) ) {
case '10B' : // 32 bit binary
numRVA = optHeader . readUInt32LE ( 92 ) ;
retVal . CertificateTableAddress = optHeader . readUInt32LE ( 128 ) ;
retVal . CertificateTableSize = optHeader . readUInt32LE ( 132 ) ;
retVal . CertificateTableSizePos = dosHeader . readUInt32LE ( 60 ) + 24 + 132 ;
retVal . rvaStartAddress = dosHeader . readUInt32LE ( 60 ) + 24 + 96 ;
break ;
case '20B' : // 64 bit binary
numRVA = optHeader . readUInt32LE ( 108 ) ;
retVal . CertificateTableAddress = optHeader . readUInt32LE ( 144 ) ;
retVal . CertificateTableSize = optHeader . readUInt32LE ( 148 ) ;
retVal . CertificateTableSizePos = dosHeader . readUInt32LE ( 60 ) + 24 + 148 ;
retVal . rvaStartAddress = dosHeader . readUInt32LE ( 60 ) + 24 + 112 ;
break ;
default :
throw ( 'Unknown Value found for Optional Magic: ' + ntHeader . readUInt16LE ( 24 ) . toString ( 16 ) . toUpperCase ( ) ) ;
}
retVal . rvaCount = numRVA ;
if ( retVal . CertificateTableAddress ) {
// Read the authenticode certificate, only one cert (only the first entry)
var hdr = Buffer . alloc ( 8 ) ;
fs . readSync ( fd , hdr , 0 , hdr . length , retVal . CertificateTableAddress ) ;
retVal . certificate = Buffer . alloc ( hdr . readUInt32LE ( 0 ) ) ;
fs . readSync ( fd , retVal . certificate , 0 , retVal . certificate . length , retVal . CertificateTableAddress + hdr . length ) ;
retVal . certificate = retVal . certificate . toString ( 'base64' ) ;
retVal . certificateDwLength = hdr . readUInt32LE ( 0 ) ;
}
fs . closeSync ( fd ) ;
return ( retVal ) ;
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} ;
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//
// Hash a executable file. Works on both Windows and Linux.
// On Windows, will hash so that signature or .msh addition will not change the hash. Adding a .js on un-signed executable will change the hash.
//
// options = {
// sourcePath: <string> Executable Path
// targetStream: <stream.writeable> Hashing Stream
// platform: <string> Optional. Same value as process.platform ('win32' | 'linux' | 'darwin')
// }
//
module . exports . hashExecutableFile = function ( options ) {
if ( ! options . sourcePath || ! options . targetStream ) { throw ( 'Please specify sourcePath and targetStream' ) ; }
var fs = require ( 'fs' ) ;
// If not specified, try to determine platform type
if ( ! options . platform ) {
try {
// If we can parse the executable, we know it's windows.
options . peinfo = module . exports . parseWindowsExecutable ( options . sourcePath ) ;
options . platform = 'win32' ;
} catch ( e ) {
options . platform = 'other' ;
}
}
// Setup initial state
options . state = { endIndex : 0 , checkSumIndex : 0 , tableIndex : 0 , stats : fs . statSync ( options . sourcePath ) } ;
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if ( options . platform == 'win32' ) {
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if ( options . peinfo . CertificateTableAddress != 0 ) { options . state . endIndex = options . peinfo . CertificateTableAddress ; }
options . state . tableIndex = options . peinfo . CertificateTableSizePos - 4 ;
options . state . checkSumIndex = options . peinfo . CheckSumPos ;
}
if ( options . state . endIndex == 0 ) {
// We just need to check for Embedded MSH file
var fd = fs . openSync ( options . sourcePath , 'r' ) ;
var guid = Buffer . alloc ( 16 ) ;
var bytesRead ;
bytesRead = fs . readSync ( fd , guid , 0 , guid . length , options . state . stats . size - 16 ) ;
if ( guid . toString ( 'hex' ) == exeMeshPolicyGuid ) {
bytesRead = fs . readSync ( fd , guid , 0 , 4 , options . state . stats . size - 20 ) ;
options . state . endIndex = options . state . stats . size - 20 - guid . readUInt32LE ( 0 ) ;
} else {
options . state . endIndex = options . state . stats . size ;
}
fs . closeSync ( fd ) ;
}
// Linux does not have a checksum
if ( options . state . checkSumIndex != 0 ) {
// Windows
options . state . source = fs . createReadStream ( options . sourcePath , { flags : 'r' , start : 0 , end : options . state . checkSumIndex - 1 } ) ;
options . state . source . on ( 'end' , function ( ) {
options . targetStream . write ( Buffer . alloc ( 4 ) ) ;
var source = fs . createReadStream ( options . sourcePath , { flags : 'r' , start : options . state . checkSumIndex + 4 , end : options . state . tableIndex - 1 } ) ;
source . on ( 'end' , function ( ) {
options . targetStream . write ( Buffer . alloc ( 8 ) ) ;
var source = fs . createReadStream ( options . sourcePath , { flags : 'r' , start : options . state . tableIndex + 8 , end : options . state . endIndex - 1 } ) ;
options . state . source = source ;
options . state . source . pipe ( options . targetStream ) ;
} ) ;
options . state . source = source ;
options . state . source . pipe ( options . targetStream , { end : false } ) ;
} ) ;
options . state . source . pipe ( options . targetStream , { end : false } ) ;
} else {
// Linux
options . state . source = fs . createReadStream ( options . sourcePath , { flags : 'r' , start : 0 , end : options . state . endIndex - 1 } ) ;
options . state . source . pipe ( options . targetStream ) ;
}
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} ;