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/ * *
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* @ description Authenticode parsing
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* @ author Ylian Saint - Hilaire & Bryan Roe
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* @ copyright Intel Corporation 2018 - 2022
* @ license Apache - 2.0
* @ version v0 . 0.1
* /
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/*jslint node: true */
/*jshint node: true */
/*jshint strict:false */
/*jshint -W097 */
/*jshint esversion: 6 */
"use strict" ;
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const fs = require ( 'fs' ) ;
const crypto = require ( 'crypto' ) ;
const forge = require ( 'node-forge' ) ;
const pki = forge . pki ;
const p7 = require ( './pkcs7-modified' ) ;
// Generate a test self-signed certificate with code signing extension
function createSelfSignedCert ( args ) {
var keys = pki . rsa . generateKeyPair ( 2048 ) ;
var cert = pki . createCertificate ( ) ;
cert . publicKey = keys . publicKey ;
cert . serialNumber = ( typeof args . serial == 'string' ) ? args . serial : '012345' ; // Serial number must always have a single leading '0', otherwise toPEM/fromPEM will not work right.
cert . validity . notBefore = new Date ( ) ;
cert . validity . notAfter = new Date ( ) ;
cert . validity . notAfter . setFullYear ( cert . validity . notBefore . getFullYear ( ) + 10 ) ;
var attrs = [ ] ;
if ( typeof args . cn == 'string' ) { attrs . push ( { name : 'commonName' , value : args . cn } ) ; }
if ( typeof args . country == 'string' ) { attrs . push ( { name : 'countryName' , value : args . country } ) ; }
if ( typeof args . state == 'string' ) { attrs . push ( { name : 'ST' , value : args . state } ) ; }
if ( typeof args . locality == 'string' ) { attrs . push ( { name : 'localityName' , value : args . locality } ) ; }
if ( typeof args . org == 'string' ) { attrs . push ( { name : 'organizationName' , value : args . org } ) ; }
if ( typeof args . orgunit == 'string' ) { attrs . push ( { name : 'OU' , value : args . orgunit } ) ; }
cert . setSubject ( attrs ) ;
cert . setIssuer ( attrs ) ;
cert . setExtensions ( [ { name : 'basicConstraints' , cA : false } , { name : 'keyUsage' , keyCertSign : false , digitalSignature : true , nonRepudiation : false , keyEncipherment : false , dataEncipherment : false } , { name : 'extKeyUsage' , codeSigning : true } , { name : "subjectKeyIdentifier" } ] ) ;
cert . sign ( keys . privateKey , forge . md . sha384 . create ( ) ) ;
return { cert : cert , key : keys . privateKey , extraCerts : [ ] } ;
}
// Create the output filename if not already specified
function createOutFile ( args , filename ) {
if ( typeof args . out == 'string' ) return ;
var outputFileName = filename . split ( '.' ) ;
outputFileName [ outputFileName . length - 2 ] += '-out' ;
args . out = outputFileName . join ( '.' ) ;
}
// Load certificates and private key from PEM files
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function loadCertificates ( pemFileNames ) {
var certs = [ ] , keys = [ ] ;
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if ( pemFileNames == null ) return ;
if ( typeof pemFileNames == 'string' ) { pemFileNames = [ pemFileNames ] ; }
for ( var i in pemFileNames ) {
try {
// Read certificate
var pem = fs . readFileSync ( pemFileNames [ i ] ) . toString ( ) ;
var pemCerts = pem . split ( '-----BEGIN CERTIFICATE-----' ) ;
for ( var j in pemCerts ) {
var k = pemCerts [ j ] . indexOf ( '-----END CERTIFICATE-----' ) ;
if ( k >= 0 ) { certs . push ( pki . certificateFromPem ( '-----BEGIN CERTIFICATE-----' + pemCerts [ j ] . substring ( 0 , k ) + '-----END CERTIFICATE-----' ) ) ; }
}
var PemKeys = pem . split ( '-----BEGIN RSA PRIVATE KEY-----' ) ;
for ( var j in PemKeys ) {
var k = PemKeys [ j ] . indexOf ( '-----END RSA PRIVATE KEY-----' ) ;
if ( k >= 0 ) { keys . push ( pki . privateKeyFromPem ( '-----BEGIN RSA PRIVATE KEY-----' + PemKeys [ j ] . substring ( 0 , k ) + '-----END RSA PRIVATE KEY-----' ) ) ; }
}
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PemKeys = pem . split ( '-----BEGIN PRIVATE KEY-----' ) ;
for ( var j in PemKeys ) {
var k = PemKeys [ j ] . indexOf ( '-----END PRIVATE KEY-----' ) ;
if ( k >= 0 ) { keys . push ( pki . privateKeyFromPem ( '-----BEGIN PRIVATE KEY-----' + PemKeys [ j ] . substring ( 0 , k ) + '-----END PRIVATE KEY-----' ) ) ; }
}
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} catch ( ex ) { }
}
if ( ( certs . length == 0 ) || ( keys . length != 1 ) ) return ; // No certificates or private keys
var r = { cert : certs [ 0 ] , key : keys [ 0 ] , extraCerts : [ ] }
if ( certs . length > 1 ) { for ( var i = 1 ; i < certs . length ; i ++ ) { r . extraCerts . push ( certs [ i ] ) ; } }
return r ;
}
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function createAuthenticodeHandler ( path ) {
const obj = { } ;
obj . header = { path : path }
// Read a file slice
function readFileSlice ( start , length ) {
var buffer = Buffer . alloc ( length ) ;
var len = fs . readSync ( obj . fd , buffer , 0 , buffer . length , start ) ;
if ( len < buffer . length ) { buffer = buffer . slice ( 0 , len ) ; }
return buffer ;
}
// Close the file
obj . close = function ( ) {
if ( obj . fd == null ) return ;
fs . closeSync ( obj . fd ) ;
delete obj . fd ;
}
// Private OIDS
obj . Oids = {
SPC _INDIRECT _DATA _OBJID : '1.3.6.1.4.1.311.2.1.4' ,
SPC _STATEMENT _TYPE _OBJID : '1.3.6.1.4.1.311.2.1.11' ,
SPC _SP _OPUS _INFO _OBJID : '1.3.6.1.4.1.311.2.1.12' ,
SPC _INDIVIDUAL _SP _KEY _PURPOSE _OBJID : '1.3.6.1.4.1.311.2.1.21' ,
SPC _COMMERCIAL _SP _KEY _PURPOSE _OBJID : '1.3.6.1.4.1.311.2.1.22' ,
SPC _MS _JAVA _SOMETHING : '1.3.6.1.4.1.311.15.1' ,
SPC _PE _IMAGE _DATA _OBJID : '1.3.6.1.4.1.311.2.1.15' ,
SPC _CAB _DATA _OBJID : '1.3.6.1.4.1.311.2.1.25' ,
SPC _TIME _STAMP _REQUEST _OBJID : '1.3.6.1.4.1.311.3.2.1' ,
SPC _SIPINFO _OBJID : '1.3.6.1.4.1.311.2.1.30' ,
SPC _PE _IMAGE _PAGE _HASHES _V1 : '1.3.6.1.4.1.311.2.3.1' ,
SPC _PE _IMAGE _PAGE _HASHES _V2 : '1.3.6.1.4.1.311.2.3.2' ,
SPC _NESTED _SIGNATURE _OBJID : '1.3.6.1.4.1.311.2.4.1' ,
SPC _RFC3161 _OBJID : '1.3.6.1.4.1.311.3.3.1'
}
// Open the file and read header information
function openFile ( ) {
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if ( obj . fd != null ) return true ;
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// Open the file descriptor
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obj . path = path ;
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try { obj . fd = fs . openSync ( path , 'r' ) ; } catch ( ex ) { return false ; } // Unable to open file
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obj . stats = fs . fstatSync ( obj . fd ) ;
obj . filesize = obj . stats . size ;
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if ( obj . filesize < 64 ) { obj . close ( ) ; return false ; } // File too short.
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// Read the DOS header (64 bytes)
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var buf = readFileSlice ( 60 , 4 ) ;
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obj . header . peHeaderLocation = buf . readUInt32LE ( 0 ) ; // The DOS header is 64 bytes long, the last 4 bytes are a pointer to the PE header.
obj . header . peOptionalHeaderLocation = obj . header . peHeaderLocation + 24 ; // The PE optional header is located just after the PE header which is 24 bytes long.
// Check file size and signature
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if ( obj . filesize < ( 160 + obj . header . peHeaderLocation ) ) { obj . close ( ) ; return false ; } // Invalid SizeOfHeaders.
if ( readFileSlice ( obj . header . peHeaderLocation , 4 ) . toString ( 'hex' ) != '50450000' ) { obj . close ( ) ; return false ; } // Invalid PE header, must start with "PE" (HEX: 50 45 00 00).
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// Read the COFF header
// https://docs.microsoft.com/en-us/windows/win32/debug/pe-format#coff-file-header-object-and-image
var coffHeader = readFileSlice ( obj . header . peHeaderLocation + 4 , 20 )
obj . header . coff = { } ;
obj . header . coff . machine = coffHeader . readUInt16LE ( 0 ) ;
obj . header . coff . numberOfSections = coffHeader . readUInt16LE ( 2 ) ;
obj . header . coff . timeDateStamp = coffHeader . readUInt32LE ( 4 ) ;
obj . header . coff . pointerToSymbolTable = coffHeader . readUInt32LE ( 8 ) ;
obj . header . coff . numberOfSymbols = coffHeader . readUInt32LE ( 12 ) ;
obj . header . coff . sizeOfOptionalHeader = coffHeader . readUInt16LE ( 16 ) ;
obj . header . coff . characteristics = coffHeader . readUInt16LE ( 18 ) ;
// Read the entire PE optional header
var optinalHeader = readFileSlice ( obj . header . peOptionalHeaderLocation , obj . header . coff . sizeOfOptionalHeader ) ;
// Decode the PE optional header standard fields
// https://docs.microsoft.com/en-us/windows/win32/debug/pe-format#optional-header-standard-fields-image-only
obj . header . peStandard = { } ;
obj . header . peStandard . magic = optinalHeader . readUInt16LE ( 0 ) ;
switch ( obj . header . peStandard . magic ) { // Check magic value
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case 0x020B : obj . header . pe32plus = 1 ; break ;
case 0x010B : obj . header . pe32plus = 0 ; break ;
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default : { obj . close ( ) ; return false ; } // Invalid Magic in PE
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}
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obj . header . peStandard . majorLinkerVersion = optinalHeader [ 2 ] ;
obj . header . peStandard . minorLinkerVersion = optinalHeader [ 3 ] ;
obj . header . peStandard . sizeOfCode = optinalHeader . readUInt32LE ( 4 ) ;
obj . header . peStandard . sizeOfInitializedData = optinalHeader . readUInt32LE ( 8 ) ;
obj . header . peStandard . sizeOfUninitializedData = optinalHeader . readUInt32LE ( 12 ) ;
obj . header . peStandard . addressOfEntryPoint = optinalHeader . readUInt32LE ( 16 ) ;
obj . header . peStandard . baseOfCode = optinalHeader . readUInt32LE ( 20 ) ;
if ( obj . header . pe32plus == 0 ) { obj . header . peStandard . baseOfData = optinalHeader . readUInt32LE ( 24 ) ; }
// Decode the PE optional header windows fields
// https://docs.microsoft.com/en-us/windows/win32/debug/pe-format#optional-header-windows-specific-fields-image-only
obj . header . peWindows = { }
if ( obj . header . pe32plus == 0 ) {
// 32bit header
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//obj.header.peWindows.imageBase = optinalHeader.readUInt32LE(28);
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obj . header . peWindows . sectionAlignment = optinalHeader . readUInt32LE ( 32 ) ;
obj . header . peWindows . fileAlignment = optinalHeader . readUInt32LE ( 36 ) ;
obj . header . peWindows . majorOperatingSystemVersion = optinalHeader . readUInt16LE ( 40 ) ;
obj . header . peWindows . minorOperatingSystemVersion = optinalHeader . readUInt16LE ( 42 ) ;
obj . header . peWindows . majorImageVersion = optinalHeader . readUInt16LE ( 44 ) ;
obj . header . peWindows . minorImageVersion = optinalHeader . readUInt16LE ( 46 ) ;
obj . header . peWindows . majorSubsystemVersion = optinalHeader . readUInt16LE ( 48 ) ;
obj . header . peWindows . minorSubsystemVersion = optinalHeader . readUInt16LE ( 50 ) ;
obj . header . peWindows . win32VersionValue = optinalHeader . readUInt32LE ( 52 ) ;
obj . header . peWindows . sizeOfImage = optinalHeader . readUInt32LE ( 56 ) ;
obj . header . peWindows . sizeOfHeaders = optinalHeader . readUInt32LE ( 60 ) ;
obj . header . peWindows . checkSum = optinalHeader . readUInt32LE ( 64 ) ;
obj . header . peWindows . subsystem = optinalHeader . readUInt16LE ( 68 ) ;
obj . header . peWindows . dllCharacteristics = optinalHeader . readUInt16LE ( 70 ) ;
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//obj.header.peWindows.sizeOfStackReserve = optinalHeader.readUInt32LE(72);
//obj.header.peWindows.sizeOfStackCommit = optinalHeader.readUInt32LE(76);
//obj.header.peWindows.sizeOfHeapReserve = optinalHeader.readUInt32LE(80);
//obj.header.peWindows.sizeOfHeapCommit = optinalHeader.readUInt32LE(84);
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obj . header . peWindows . loaderFlags = optinalHeader . readUInt32LE ( 88 ) ;
obj . header . peWindows . numberOfRvaAndSizes = optinalHeader . readUInt32LE ( 92 ) ;
} else {
// 64bit header
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//obj.header.peWindows.imageBase = optinalHeader.readBigUInt64LE(24); // TODO: readBigUInt64LE is not supported in older NodeJS versions
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obj . header . peWindows . sectionAlignment = optinalHeader . readUInt32LE ( 32 ) ;
obj . header . peWindows . fileAlignment = optinalHeader . readUInt32LE ( 36 ) ;
obj . header . peWindows . majorOperatingSystemVersion = optinalHeader . readUInt16LE ( 40 ) ;
obj . header . peWindows . minorOperatingSystemVersion = optinalHeader . readUInt16LE ( 42 ) ;
obj . header . peWindows . majorImageVersion = optinalHeader . readUInt16LE ( 44 ) ;
obj . header . peWindows . minorImageVersion = optinalHeader . readUInt16LE ( 46 ) ;
obj . header . peWindows . majorSubsystemVersion = optinalHeader . readUInt16LE ( 48 ) ;
obj . header . peWindows . minorSubsystemVersion = optinalHeader . readUInt16LE ( 50 ) ;
obj . header . peWindows . win32VersionValue = optinalHeader . readUInt32LE ( 52 ) ;
obj . header . peWindows . sizeOfImage = optinalHeader . readUInt32LE ( 56 ) ;
obj . header . peWindows . sizeOfHeaders = optinalHeader . readUInt32LE ( 60 ) ;
obj . header . peWindows . checkSum = optinalHeader . readUInt32LE ( 64 ) ;
obj . header . peWindows . subsystem = optinalHeader . readUInt16LE ( 68 ) ;
obj . header . peWindows . dllCharacteristics = optinalHeader . readUInt16LE ( 70 ) ;
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//obj.header.peWindows.sizeOfStackReserve = optinalHeader.readBigUInt64LE(72);
//obj.header.peWindows.sizeOfStackCommit = optinalHeader.readBigUInt64LE(80);
//obj.header.peWindows.sizeOfHeapReserve = optinalHeader.readBigUInt64LE(88);
//obj.header.peWindows.sizeOfHeapCommit = optinalHeader.readBigUInt64LE(96);
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obj . header . peWindows . loaderFlags = optinalHeader . readUInt32LE ( 104 ) ;
obj . header . peWindows . numberOfRvaAndSizes = optinalHeader . readUInt32LE ( 108 ) ;
}
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// Decode the PE optional header data directories
// https://docs.microsoft.com/en-us/windows/win32/debug/pe-format#optional-header-data-directories-image-only
obj . header . dataDirectories = { }
const pePlusOffset = ( obj . header . pe32plus == 0 ) ? 0 : 16 ; // This header is the same for 32 and 64 bit, but 64bit is offset by 16 bytes.
obj . header . dataDirectories . exportTable = { addr : optinalHeader . readUInt32LE ( 96 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 100 + pePlusOffset ) } ;
obj . header . dataDirectories . importTable = { addr : optinalHeader . readUInt32LE ( 104 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 108 + pePlusOffset ) } ;
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obj . header . dataDirectories . resourceTable = { addr : optinalHeader . readUInt32LE ( 112 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 116 + pePlusOffset ) } ; // Same as .rsrc virtual address & size
obj . header . dataDirectories . exceptionTableAddr = { addr : optinalHeader . readUInt32LE ( 120 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 124 + pePlusOffset ) } ; // Same as .pdata virtual address & size
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obj . header . dataDirectories . certificateTable = { addr : optinalHeader . readUInt32LE ( 128 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 132 + pePlusOffset ) } ;
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obj . header . dataDirectories . baseRelocationTable = { addr : optinalHeader . readUInt32LE ( 136 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 140 + pePlusOffset ) } ; // Same as .reloc virtual address & size
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obj . header . dataDirectories . debug = { addr : optinalHeader . readUInt32LE ( 144 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 148 + pePlusOffset ) } ;
// obj.header.dataDirectories.architecture = optinalHeader.readBigUInt64LE(152 + pePlusOffset); // Must be zero
obj . header . dataDirectories . globalPtr = { addr : optinalHeader . readUInt32LE ( 160 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 164 + pePlusOffset ) } ;
obj . header . dataDirectories . tLSTable = { addr : optinalHeader . readUInt32LE ( 168 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 172 + pePlusOffset ) } ;
obj . header . dataDirectories . loadConfigTable = { addr : optinalHeader . readUInt32LE ( 176 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 180 + pePlusOffset ) } ;
obj . header . dataDirectories . boundImport = { addr : optinalHeader . readUInt32LE ( 184 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 188 + pePlusOffset ) } ;
obj . header . dataDirectories . iAT = { addr : optinalHeader . readUInt32LE ( 192 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 196 + pePlusOffset ) } ;
obj . header . dataDirectories . delayImportDescriptor = { addr : optinalHeader . readUInt32LE ( 200 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 204 + pePlusOffset ) } ;
obj . header . dataDirectories . clrRuntimeHeader = { addr : optinalHeader . readUInt32LE ( 208 + pePlusOffset ) , size : optinalHeader . readUInt32LE ( 212 + pePlusOffset ) } ;
// obj.header.dataDirectories.reserved = optinalHeader.readBigUInt64LE(216 + pePlusOffset); // Must be zero
// Get the certificate table location and size
obj . header . sigpos = obj . header . dataDirectories . certificateTable . addr ;
obj . header . siglen = obj . header . dataDirectories . certificateTable . size
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obj . header . signed = ( ( obj . header . sigpos != 0 ) && ( obj . header . siglen != 0 ) ) ;
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// The section headers are located after the optional PE header
obj . header . SectionHeadersPtr = obj . header . peOptionalHeaderLocation + obj . header . coff . sizeOfOptionalHeader ;
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// Read the sections
obj . header . sections = { } ;
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for ( var i = 0 ; i < obj . header . coff . numberOfSections ; i ++ ) {
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var section = { } ;
buf = readFileSlice ( obj . header . SectionHeadersPtr + ( i * 40 ) , 40 ) ;
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if ( buf [ 0 ] != 46 ) { obj . close ( ) ; return false ; } ; // Name of the section must start with a dot. If not, something is wrong.
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var sectionName = buf . slice ( 0 , 8 ) . toString ( ) . trim ( '\0' ) ;
var j = sectionName . indexOf ( '\0' ) ;
if ( j >= 0 ) { sectionName = sectionName . substring ( 0 , j ) ; } // Trim any trailing zeroes
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section . ptr = obj . header . SectionHeadersPtr + ( i * 40 ) ;
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section . virtualSize = buf . readUInt32LE ( 8 ) ;
section . virtualAddr = buf . readUInt32LE ( 12 ) ;
section . rawSize = buf . readUInt32LE ( 16 ) ;
section . rawAddr = buf . readUInt32LE ( 20 ) ;
section . relocAddr = buf . readUInt32LE ( 24 ) ;
section . lineNumbers = buf . readUInt32LE ( 28 ) ;
section . relocNumber = buf . readUInt16LE ( 32 ) ;
section . lineNumbersNumber = buf . readUInt16LE ( 34 ) ;
section . characteristics = buf . readUInt32LE ( 36 ) ;
obj . header . sections [ sectionName ] = section ;
}
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// Compute the checkSum value for this file
obj . header . peWindows . checkSumActual = runChecksum ( ) ;
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// If there is a .rsrc section, read the resource information and locations
if ( obj . header . sections [ '.rsrc' ] != null ) {
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obj . resources = readResourceTable ( obj . header . sections [ '.rsrc' ] . rawAddr , 0 ) ; // Read all resources recursively
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}
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if ( obj . header . signed ) {
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// Read signature block
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// Check if the file size allows for the signature block
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if ( obj . filesize < ( obj . header . sigpos + obj . header . siglen ) ) { obj . close ( ) ; return false ; } // Executable file too short to contain the signature block.
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// Remove the padding if needed
var i , pkcs7raw = readFileSlice ( obj . header . sigpos + 8 , obj . header . siglen - 8 ) ;
var derlen = forge . asn1 . getBerValueLength ( forge . util . createBuffer ( pkcs7raw . slice ( 1 , 5 ) ) ) + 4 ;
if ( derlen != pkcs7raw . length ) { pkcs7raw = pkcs7raw . slice ( 0 , derlen ) ; }
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// Decode the signature block and check that it's valid
var pkcs7der = null , valid = false ;
try { pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( pkcs7raw ) ) ; } catch ( ex ) { }
try { valid = ( ( pkcs7der != null ) && ( forge . asn1 . derToOid ( pkcs7der . value [ 1 ] . value [ 0 ] . value [ 2 ] . value [ 0 ] . value ) == "1.3.6.1.4.1.311.2.1.4" ) ) ; } catch ( ex ) { }
if ( pkcs7der == null ) {
// Can't decode the signature
obj . header . sigpos = 0 ;
obj . header . siglen = 0 ;
obj . header . signed = false ;
} else {
// To work around ForgeJS PKCS#7 limitation, this may break PKCS7 verify if ForgeJS adds support for it in the future
// Switch content type from "1.3.6.1.4.1.311.2.1.4" to "1.2.840.113549.1.7.1"
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 2 ] . value [ 0 ] . value = forge . asn1 . oidToDer ( forge . pki . oids . data ) . data ;
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// Decode the PKCS7 message
var pkcs7 = null , pkcs7content = null ;
try {
pkcs7 = p7 . messageFromAsn1 ( pkcs7der ) ;
pkcs7content = pkcs7 . rawCapture . content . value [ 0 ] ;
} catch ( ex ) { }
if ( ( pkcs7 == null ) || ( pkcs7content == null ) ) {
// Can't decode the signature
obj . header . sigpos = 0 ;
obj . header . siglen = 0 ;
obj . header . signed = false ;
} else {
// Verify a PKCS#7 signature
// Verify is not currently supported in node-forge, but if implemented in the future, this code could work.
//var caStore = forge.pki.createCaStore();
//for (var i in obj.certificates) { caStore.addCertificate(obj.certificates[i]); }
// Return is true if all signatures are valid and chain up to a provided CA
//if (!pkcs7.verify(caStore)) { throw ('Executable file has an invalid signature.'); }
// Get the signing attributes
obj . signingAttribs = [ ] ;
try {
for ( var i in pkcs7 . rawCapture . authenticatedAttributes ) {
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if (
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( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 0 ] != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 0 ] . value != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value != null ) &&
( forge . asn1 . derToOid ( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 0 ] . value ) == obj . Oids . SPC _SP _OPUS _INFO _OBJID ) ) {
for ( var j in pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value ) {
if (
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value [ j ] != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value [ j ] . value != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value [ j ] . value [ 0 ] != null ) &&
( pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value [ j ] . value [ 0 ] . value != null )
) {
var v = pkcs7 . rawCapture . authenticatedAttributes [ i ] . value [ 1 ] . value [ 0 ] . value [ j ] . value [ 0 ] . value ;
if ( v . startsWith ( 'http://' ) || v . startsWith ( 'https://' ) || ( ( v . length % 2 ) == 1 ) ) { obj . signingAttribs . push ( v ) ; } else {
var r = '' ; // This string value is in UCS2 format, convert it to a normal string.
for ( var k = 0 ; k < v . length ; k += 2 ) { r += String . fromCharCode ( ( v . charCodeAt ( k + 8 ) << 8 ) + v . charCodeAt ( k + 1 ) ) ; }
obj . signingAttribs . push ( r ) ;
}
}
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}
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}
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}
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} catch ( ex ) { }
// Set the certificate chain
obj . certificates = pkcs7 . certificates ;
// Set the signature
obj . signature = Buffer . from ( pkcs7 . rawCapture . signature , 'binary' ) ;
// Get the file hashing algorithm
var hashAlgoOid = forge . asn1 . derToOid ( pkcs7content . value [ 1 ] . value [ 0 ] . value [ 0 ] . value ) ;
switch ( hashAlgoOid ) {
case forge . pki . oids . sha256 : { obj . fileHashAlgo = 'sha256' ; break ; }
case forge . pki . oids . sha384 : { obj . fileHashAlgo = 'sha384' ; break ; }
case forge . pki . oids . sha512 : { obj . fileHashAlgo = 'sha512' ; break ; }
case forge . pki . oids . sha224 : { obj . fileHashAlgo = 'sha224' ; break ; }
case forge . pki . oids . md5 : { obj . fileHashAlgo = 'md5' ; break ; }
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}
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// Get the signed file hash
obj . fileHashSigned = Buffer . from ( pkcs7content . value [ 1 ] . value [ 1 ] . value , 'binary' )
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// Compute the actual file hash
if ( obj . fileHashAlgo != null ) { obj . fileHashActual = obj . getHash ( obj . fileHashAlgo ) ; }
}
}
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}
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return true ;
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}
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// Make a timestamp signature request
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obj . timeStampRequest = function ( args , func ) {
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// Create the timestamp request in DER format
const asn1 = forge . asn1 ;
const pkcs7dataOid = asn1 . oidToDer ( '1.2.840.113549.1.7.1' ) . data ;
const microsoftCodeSigningOid = asn1 . oidToDer ( '1.3.6.1.4.1.311.3.2.1' ) . data ;
const asn1obj =
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , microsoftCodeSigningOid ) ,
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , pkcs7dataOid ) ,
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 0 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OCTETSTRING , false , obj . signature . toString ( 'binary' ) ) // Signature here
] )
] )
] ) ;
// Serialize an ASN.1 object to DER format in Base64
const requestBody = Buffer . from ( asn1 . toDer ( asn1obj ) . data , 'binary' ) . toString ( 'base64' ) ;
// Make an HTTP request
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const options = { url : args . time , proxy : args . proxy } ;
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// Make a request to the time server
httpRequest ( options , requestBody , function ( err , data ) {
if ( err != null ) { func ( err ) ; return ; }
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// Decode the timestamp signature block
var timepkcs7der = null ;
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try { timepkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( Buffer . from ( data , 'base64' ) . toString ( 'binary' ) ) ) ; } catch ( ex ) { func ( "Unable to parse time-stamp response: " + ex ) ; return ; }
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// Decode the executable signature block
var pkcs7der = null ;
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try {
var pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( Buffer . from ( obj . getRawSignatureBlock ( ) , 'base64' ) . toString ( 'binary' ) ) ) ;
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// Get the ASN1 certificates used to sign the timestamp and add them to the certs in the PKCS7 of the executable
// TODO: We could look to see if the certificate is already present in the executable
const timeasn1Certs = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value ;
for ( var i in timeasn1Certs ) { pkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value . push ( timeasn1Certs [ i ] ) ; }
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// Remove any existing time stamp signatures
var newValues = [ ] ;
for ( var i in pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value ) {
const j = pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value [ i ] ;
if ( ( j . tagClass != 128 ) || ( j . type != 1 ) ) { newValues . push ( j ) ; } // If this is not a time stamp, add it to out new list.
}
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value = newValues ; // Set the new list
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// Get the time signature and add it to the executables PKCS7
const timeasn1Signature = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] ;
const countersignatureOid = asn1 . oidToDer ( '1.2.840.113549.1.9.6' ) . data ;
const asn1obj2 =
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 1 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , countersignatureOid ) ,
timeasn1Signature
] )
] ) ;
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value . push ( asn1obj2 ) ;
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// Re-encode the executable signature block
const p7signature = Buffer . from ( forge . asn1 . toDer ( pkcs7der ) . data , 'binary' ) ;
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// Open the output file
var output = null ;
try { output = fs . openSync ( args . out , 'w+' ) ; } catch ( ex ) { }
if ( output == null ) return false ;
var tmp , written = 0 ;
var executableSize = obj . header . sigpos ? obj . header . sigpos : this . filesize ;
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// Compute pre-header length and copy that to the new file
var preHeaderLen = ( obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
var tmp = readFileSlice ( written , preHeaderLen ) ;
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fs . writeSync ( output , tmp ) ;
written += tmp . length ;
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// Quad Align the results, adding padding if necessary
var len = executableSize + p7signature . length ;
var padding = ( 8 - ( ( len ) % 8 ) ) % 8 ;
// Write the signature header
var addresstable = Buffer . alloc ( 8 ) ;
addresstable . writeUInt32LE ( executableSize ) ;
addresstable . writeUInt32LE ( 8 + p7signature . length + padding , 4 ) ;
fs . writeSync ( output , addresstable ) ;
written += addresstable . length ;
// Copy the rest of the file until the start of the signature block
while ( ( executableSize - written ) > 0 ) {
tmp = readFileSlice ( written , Math . min ( executableSize - written , 65536 ) ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
}
// Write the signature block header and signature
var win = Buffer . alloc ( 8 ) ; // WIN CERTIFICATE Structure
win . writeUInt32LE ( p7signature . length + padding + 8 ) ; // DWORD length
win . writeUInt16LE ( 512 , 4 ) ; // WORD revision
win . writeUInt16LE ( 2 , 6 ) ; // WORD type
fs . writeSync ( output , win ) ;
fs . writeSync ( output , p7signature ) ;
if ( padding > 0 ) { fs . writeSync ( output , Buffer . alloc ( padding , 0 ) ) ; }
written += ( p7signature . length + padding + 8 ) ;
// Compute the checksum and write it in the PE header checksum location
var tmp = Buffer . alloc ( 4 ) ;
tmp . writeUInt32LE ( runChecksumOnFile ( output , written , ( ( obj . header . peOptionalHeaderLocation + 64 ) / 4 ) ) ) ;
fs . writeSync ( output , tmp , 0 , 4 , obj . header . peOptionalHeaderLocation + 64 ) ;
// Close the file
fs . closeSync ( output ) ;
// Indicate we are done
func ( null ) ;
} catch ( ex ) { func ( '' + ex ) ; return ; }
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} ) ;
}
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// Read a resource table.
// ptr: The pointer to the start of the resource section
// offset: The offset start of the resource table to read
function readResourceTable ( ptr , offset ) {
var buf = readFileSlice ( ptr + offset , 16 ) ;
var r = { } ;
r . characteristics = buf . readUInt32LE ( 0 ) ;
r . timeDateStamp = buf . readUInt32LE ( 4 ) ;
r . majorVersion = buf . readUInt16LE ( 8 ) ;
r . minorVersion = buf . readUInt16LE ( 10 ) ;
var numberOfNamedEntries = buf . readUInt16LE ( 12 ) ;
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var numberOfIdEntries = buf . readUInt16LE ( 14 ) ;
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r . entries = [ ] ;
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var totalResources = numberOfNamedEntries + numberOfIdEntries ;
//console.log('readResourceTable', offset, 16 + (totalResources) * 8, offset + (16 + (totalResources) * 8));
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for ( var i = 0 ; i < totalResources ; i ++ ) {
buf = readFileSlice ( ptr + offset + 16 + ( i * 8 ) , 8 ) ;
var resource = { } ;
resource . name = buf . readUInt32LE ( 0 ) ;
var offsetToData = buf . readUInt32LE ( 4 ) ;
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if ( ( resource . name & 0x80000000 ) != 0 ) {
var oname = resource . name ;
resource . name = readLenPrefixUnicodeString ( ptr + ( resource . name - 0x80000000 ) ) ;
//console.log('readResourceName', offset + (oname - 0x80000000), 2 + (resource.name.length * 2), offset + (oname - 0x80000000) + (2 + resource.name.length * 2), resource.name);
}
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if ( ( offsetToData & 0x80000000 ) != 0 ) { resource . table = readResourceTable ( ptr , offsetToData - 0x80000000 ) ; } else { resource . item = readResourceItem ( ptr , offsetToData ) ; }
r . entries . push ( resource ) ;
}
return r ;
}
// Read a resource item
// ptr: The pointer to the start of the resource section
// offset: The offset start of the resource item to read
function readResourceItem ( ptr , offset ) {
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//console.log('readResourceItem', offset, 16, offset + 16);
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var buf = readFileSlice ( ptr + offset , 16 ) , r = { } ;
r . offsetToData = buf . readUInt32LE ( 0 ) ;
r . size = buf . readUInt32LE ( 4 ) ;
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//console.log('readResourceData', r.offsetToData - obj.header.sections['.rsrc'].virtualAddr, r.size, r.offsetToData + r.size - obj.header.sections['.rsrc'].virtualAddr);
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r . codePage = buf . readUInt32LE ( 8 ) ;
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//r.reserved = buf.readUInt32LE(12);
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return r ;
}
// Read a unicode stting that starts with the string length as the first byte.
function readLenPrefixUnicodeString ( ptr ) {
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var nameLen = readFileSlice ( ptr , 2 ) . readUInt16LE ( 0 ) ;
var buf = readFileSlice ( ptr + 2 , nameLen * 2 ) , name = '' ;
for ( var i = 0 ; i < nameLen ; i ++ ) { name += String . fromCharCode ( buf . readUInt16LE ( i * 2 ) ) ; }
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return name ;
}
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// Generate a complete resource section and pad the section
function generateResourceSection ( resources ) {
// Call a resursive method the compute the size needed for each element
const resSizes = { tables : 0 , items : 0 , names : 0 , data : 0 } ;
getResourceSectionSize ( resources , resSizes ) ;
// Pad the resource section & allocate the buffer
const fileAlign = obj . header . peWindows . fileAlignment
var resSizeTotal = resSizes . tables + resSizes . items + resSizes . names + resSizes . data ;
if ( ( resSizeTotal % fileAlign ) != 0 ) { resSizeTotal += ( fileAlign - ( resSizeTotal % fileAlign ) ) ; }
const resSectionBuffer = Buffer . alloc ( resSizeTotal ) ;
// Write the resource section, calling a recusrize method
const resPointers = { tables : 0 , items : resSizes . tables , names : resSizes . tables + resSizes . items , data : resSizes . tables + resSizes . items + resSizes . names } ;
createResourceSection ( resources , resSectionBuffer , resPointers ) ;
//console.log('generateResourceSection', resPointers);
// Done, return the result
return resSectionBuffer ;
}
// Return the total size of a resource header, this is a recursive method
function getResourceSectionSize ( resources , sizes ) {
sizes . tables += ( 16 + ( resources . entries . length * 8 ) ) ;
for ( var i in resources . entries ) {
if ( typeof resources . entries [ i ] . name == 'string' ) {
var dataSize = ( 2 + ( resources . entries [ i ] . name . length * 2 ) ) ;
if ( ( dataSize % 8 ) != 0 ) { dataSize += ( 8 - ( dataSize % 8 ) ) ; }
sizes . names += dataSize ;
}
if ( resources . entries [ i ] . table ) { getResourceSectionSize ( resources . entries [ i ] . table , sizes ) ; }
else if ( resources . entries [ i ] . item ) {
sizes . items += 16 ;
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if ( resources . entries [ i ] . item . buffer ) {
sizes . data += resources . entries [ i ] . item . buffer . length ;
} else {
var dataSize = resources . entries [ i ] . item . size ;
if ( ( dataSize % 8 ) != 0 ) { dataSize += ( 8 - ( dataSize % 8 ) ) ; }
sizes . data += dataSize ;
}
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}
}
}
// Write the resource section in the buffer, this is a recursive method
function createResourceSection ( resources , buf , resPointers ) {
var numberOfNamedEntries = 0 , numberOfIdEntries = 0 , ptr = resPointers . tables ;
//console.log('createResourceSection', resPointers, ptr);
// Figure out how many items we have to save
for ( var i in resources . entries ) {
if ( typeof resources . entries [ i ] . name == 'string' ) { numberOfNamedEntries ++ ; } else { numberOfIdEntries ++ ; }
}
// Move the table pointer forward
resPointers . tables += ( 16 + ( 8 * numberOfNamedEntries ) + ( 8 * numberOfIdEntries ) ) ;
// Write the table header
buf . writeUInt32LE ( resources . characteristics , ptr ) ;
buf . writeUInt32LE ( resources . timeDateStamp , ptr + 4 ) ;
buf . writeUInt16LE ( resources . majorVersion , ptr + 8 ) ;
buf . writeUInt16LE ( resources . minorVersion , ptr + 10 ) ;
buf . writeUInt16LE ( numberOfNamedEntries , ptr + 12 ) ;
buf . writeUInt16LE ( numberOfIdEntries , ptr + 14 ) ;
// For each table entry, write the entry for it
for ( var i in resources . entries ) {
// Write the name
var name = resources . entries [ i ] . name ;
if ( typeof resources . entries [ i ] . name == 'string' ) {
// Set the pointer to the name
name = resPointers . names + 0x80000000 ;
// Write the name length, followed by the name string in unicode
buf . writeUInt16LE ( resources . entries [ i ] . name . length , resPointers . names ) ;
for ( var j = 0 ; j < resources . entries [ i ] . name . length ; j ++ ) {
buf . writeUInt16LE ( resources . entries [ i ] . name . charCodeAt ( j ) , 2 + resPointers . names + ( j * 2 ) ) ;
}
// Move the names pointer forward, 8 byte align
var dataSize = ( 2 + ( resources . entries [ i ] . name . length * 2 ) ) ;
if ( ( dataSize % 8 ) != 0 ) { dataSize += ( 8 - ( dataSize % 8 ) ) ; }
resPointers . names += dataSize ;
}
buf . writeUInt32LE ( name , ptr + 16 + ( i * 8 ) ) ;
// Write the data
var data ;
if ( resources . entries [ i ] . table ) {
// This is a pointer to a table entry
data = resPointers . tables + 0x80000000 ;
createResourceSection ( resources . entries [ i ] . table , buf , resPointers ) ;
} else if ( resources . entries [ i ] . item ) {
// This is a pointer to a data entry
data = resPointers . items ;
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// Write the data
var entrySize = 0 ;
if ( resources . entries [ i ] . item . buffer ) {
// Write the data from given buffer
resources . entries [ i ] . item . buffer . copy ( buf , resPointers . data , 0 , resources . entries [ i ] . item . buffer . length ) ;
entrySize = resources . entries [ i ] . item . buffer . length ;
} else {
// Write the data from original file
const actualPtr = ( resources . entries [ i ] . item . offsetToData - obj . header . sections [ '.rsrc' ] . virtualAddr ) + obj . header . sections [ '.rsrc' ] . rawAddr ;
const tmp = readFileSlice ( actualPtr , resources . entries [ i ] . item . size ) ;
tmp . copy ( buf , resPointers . data , 0 , tmp . length ) ;
entrySize = resources . entries [ i ] . item . size ; ;
}
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// Write the item entry
buf . writeUInt32LE ( resPointers . data + obj . header . sections [ '.rsrc' ] . virtualAddr , resPointers . items ) ; // Write the pointer relative to the virtual address
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buf . writeUInt32LE ( entrySize , resPointers . items + 4 ) ;
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buf . writeUInt32LE ( resources . entries [ i ] . item . codePage , resPointers . items + 8 ) ;
buf . writeUInt32LE ( resources . entries [ i ] . item . reserved , resPointers . items + 12 ) ;
// Move items pointers forward
resPointers . items += 16 ;
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var dataSize = entrySize ;
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if ( ( dataSize % 8 ) != 0 ) { dataSize += ( 8 - ( dataSize % 8 ) ) ; }
resPointers . data += dataSize ;
}
buf . writeUInt32LE ( data , ptr + 20 + ( i * 8 ) ) ;
}
}
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// Convert a unicode buffer to a string
function unicodeToString ( buf ) {
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var r = '' , c ;
for ( var i = 0 ; i < ( buf . length / 2 ) ; i ++ ) {
c = buf . readUInt16LE ( i * 2 ) ;
if ( c != 0 ) { r += String . fromCharCode ( c ) ; } else { return r ; }
}
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return r ;
}
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// Convert a string to a unicode buffer
// Input is a string, a buffer to write to and the offset in the buffer (0 is default).
function stringToUnicode ( str , buf , offset ) {
if ( offset == null ) { offset = 0 ; }
for ( var i = 0 ; i < str . length ; i ++ ) { buf . writeInt16LE ( str . charCodeAt ( i ) , offset + ( i * 2 ) ) ; }
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}
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var resourceDefaultNames = {
'bitmaps' : 2 ,
'icon' : 3 ,
'dialogs' : 5 ,
'iconGroups' : 14 ,
'versionInfo' : 16 ,
'configurationFiles' : 24
}
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// Return the raw signature block buffer with padding removed
obj . getRawSignatureBlock = function ( ) {
if ( ( obj . header . sigpos == 0 ) || ( obj . header . siglen == 0 ) ) return null ;
var pkcs7raw = readFileSlice ( obj . header . sigpos + 8 , obj . header . siglen - 8 ) ;
var derlen = forge . asn1 . getBerValueLength ( forge . util . createBuffer ( pkcs7raw . slice ( 1 , 5 ) ) ) + 4 ;
if ( derlen != pkcs7raw . length ) { pkcs7raw = pkcs7raw . slice ( 0 , derlen ) ; }
return pkcs7raw ;
}
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// Get icon information from resource
obj . getIconInfo = function ( ) {
const r = { } , ptr = obj . header . sections [ '.rsrc' ] . rawAddr ;
// Find and parse each icon
const icons = { }
for ( var i = 0 ; i < obj . resources . entries . length ; i ++ ) {
if ( obj . resources . entries [ i ] . name == resourceDefaultNames . icon ) {
for ( var j = 0 ; j < obj . resources . entries [ i ] . table . entries . length ; j ++ ) {
const iconName = obj . resources . entries [ i ] . table . entries [ j ] . name ;
const offsetToData = obj . resources . entries [ i ] . table . entries [ j ] . table . entries [ 0 ] . item . offsetToData ;
const size = obj . resources . entries [ i ] . table . entries [ j ] . table . entries [ 0 ] . item . size ;
const actualPtr = ( offsetToData - obj . header . sections [ '.rsrc' ] . virtualAddr ) + ptr ;
icons [ iconName ] = readFileSlice ( actualPtr , size ) ;
}
}
}
// Find and parse each icon group
for ( var i = 0 ; i < obj . resources . entries . length ; i ++ ) {
if ( obj . resources . entries [ i ] . name == resourceDefaultNames . iconGroups ) {
for ( var j = 0 ; j < obj . resources . entries [ i ] . table . entries . length ; j ++ ) {
const groupName = obj . resources . entries [ i ] . table . entries [ j ] . name ;
const offsetToData = obj . resources . entries [ i ] . table . entries [ j ] . table . entries [ 0 ] . item . offsetToData ;
const size = obj . resources . entries [ i ] . table . entries [ j ] . table . entries [ 0 ] . item . size ;
const actualPtr = ( offsetToData - obj . header . sections [ '.rsrc' ] . virtualAddr ) + ptr ;
const group = { } ;
const groupData = readFileSlice ( actualPtr , size ) ;
// Parse NEWHEADER structure: https://docs.microsoft.com/en-us/windows/win32/menurc/newheader
group . resType = groupData . readUInt16LE ( 2 ) ;
group . resCount = groupData . readUInt16LE ( 4 ) ;
// Parse many RESDIR structure: https://docs.microsoft.com/en-us/windows/win32/menurc/resdir
group . icons = { } ;
for ( var p = 6 ; p < size ; p += 14 ) {
var icon = { }
icon . width = groupData [ p ] ;
icon . height = groupData [ p + 1 ] ;
icon . colorCount = groupData [ p + 2 ] ;
icon . planes = groupData . readUInt16LE ( p + 4 ) ;
icon . bitCount = groupData . readUInt16LE ( p + 6 ) ;
icon . bytesInRes = groupData . readUInt32LE ( p + 8 ) ;
icon . iconCursorId = groupData . readUInt16LE ( p + 12 ) ;
icon . icon = icons [ icon . iconCursorId ] ;
group . icons [ icon . iconCursorId ] = icon ;
}
// Add an icon group
r [ groupName ] = group ;
}
}
}
return r ;
}
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// Decode the version information from the resource
obj . getVersionInfo = function ( ) {
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//console.log('READ', getVersionInfoData().toString('hex'));
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var r = { } , info = readVersionInfo ( getVersionInfoData ( ) , 0 ) ;
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if ( ( info == null ) || ( info . stringFiles == null ) ) return null ;
var StringFileInfo = null ;
for ( var i in info . stringFiles ) { if ( info . stringFiles [ i ] . szKey == 'StringFileInfo' ) { StringFileInfo = info . stringFiles [ i ] ; } }
if ( ( StringFileInfo == null ) || ( StringFileInfo . stringTable == null ) || ( StringFileInfo . stringTable . strings == null ) ) return null ;
const strings = StringFileInfo . stringTable . strings ;
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for ( var i in strings ) { r [ strings [ i ] . key ] = strings [ i ] . value ; }
return r ;
}
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// Encode the version information to the resource
obj . setVersionInfo = function ( versions ) {
// Convert the version information into a string array
const stringArray = [ ] ;
for ( var i in versions ) { stringArray . push ( { key : i , value : versions [ i ] } ) ; }
// Get the existing version data and switch the strings to the new strings
var r = { } , info = readVersionInfo ( getVersionInfoData ( ) , 0 ) ;
if ( ( info == null ) || ( info . stringFiles == null ) ) return ;
var StringFileInfo = null ;
for ( var i in info . stringFiles ) { if ( info . stringFiles [ i ] . szKey == 'StringFileInfo' ) { StringFileInfo = info . stringFiles [ i ] ; } }
if ( ( StringFileInfo == null ) || ( StringFileInfo . stringTable == null ) || ( StringFileInfo . stringTable . strings == null ) ) return ;
StringFileInfo . stringTable . strings = stringArray ;
// Re-encode the version information into a buffer
var verInfoResBufArray = [ ] ;
writeVersionInfo ( verInfoResBufArray , info ) ;
var verInfoRes = Buffer . concat ( verInfoResBufArray ) ;
// Display all buffers
//console.log('--WRITE BUF ARRAY START--');
//for (var i in verInfoResBufArray) { console.log(verInfoResBufArray[i].toString('hex')); }
//console.log('--WRITE BUF ARRAY END--');
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//console.log('OUT', Buffer.concat(verInfoResBufArray).toString('hex'));
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// Set the new buffer as part of the resources
for ( var i = 0 ; i < obj . resources . entries . length ; i ++ ) {
if ( obj . resources . entries [ i ] . name == resourceDefaultNames . versionInfo ) {
const verInfo = obj . resources . entries [ i ] . table . entries [ 0 ] . table . entries [ 0 ] . item ;
delete verInfo . size ;
delete verInfo . offsetToData ;
verInfo . buffer = verInfoRes ;
obj . resources . entries [ i ] . table . entries [ 0 ] . table . entries [ 0 ] . item = verInfo ;
}
}
}
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// Return the version info data block
function getVersionInfoData ( ) {
if ( obj . resources == null ) return null ;
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const ptr = obj . header . sections [ '.rsrc' ] . rawAddr ;
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for ( var i = 0 ; i < obj . resources . entries . length ; i ++ ) {
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if ( obj . resources . entries [ i ] . name == resourceDefaultNames . versionInfo ) {
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const verInfo = obj . resources . entries [ i ] . table . entries [ 0 ] . table . entries [ 0 ] . item ;
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if ( verInfo . buffer != null ) {
return verInfo . buffer ;
} else {
const actualPtr = ( verInfo . offsetToData - obj . header . sections [ '.rsrc' ] . virtualAddr ) + ptr ;
return readFileSlice ( actualPtr , verInfo . size ) ;
}
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}
}
return null ;
}
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// Create a VS_VERSIONINFO structure as a array of buffer that is ready to be placed in the resource section
// VS_VERSIONINFO structure: https://docs.microsoft.com/en-us/windows/win32/menurc/vs-versioninfo
function writeVersionInfo ( bufArray , info ) {
const buf = Buffer . alloc ( 40 ) ;
buf . writeUInt16LE ( 0 , 4 ) ; // wType
stringToUnicode ( 'VS_VERSION_INFO' , buf , 6 ) ;
bufArray . push ( buf ) ;
var wLength = 40 ;
var wValueLength = 0 ;
if ( info . fixedFileInfo != null ) {
const buf2 = Buffer . alloc ( 52 ) ;
wLength += 52 ;
wValueLength += 52 ;
buf2 . writeUInt32LE ( info . fixedFileInfo . dwSignature , 0 ) ; // dwSignature
buf2 . writeUInt32LE ( info . fixedFileInfo . dwStrucVersion , 4 ) ; // dwStrucVersion
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileVersionMS , 8 ) ; // dwFileVersionMS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileVersionLS , 12 ) ; // dwFileVersionLS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwProductVersionMS , 16 ) ; // dwProductVersionMS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwProductVersionLS , 20 ) ; // dwProductVersionLS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileFlagsMask , 24 ) ; // dwFileFlagsMask
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileFlags , 28 ) ; // dwFileFlags
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileOS , 32 ) ; // dwFileOS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileType , 36 ) ; // dwFileType
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileSubtype , 40 ) ; // dwFileSubtype
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileDateMS , 44 ) ; // dwFileDateMS
buf2 . writeUInt32LE ( info . fixedFileInfo . dwFileDateLS , 48 ) ; // dwFileDateLS
bufArray . push ( buf2 ) ;
}
if ( info . stringFiles != null ) { wLength += writeStringFileInfo ( bufArray , info . stringFiles ) ; }
buf . writeUInt16LE ( Buffer . concat ( bufArray ) . length , 0 ) ; // wLength
buf . writeUInt16LE ( wValueLength , 2 ) ; // wValueLength
return wLength ;
}
// StringFileInfo structure: https://docs.microsoft.com/en-us/windows/win32/menurc/stringfileinfo
function writeStringFileInfo ( bufArray , stringFiles ) {
var totalLen = 0 ;
for ( var i in stringFiles ) {
var l = 6 + ( stringFiles [ i ] . szKey . length * 2 ) ;
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if ( stringFiles [ i ] . szKey == 'VarFileInfo' ) { l += 4 ; } // TODO: This is a hack, not sure what the correct code should be
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const buf2 = Buffer . alloc ( padPointer ( l ) ) ;
buf2 . writeUInt16LE ( 1 , 4 ) ; // wType
stringToUnicode ( stringFiles [ i ] . szKey , buf2 , 6 ) ;
bufArray . push ( buf2 ) ;
var wLength = 0 , wValueLength = 0 ;
if ( stringFiles [ i ] . szKey == 'StringFileInfo' ) { wLength += writeStringTableStruct ( bufArray , stringFiles [ i ] . stringTable ) ; }
if ( stringFiles [ i ] . szKey == 'VarFileInfo' ) { wLength += writeVarFileInfoStruct ( bufArray , stringFiles [ i ] . varFileInfo ) ; }
buf2 . writeUInt16LE ( l + wLength , 0 ) ; // wLength
buf2 . writeUInt16LE ( wValueLength , 2 ) ; // wValueLength
totalLen += buf2 . length + wLength ;
}
return totalLen ;
}
// VarFileInfo structure: https://docs.microsoft.com/en-us/windows/win32/menurc/var-str
function writeVarFileInfoStruct ( bufArray , varFileInfo ) {
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var l = 8 + ( varFileInfo . szKey . length * 2 ) ;
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const buf = Buffer . alloc ( padPointer ( l ) ) ;
buf . writeUInt16LE ( 0 , 4 ) ; // wType
stringToUnicode ( varFileInfo . szKey , buf , 6 ) ;
bufArray . push ( buf ) ;
var wLength = 0 ;
var wValueLength = 0 ;
if ( varFileInfo . value ) {
bufArray . push ( varFileInfo . value ) ;
wLength += varFileInfo . value . length ;
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wValueLength += varFileInfo . value . length ;
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}
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buf . writeUInt16LE ( buf . length + wLength , 0 ) ; // wLength
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buf . writeUInt16LE ( wValueLength , 2 ) ; // wValueLength
return buf . length + wLength ;
}
// StringTable structure: https://docs.microsoft.com/en-us/windows/win32/menurc/stringtable
function writeStringTableStruct ( bufArray , stringTable ) {
//console.log('writeStringTableStruct', stringTable);
var l = 6 + ( stringTable . szKey . length * 2 ) ;
const buf = Buffer . alloc ( padPointer ( l ) ) ;
buf . writeUInt16LE ( 1 , 4 ) ; // wType
stringToUnicode ( stringTable . szKey , buf , 6 ) ;
bufArray . push ( buf ) ;
var wLength = 0 ;
var wValueLength = 0 ;
if ( stringTable . strings ) { wLength += writeStringStructs ( bufArray , stringTable . strings ) ; }
buf . writeUInt16LE ( l + wLength , 0 ) ; // wLength
buf . writeUInt16LE ( wValueLength , 2 ) ; // wValueLength
return buf . length + wLength ;
}
// String structure: https://docs.microsoft.com/en-us/windows/win32/menurc/string-str
function writeStringStructs ( bufArray , stringTable ) {
//console.log('writeStringStructs', stringTable);
var totalLen = 0 , bufadd = 0 ;
for ( var i in stringTable ) {
//console.log('writeStringStructs', stringTable[i]);
const buf = Buffer . alloc ( padPointer ( 6 + ( ( stringTable [ i ] . key . length + 1 ) * 2 ) ) ) ;
var buf2 , wLength = buf . length ;
var wValueLength = 0 ;
stringToUnicode ( stringTable [ i ] . key , buf , 6 ) ;
bufArray . push ( buf ) ;
bufadd += buf . length ;
if ( typeof stringTable [ i ] . value == 'string' ) {
// wType (string)
buf . writeUInt16LE ( 1 , 4 ) ;
var l = ( stringTable [ i ] . value . length + 1 ) * 2 ;
buf2 = Buffer . alloc ( padPointer ( l ) ) ;
stringToUnicode ( stringTable [ i ] . value , buf2 , 0 ) ;
bufArray . push ( buf2 ) ;
bufadd += buf2 . length ;
wValueLength = stringTable [ i ] . value . length + 1 ;
wLength += l ;
}
if ( typeof stringTable [ i ] . value == 'object' ) {
// wType (binary)
buf . writeUInt16LE ( 2 , 4 ) ; // TODO: PADDING
bufArray . push ( stringTable [ i ] . value ) ;
bufadd += stringTable [ i ] . value . length ;
wValueLength = stringTable [ i ] . value . length ;
wLength += wValueLength ;
}
buf . writeUInt16LE ( wLength , 0 ) ; // wLength
buf . writeUInt16LE ( wValueLength , 2 ) ; // wValueLength
//console.log('WStringStruct', buf.toString('hex'), buf2.toString('hex'));
totalLen += wLength ;
}
//return totalLen;
return bufadd ;
}
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// VS_VERSIONINFO structure: https://docs.microsoft.com/en-us/windows/win32/menurc/vs-versioninfo
function readVersionInfo ( buf , ptr ) {
const r = { } ;
if ( buf . length < 2 ) return null ;
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const wLength = buf . readUInt16LE ( ptr ) ;
if ( buf . length < wLength ) return null ;
const wValueLength = buf . readUInt16LE ( ptr + 2 ) ;
const wType = buf . readUInt16LE ( ptr + 4 ) ;
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r . szKey = unicodeToString ( buf . slice ( ptr + 6 , ptr + 36 ) ) ;
if ( r . szKey != 'VS_VERSION_INFO' ) return null ;
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//console.log('getVersionInfo', wLength, wValueLength, wType, r.szKey.toString());
if ( wValueLength == 52 ) { r . fixedFileInfo = readFixedFileInfoStruct ( buf , ptr + 40 ) ; }
r . stringFiles = readStringFilesStruct ( buf , ptr + 40 + wValueLength , wLength - 40 - wValueLength ) ;
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return r ;
}
// VS_FIXEDFILEINFO structure: https://docs.microsoft.com/en-us/windows/win32/api/verrsrc/ns-verrsrc-vs_fixedfileinfo
function readFixedFileInfoStruct ( buf , ptr ) {
if ( buf . length - ptr < 50 ) return null ;
var r = { } ;
r . dwSignature = buf . readUInt32LE ( ptr ) ;
if ( r . dwSignature != 0xFEEF04BD ) return null ;
r . dwStrucVersion = buf . readUInt32LE ( ptr + 4 ) ;
r . dwFileVersionMS = buf . readUInt32LE ( ptr + 8 ) ;
r . dwFileVersionLS = buf . readUInt32LE ( ptr + 12 ) ;
r . dwProductVersionMS = buf . readUInt32LE ( ptr + 16 ) ;
r . dwProductVersionLS = buf . readUInt32LE ( ptr + 20 ) ;
r . dwFileFlagsMask = buf . readUInt32LE ( ptr + 24 ) ;
r . dwFileFlags = buf . readUInt32LE ( ptr + 28 ) ;
r . dwFileOS = buf . readUInt32LE ( ptr + 32 ) ;
r . dwFileType = buf . readUInt32LE ( ptr + 36 ) ;
r . dwFileSubtype = buf . readUInt32LE ( ptr + 40 ) ;
r . dwFileDateMS = buf . readUInt32LE ( ptr + 44 ) ;
r . dwFileDateLS = buf . readUInt32LE ( ptr + 48 ) ;
return r ;
}
// StringFileInfo structure: https://docs.microsoft.com/en-us/windows/win32/menurc/stringfileinfo
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function readStringFilesStruct ( buf , ptr , len ) {
var t = [ ] , startPtr = ptr ;
while ( ptr < ( startPtr + len ) ) {
const r = { } ;
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const wLength = buf . readUInt16LE ( ptr ) ;
if ( wLength == 0 ) return t ;
const wValueLength = buf . readUInt16LE ( ptr + 2 ) ;
const wType = buf . readUInt16LE ( ptr + 4 ) ; // 1 = Text, 2 = Binary
r . szKey = unicodeToString ( buf . slice ( ptr + 6 , ptr + 6 + ( wLength - 6 ) ) ) ; // String value
//console.log('readStringFileStruct', wLength, wValueLength, wType, r.szKey);
if ( r . szKey == 'StringFileInfo' ) { r . stringTable = readStringTableStruct ( buf , ptr + 36 ) ; }
if ( r . szKey == 'VarFileInfo' ) { r . varFileInfo = readVarFileInfoStruct ( buf , ptr + 32 ) ; }
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t . push ( r ) ;
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ptr += wLength ;
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ptr = padPointer ( ptr ) ;
}
return t ;
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}
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// VarFileInfo structure: https://docs.microsoft.com/en-us/windows/win32/menurc/var-str
function readVarFileInfoStruct ( buf , ptr ) {
const r = { } ;
const wLength = buf . readUInt16LE ( ptr ) ;
const wValueLength = buf . readUInt16LE ( ptr + 2 ) ;
const wType = buf . readUInt16LE ( ptr + 4 ) ; // 1 = Text, 2 = Binary
r . szKey = unicodeToString ( buf . slice ( ptr + 6 , ptr + wLength ) ) ; // "VarFileInfo"
r . value = buf . slice ( ptr + wLength - wValueLength , ptr + wLength )
//console.log('readVarFileInfoStruct', wLength, wValueLength, wType, r.szKey, r.value.toString('hex'));
return r ;
}
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// StringTable structure: https://docs.microsoft.com/en-us/windows/win32/menurc/stringtable
function readStringTableStruct ( buf , ptr ) {
const r = { } ;
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const wLength = buf . readUInt16LE ( ptr ) ;
const wValueLength = buf . readUInt16LE ( ptr + 2 ) ;
const wType = buf . readUInt16LE ( ptr + 4 ) ; // 1 = Text, 2 = Binary
//console.log('RStringTableStruct', buf.slice(ptr, ptr + wLength).toString('hex'));
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r . szKey = unicodeToString ( buf . slice ( ptr + 6 , ptr + 6 + 16 ) ) ; // An 8-digit hexadecimal number stored as a Unicode string.
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//console.log('readStringTableStruct', wLength, wValueLength, wType, r.szKey);
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r . strings = readStringStructs ( buf , ptr + 24 + wValueLength , wLength - 22 ) ;
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return r ;
}
// String structure: https://docs.microsoft.com/en-us/windows/win32/menurc/string-str
function readStringStructs ( buf , ptr , len ) {
var t = [ ] , startPtr = ptr ;
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while ( ( ptr + 6 ) < ( startPtr + len ) ) {
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const r = { } ;
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const wLength = buf . readUInt16LE ( ptr ) ;
if ( wLength == 0 ) return t ;
//console.log('RStringStruct', buf.slice(ptr, ptr + wLength).toString('hex'));
const wValueLength = buf . readUInt16LE ( ptr + 2 ) ;
const wType = buf . readUInt16LE ( ptr + 4 ) ; // 1 = Text, 2 = Binary
//console.log('R', buf.slice(ptr, ptr + wLength).toString('hex'));
r . key = unicodeToString ( buf . slice ( ptr + 6 , ptr + ( wLength - ( wValueLength * 2 ) ) - 2 ) ) ; // Key
if ( wType == 1 ) { r . value = unicodeToString ( buf . slice ( ptr + wLength - ( wValueLength * 2 ) , ptr + wLength - 2 ) ) ; } // String value
if ( wType == 2 ) { r . value = buf . slice ( ptr + wLength - ( wValueLength * 2 ) , ptr + wLength ) ; } // Binary value
//console.log('readStringStruct', wLength, wValueLength, wType, r.key, r.value);
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t . push ( r ) ;
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ptr += wLength ;
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ptr = padPointer ( ptr ) ;
}
return t ;
}
// Return the next 4 byte aligned number
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function padPointer ( ptr ) { return ptr + ( ( ( ptr % 4 ) == 0 ) ? 0 : ( 4 - ( ptr % 4 ) ) ) ; }
//function padPointer(ptr) { return ptr + (ptr % 4); }
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// Hash the file using the selected hashing system
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// This hash skips the executables CRC and code signing data and signing block
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obj . getHash = function ( algo ) {
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const hash = crypto . createHash ( algo ) ;
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runHash ( hash , 0 , obj . header . peHeaderLocation + 88 ) ;
runHash ( hash , obj . header . peHeaderLocation + 88 + 4 , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
runHash ( hash , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) + 8 , obj . header . sigpos > 0 ? obj . header . sigpos : obj . filesize ) ;
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return hash . digest ( ) ;
}
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// Hash of an open file using the selected hashing system
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// This hash skips the executables CRC and code signing data and signing block
obj . getHashOfFile = function ( fd , algo , filesize ) {
const hash = crypto . createHash ( algo ) ;
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runHashOnFile ( fd , hash , 0 , obj . header . peHeaderLocation + 88 ) ;
runHashOnFile ( fd , hash , obj . header . peHeaderLocation + 88 + 4 , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
runHashOnFile ( fd , hash , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) + 8 , obj . header . sigpos > 0 ? obj . header . sigpos : filesize ) ;
return hash . digest ( ) ;
}
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// Hash the file using the selected hashing system skipping resource section
// This hash skips the executables CRC, sections table, resource section, code signing data and signing block
obj . getHashNoResources = function ( algo ) {
if ( obj . header . sections [ '.rsrc' ] == null ) { return obj . getHash ( algo ) ; } // No resources in this executable, return a normal hash
// Get the sections table start and size
const sectionHeaderPtr = obj . header . SectionHeadersPtr ;
const sectionHeaderSize = obj . header . coff . numberOfSections * 40 ;
// Get the resource section start and size
const resPtr = obj . header . sections [ '.rsrc' ] . rawAddr ;
const resSize = obj . header . sections [ '.rsrc' ] . rawSize ;
// Get the end-of-file location
const eof = obj . header . sigpos > 0 ? obj . header . sigpos : obj . filesize ;
// Hash the remaining data
const hash = crypto . createHash ( algo ) ;
runHash ( hash , 0 , obj . header . peHeaderLocation + 88 ) ;
runHash ( hash , obj . header . peHeaderLocation + 88 + 4 , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
runHash ( hash , obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) + 8 , sectionHeaderPtr ) ;
runHash ( hash , sectionHeaderPtr + sectionHeaderSize , resPtr ) ;
runHash ( hash , resPtr + resSize , eof ) ;
return hash . digest ( ) ;
}
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// Hash the file from start to end loading 64k chunks
function runHash ( hash , start , end ) {
var ptr = start ;
while ( ptr < end ) { const buf = readFileSlice ( ptr , Math . min ( 65536 , end - ptr ) ) ; hash . update ( buf ) ; ptr += buf . length ; }
}
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// Hash the open file loading 64k chunks
// TODO: Do chunks on this!!!
function runHashOnFile ( fd , hash , start , end ) {
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const buf = Buffer . alloc ( end - start ) ;
const len = fs . readSync ( fd , buf , 0 , buf . length , start ) ;
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if ( len != buf . length ) { console . log ( 'BAD runHashOnFile' ) ; }
hash . update ( buf ) ;
}
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// Checksum the file loading 64k chunks
function runChecksum ( ) {
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var ptr = 0 , c = createChecksum ( ( ( obj . header . peOptionalHeaderLocation + 64 ) / 4 ) ) ;
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while ( ptr < obj . filesize ) { const buf = readFileSlice ( ptr , Math . min ( 65536 , obj . filesize - ptr ) ) ; c . update ( buf ) ; ptr += buf . length ; }
return c . digest ( ) ;
}
// Checksum the open file loading 64k chunks
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function runChecksumOnFile ( fd , filesize , checksumLocation ) {
var ptr = 0 , c = createChecksum ( checksumLocation ) , buf = Buffer . alloc ( 65536 ) ;
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while ( ptr < filesize ) { var len = fs . readSync ( fd , buf , 0 , Math . min ( 65536 , filesize - ptr ) , ptr ) ; c . update ( buf , len ) ; ptr += len ; }
return c . digest ( ) ;
}
// Steaming checksum methods
// TODO: Works only with files padded to 4 byte.
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function createChecksum ( checksumLocation ) {
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const obj = { checksum : 0 , length : 0 } ;
obj . update = function ( data , len ) {
if ( ! len ) { len = data . length ; }
for ( var i = 0 ; i < ( len / 4 ) ; i ++ ) {
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if ( ( ( obj . length / 4 ) + i ) == checksumLocation ) continue ; // Skip PE checksum location
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const dword = data . readUInt32LE ( i * 4 ) ;
var checksumlo = ( obj . checksum > 4294967296 ) ? ( obj . checksum - 4294967296 ) : obj . checksum ;
var checksumhi = ( obj . checksum > 4294967296 ) ? 1 : 0 ;
obj . checksum = checksumlo + dword + checksumhi ;
if ( obj . checksum > 4294967296 ) {
checksumlo = ( obj . checksum > 4294967296 ) ? ( obj . checksum - 4294967296 ) : obj . checksum ;
checksumhi = ( obj . checksum > 4294967296 ) ? 1 : 0 ;
obj . checksum = checksumlo + checksumhi ;
}
}
obj . length += len ;
}
obj . digest = function ( ) {
obj . checksum = ( obj . checksum & 0xffff ) + ( obj . checksum >>> 16 ) ;
obj . checksum = ( obj . checksum ) + ( obj . checksum >>> 16 ) ;
obj . checksum = obj . checksum & 0xffff ;
obj . checksum += obj . length ;
return obj . checksum ;
}
return obj ;
}
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// Compute the PE checksum of an entire file
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function getChecksum ( data , checksumLocation ) {
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var checksum = 0 ;
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for ( var i = 0 ; i < ( data . length / 4 ) ; i ++ ) {
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if ( i == ( checksumLocation / 4 ) ) continue ; // Skip PE checksum location
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var dword = data . readUInt32LE ( i * 4 ) ;
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var checksumlo = ( checksum > 4294967296 ) ? ( checksum - 4294967296 ) : checksum ;
var checksumhi = ( checksum > 4294967296 ) ? 1 : 0 ;
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checksum = checksumlo + dword + checksumhi ;
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if ( checksum > 4294967296 ) {
checksumlo = ( checksum > 4294967296 ) ? ( checksum - 4294967296 ) : checksum ;
checksumhi = ( checksum > 4294967296 ) ? 1 : 0 ;
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checksum = checksumlo + checksumhi ;
}
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}
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checksum = ( checksum & 0xffff ) + ( checksum >>> 16 ) ;
checksum = ( checksum ) + ( checksum >>> 16 ) ;
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checksum = checksum & 0xffff ;
checksum += data . length ;
return checksum ;
}
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// Sign the file using the certificate and key. If none is specified, generate a dummy one
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obj . sign = function ( cert , args , func ) {
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if ( cert == null ) { cert = createSelfSignedCert ( { cn : 'Test' } ) ; }
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// Set the hash algorithm hash OID
var hashOid = null , fileHash = null ;
if ( args . hash == null ) { args . hash = 'sha384' ; }
if ( args . hash == 'sha256' ) { hashOid = forge . pki . oids . sha256 ; fileHash = obj . getHash ( 'sha256' ) ; }
if ( args . hash == 'sha384' ) { hashOid = forge . pki . oids . sha384 ; fileHash = obj . getHash ( 'sha384' ) ; }
if ( args . hash == 'sha512' ) { hashOid = forge . pki . oids . sha512 ; fileHash = obj . getHash ( 'sha512' ) ; }
if ( args . hash == 'sha224' ) { hashOid = forge . pki . oids . sha224 ; fileHash = obj . getHash ( 'sha224' ) ; }
if ( args . hash == 'md5' ) { hashOid = forge . pki . oids . md5 ; fileHash = obj . getHash ( 'md5' ) ; }
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if ( hashOid == null ) { func ( false ) ; return ; } ;
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// Create the signature block
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var xp7 = forge . pkcs7 . createSignedData ( ) ;
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var content = { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 6 , 'constructed' : false , 'composed' : false , 'value' : forge . asn1 . oidToDer ( '1.3.6.1.4.1.311.2.1.15' ) . data } , { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 3 , 'constructed' : false , 'composed' : false , 'value' : '\u0000' , 'bitStringContents' : '\u0000' , 'original' : { 'tagClass' : 0 , 'type' : 3 , 'constructed' : false , 'composed' : false , 'value' : '\u0000' } } , { 'tagClass' : 128 , 'type' : 0 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 2 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : '' } ] } ] } ] } ] } , { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 6 , 'constructed' : false , 'composed' : false , 'value' : forge . asn1 . oidToDer ( hashOid ) . data } , { 'tagClass' : 0 , 'type' : 5 , 'constructed' : false , 'composed' : false , 'value' : '' } ] } , { 'tagClass' : 0 , 'type' : 4 , 'constructed' : false , 'composed' : false , 'value' : fileHash . toString ( 'binary' ) } ] } ] } ;
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xp7 . contentInfo = forge . asn1 . create ( forge . asn1 . Class . UNIVERSAL , forge . asn1 . Type . SEQUENCE , true , [ forge . asn1 . create ( forge . asn1 . Class . UNIVERSAL , forge . asn1 . Type . OID , false , forge . asn1 . oidToDer ( '1.3.6.1.4.1.311.2.1.4' ) . getBytes ( ) ) ] ) ;
xp7 . contentInfo . value . push ( forge . asn1 . create ( forge . asn1 . Class . CONTEXT _SPECIFIC , 0 , true , [ content ] ) ) ;
xp7 . content = { } ; // We set .contentInfo and have .content empty to bypass node-forge limitation on the type of content it can sign.
xp7 . addCertificate ( cert . cert ) ;
if ( cert . extraCerts ) { for ( var i = 0 ; i < cert . extraCerts . length ; i ++ ) { xp7 . addCertificate ( cert . extraCerts [ 0 ] ) ; } } // Add any extra certificates that form the cert chain
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// Build authenticated attributes
var authenticatedAttributes = [
{ type : forge . pki . oids . contentType , value : forge . pki . oids . data } ,
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{ type : forge . pki . oids . messageDigest } // This value will populated at signing time by node-forge
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]
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if ( ( typeof args . desc == 'string' ) || ( typeof args . url == 'string' ) ) {
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var codeSigningAttributes = { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ ] } ;
if ( args . desc != null ) { // Encode description as big-endian unicode.
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var desc = "" , ucs = Buffer . from ( args . desc , 'ucs2' ) . toString ( )
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for ( var k = 0 ; k < ucs . length ; k += 2 ) { desc += String . fromCharCode ( ucs . charCodeAt ( k + 1 ) , ucs . charCodeAt ( k ) ) ; }
codeSigningAttributes . value . push ( { 'tagClass' : 128 , 'type' : 0 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : desc } ] } ) ;
}
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if ( args . url != null ) { codeSigningAttributes . value . push ( { 'tagClass' : 128 , 'type' : 1 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : args . url } ] } ) ; }
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authenticatedAttributes . push ( { type : obj . Oids . SPC _SP _OPUS _INFO _OBJID , value : codeSigningAttributes } ) ;
}
// Add the signer and sign
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xp7 . addSigner ( {
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key : cert . key ,
certificate : cert . cert ,
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digestAlgorithm : forge . pki . oids . sha384 ,
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authenticatedAttributes : authenticatedAttributes
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} ) ;
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xp7 . sign ( ) ;
var p7signature = Buffer . from ( forge . pkcs7 . messageToPem ( xp7 ) . split ( '-----BEGIN PKCS7-----' ) [ 1 ] . split ( '-----END PKCS7-----' ) [ 0 ] , 'base64' ) ;
if ( args . time == null ) {
// Sign the executable without timestamp
signEx ( args , p7signature , obj . filesize , func ) ;
} else {
// Decode the signature block
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var pkcs7der = null ;
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try { pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( p7signature ) ) ; } catch ( ex ) { func ( '' + ex ) ; return ; }
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// To work around ForgeJS PKCS#7 limitation, this may break PKCS7 verify if ForgeJS adds support for it in the future
// Switch content type from "1.3.6.1.4.1.311.2.1.4" to "1.2.840.113549.1.7.1"
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 2 ] . value [ 0 ] . value = forge . asn1 . oidToDer ( forge . pki . oids . data ) . data ;
// Decode the PKCS7 message
var pkcs7 = p7 . messageFromAsn1 ( pkcs7der ) ;
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// Create the timestamp request in DER format
const asn1 = forge . asn1 ;
const pkcs7dataOid = asn1 . oidToDer ( '1.2.840.113549.1.7.1' ) . data ;
const microsoftCodeSigningOid = asn1 . oidToDer ( '1.3.6.1.4.1.311.3.2.1' ) . data ;
const asn1obj =
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , microsoftCodeSigningOid ) ,
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , pkcs7dataOid ) ,
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 0 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OCTETSTRING , false , pkcs7 . rawCapture . signature . toString ( 'binary' ) ) // Signature here
] )
] )
] ) ;
// Re-decode the PKCS7 from the executable, this time, no workaround needed
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try { pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( p7signature ) ) ; } catch ( ex ) { func ( '' + ex ) ; return ; }
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// Serialize an ASN.1 object to DER format in Base64
const requestBody = Buffer . from ( asn1 . toDer ( asn1obj ) . data , 'binary' ) . toString ( 'base64' ) ;
// Make an HTTP request
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const options = { url : args . time , proxy : args . proxy } ;
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// Make a request to the time server
httpRequest ( options , requestBody , function ( err , data ) {
if ( err != null ) { func ( err ) ; return ; }
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// Decode the timestamp signature block
var timepkcs7der = null ;
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try { timepkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( Buffer . from ( data , 'base64' ) . toString ( 'binary' ) ) ) ; } catch ( ex ) { func ( "Unable to parse time-stamp response: " + ex ) ; return ; }
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try {
// Get the ASN1 certificates used to sign the timestamp and add them to the certs in the PKCS7 of the executable
// TODO: We could look to see if the certificate is already present in the executable
const timeasn1Certs = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value ;
for ( var i in timeasn1Certs ) { pkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value . push ( timeasn1Certs [ i ] ) ; }
// Get the time signature and add it to the executables PKCS7
const timeasn1Signature = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] ;
const countersignatureOid = asn1 . oidToDer ( '1.2.840.113549.1.9.6' ) . data ;
const asn1obj2 =
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 1 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , countersignatureOid ) ,
timeasn1Signature
] )
] ) ;
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value . push ( asn1obj2 ) ;
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// Re-encode the executable signature block
const p7signature = Buffer . from ( forge . asn1 . toDer ( pkcs7der ) . data , 'binary' ) ;
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// Write the file with the signature block
signEx ( args , p7signature , obj . filesize , func ) ;
} catch ( ex ) { func ( '' + ex ) ; }
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} ) ;
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}
}
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// Make a HTTP request, use a proxy if needed
function httpRequest ( options , requestBody , func ) {
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// Decode the URL
const timeServerUrl = new URL ( options . url ) ;
options . protocol = timeServerUrl . protocol ;
options . hostname = timeServerUrl . hostname ;
options . path = timeServerUrl . pathname ;
options . port = ( ( timeServerUrl . port == '' ) ? 80 : parseInt ( timeServerUrl . port ) ) ;
if ( options . proxy == null ) {
// No proxy needed
// Setup the options
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delete options . url ;
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options . method = 'POST' ;
options . headers = {
'accept' : 'application/octet-stream' ,
'cache-control' : 'no-cache' ,
'user-agent' : 'Transport' ,
'content-type' : 'application/octet-stream' ,
'content-length' : Buffer . byteLength ( requestBody )
} ;
// Set up the request
var responseAccumulator = '' ;
var req = require ( 'http' ) . request ( options , function ( res ) {
res . setEncoding ( 'utf8' ) ;
res . on ( 'data' , function ( chunk ) { responseAccumulator += chunk ; } ) ;
res . on ( 'end' , function ( ) { func ( null , responseAccumulator ) ; } ) ;
} ) ;
// Post the data
req . on ( 'error' , function ( err ) { func ( '' + err ) ; } ) ;
req . write ( requestBody ) ;
req . end ( ) ;
} else {
// We are using a proxy
// This is a fairly basic proxy implementation, should work most of the time.
// Setup the options and decode the proxy URL
var proxyOptions = { method : 'CONNECT' } ;
if ( options . proxy ) {
const proxyUrl = new URL ( options . proxy ) ;
proxyOptions . protocol = proxyUrl . protocol ;
proxyOptions . hostname = proxyUrl . hostname ;
proxyOptions . path = options . hostname + ':' + options . port ;
proxyOptions . port = ( ( proxyUrl . port == '' ) ? 80 : parseInt ( proxyUrl . port ) ) ;
}
// Set up the proxy request
var responseAccumulator = '' ;
var req = require ( 'http' ) . request ( proxyOptions ) ;
req . on ( 'error' , function ( err ) { func ( '' + err ) ; } ) ;
req . on ( 'connect' , function ( res , socket , head ) {
// Make a request over the HTTP tunnel
socket . write ( 'POST ' + options . path + ' HTTP/1.1\r\n' +
'host: ' + options . hostname + ':' + options . port + '\r\n' +
'accept: application/octet-stream\r\n' +
'cache-control: no-cache\r\n' +
'user-agent: Transport\r\n' +
'content-type: application/octet-stream\r\n' +
'content-length: ' + Buffer . byteLength ( requestBody ) + '\r\n' +
'\r\n' + requestBody ) ;
socket . on ( 'data' , function ( chunk ) {
responseAccumulator += chunk . toString ( ) ;
var responseData = parseHttpResponse ( responseAccumulator ) ;
if ( responseData != null ) { try { socket . end ( ) ; } catch ( ex ) { console . log ( 'ex' , ex ) ; } socket . xdone = true ; func ( null , responseData ) ; }
} ) ;
socket . on ( 'end' , function ( ) {
if ( socket . xdone == true ) return ;
var responseData = parseHttpResponse ( responseAccumulator ) ;
if ( responseData != null ) { func ( null , responseData ) ; } else { func ( "Unable to parse response." ) ; }
} ) ;
} ) ;
req . end ( ) ;
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}
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}
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// Parse the HTTP response and return data if available
function parseHttpResponse ( data ) {
var dataSplit = data . split ( '\r\n\r\n' ) ;
if ( dataSplit . length < 2 ) return null ;
// Parse the HTTP header
var headerSplit = dataSplit [ 0 ] . split ( '\r\n' ) , headers = { } ;
for ( var i in headerSplit ) {
if ( i != 0 ) {
var x = headerSplit [ i ] . indexOf ( ':' ) ;
headers [ headerSplit [ i ] . substring ( 0 , x ) . toLowerCase ( ) ] = headerSplit [ i ] . substring ( x + 2 ) ;
}
}
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// If there is a content-length in the header, keep accumulating data until we have the right length
if ( headers [ 'content-length' ] != null ) {
const contentLength = parseInt ( headers [ 'content-length' ] ) ;
if ( dataSplit [ 1 ] . length < contentLength ) return null ; // Wait for more data
return dataSplit [ 1 ] ;
}
return dataSplit [ 1 ] ;
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}
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// Complete the signature of an executable
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function signEx ( args , p7signature , filesize , func ) {
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// Open the output file
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var output = null ;
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try { output = fs . openSync ( args . out , 'w+' ) ; } catch ( ex ) { }
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if ( output == null ) { func ( false ) ; return ; }
var tmp , written = 0 , executableSize = obj . header . sigpos ? obj . header . sigpos : filesize ;
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// Compute pre-header length and copy that to the new file
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var preHeaderLen = ( obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
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var tmp = readFileSlice ( written , preHeaderLen ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
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// Quad Align the results, adding padding if necessary
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var len = executableSize + p7signature . length ;
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var padding = ( 8 - ( ( len ) % 8 ) ) % 8 ;
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// Write the signature header
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var addresstable = Buffer . alloc ( 8 ) ;
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addresstable . writeUInt32LE ( executableSize ) ;
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addresstable . writeUInt32LE ( 8 + p7signature . length + padding , 4 ) ;
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fs . writeSync ( output , addresstable ) ;
written += addresstable . length ;
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// Copy the rest of the file until the start of the signature block
while ( ( executableSize - written ) > 0 ) {
tmp = readFileSlice ( written , Math . min ( executableSize - written , 65536 ) ) ;
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fs . writeSync ( output , tmp ) ;
written += tmp . length ;
}
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// Write the signature block header and signature
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var win = Buffer . alloc ( 8 ) ; // WIN CERTIFICATE Structure
win . writeUInt32LE ( p7signature . length + padding + 8 ) ; // DWORD length
win . writeUInt16LE ( 512 , 4 ) ; // WORD revision
win . writeUInt16LE ( 2 , 6 ) ; // WORD type
fs . writeSync ( output , win ) ;
fs . writeSync ( output , p7signature ) ;
if ( padding > 0 ) { fs . writeSync ( output , Buffer . alloc ( padding , 0 ) ) ; }
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written += ( p7signature . length + padding + 8 ) ;
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// Compute the checksum and write it in the PE header checksum location
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var tmp = Buffer . alloc ( 4 ) ;
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tmp . writeUInt32LE ( runChecksumOnFile ( output , written , ( ( obj . header . peOptionalHeaderLocation + 64 ) / 4 ) ) ) ;
fs . writeSync ( output , tmp , 0 , 4 , obj . header . peOptionalHeaderLocation + 64 ) ;
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// Close the file
fs . closeSync ( output ) ;
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func ( null ) ;
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}
// Save an executable without the signature
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obj . unsign = function ( args ) {
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// Open the file
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var output = fs . openSync ( args . out , 'w+' ) ;
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var written = 0 , totalWrite = obj . header . sigpos ;
// Compute pre-header length and copy that to the new file
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var preHeaderLen = ( obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
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var tmp = readFileSlice ( written , preHeaderLen ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
// Write the new signature header
fs . writeSync ( output , Buffer . alloc ( 8 ) ) ;
written += 8 ;
// Copy the rest of the file until the start of the signature block
while ( ( totalWrite - written ) > 0 ) {
tmp = readFileSlice ( written , Math . min ( totalWrite - written , 65536 ) ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
}
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// Compute the checksum and write it in the PE checksum header at position
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var tmp = Buffer . alloc ( 4 ) ;
tmp . writeUInt32LE ( runChecksumOnFile ( output , written ) ) ;
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fs . writeSync ( output , tmp , 0 , 4 , obj . header . peOptionalHeaderLocation + 64 ) ;
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fs . closeSync ( output ) ;
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}
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// Save the executable
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obj . writeExecutable = function ( args , cert , func ) {
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// Open the file
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var output = fs . openSync ( args . out , 'w+' ) ;
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var tmp , written = 0 ;
// Compute the size of the complete executable header up to after the sections header
var fullHeaderLen = obj . header . SectionHeadersPtr + ( obj . header . coff . numberOfSections * 40 ) ;
var fullHeader = readFileSlice ( written , fullHeaderLen ) ;
// Calculate the location and original and new size of the resource segment
var fileAlign = obj . header . peWindows . fileAlignment
var resPtr = obj . header . sections [ '.rsrc' ] . rawAddr ;
var oldResSize = obj . header . sections [ '.rsrc' ] . rawSize ;
var newResSize = obj . header . sections [ '.rsrc' ] . rawSize ; // Testing 102400
var resDeltaSize = newResSize - oldResSize ;
// Change PE optional header sizeOfInitializedData standard field
fullHeader . writeUInt32LE ( obj . header . peStandard . sizeOfInitializedData + resDeltaSize , obj . header . peOptionalHeaderLocation + 8 ) ;
fullHeader . writeUInt32LE ( obj . header . peWindows . sizeOfImage , obj . header . peOptionalHeaderLocation + 56 ) ; // TODO: resDeltaSize
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// Update the checksum to zero
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fullHeader . writeUInt32LE ( 0 , obj . header . peOptionalHeaderLocation + 64 ) ;
// Make change to the data directories header to fix resource segment size and add/remove signature
const pePlusOffset = ( obj . header . pe32plus == 0 ) ? 0 : 16 ; // This header is the same for 32 and 64 bit, but 64bit is offset by 16 bytes.
if ( obj . header . dataDirectories . exportTable . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . exportTable . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 96 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . importTable . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . importTable . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 104 + pePlusOffset ) ; }
//fullHeader.writeUInt32LE(obj.header.dataDirectories.resourceTable.size + resDeltaSize, obj.header.peOptionalHeaderLocation + 116 + pePlusOffset); // Change the resource segment size
if ( obj . header . dataDirectories . exceptionTableAddr . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . exceptionTableAddr . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 120 + pePlusOffset ) ; }
fullHeader . writeUInt32LE ( 0 , obj . header . peOptionalHeaderLocation + 128 + pePlusOffset ) ; // certificate table addr (TODO)
fullHeader . writeUInt32LE ( 0 , obj . header . peOptionalHeaderLocation + 132 + pePlusOffset ) ; // certificate table size (TODO)
if ( obj . header . dataDirectories . baseRelocationTable . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . baseRelocationTable . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 136 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . debug . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . debug . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 144 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . globalPtr . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . globalPtr . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 160 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . tLSTable . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . tLSTable . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 168 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . loadConfigTable . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . loadConfigTable . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 176 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . boundImport . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . boundImport . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 184 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . iAT . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . iAT . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 192 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . delayImportDescriptor . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . delayImportDescriptor . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 200 + pePlusOffset ) ; }
if ( obj . header . dataDirectories . clrRuntimeHeader . addr > resPtr ) { fullHeader . writeUInt32LE ( obj . header . dataDirectories . clrRuntimeHeader . addr + resDeltaSize , obj . header . peOptionalHeaderLocation + 208 + pePlusOffset ) ; }
// Make changes to the segments table
for ( var i in obj . header . sections ) {
const section = obj . header . sections [ i ] ;
if ( i == '.rsrc' ) {
// Change the size of the resource section
fullHeader . writeUInt32LE ( section . rawSize + resDeltaSize , section . ptr + 8 ) ; // virtualSize (TODO)
fullHeader . writeUInt32LE ( section . rawSize + resDeltaSize , section . ptr + 16 ) ; // rawSize
} else {
// Change the location of any other section if located after the resource section
if ( section . virtualAddr > resPtr ) { fullHeader . writeUInt32LE ( section . virtualAddr + resDeltaSize , section . ptr + 12 ) ; }
if ( section . rawAddr > resPtr ) { fullHeader . writeUInt32LE ( section . rawAddr + resDeltaSize , section . ptr + 20 ) ; }
}
}
// Write the entire header to the destination file
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//console.log('Write header', fullHeader.length, written);
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fs . writeSync ( output , fullHeader ) ;
written += fullHeader . length ;
// Write the entire executable until the start to the resource segment
var totalWrite = resPtr ;
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//console.log('Write until res', totalWrite, written);
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while ( ( totalWrite - written ) > 0 ) {
tmp = readFileSlice ( written , Math . min ( totalWrite - written , 65536 ) ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
}
// Write the new resource section
var rsrcSection = generateResourceSection ( obj . resources ) ;
fs . writeSync ( output , rsrcSection ) ;
written += rsrcSection . length ;
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//console.log('Write res', rsrcSection.length, written);
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// Write until the signature block
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if ( obj . header . sigpos > 0 ) {
// Since the original file was signed, write from the end of the resources to the start of the signature block.
totalWrite = obj . header . sigpos + resDeltaSize ;
} else {
// The original file was not signed, write from the end of the resources to the end of the file.
totalWrite = obj . filesize + resDeltaSize ;
}
//console.log('Write until signature', totalWrite, written);
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while ( ( totalWrite - written ) > 0 ) {
tmp = readFileSlice ( written - resDeltaSize , Math . min ( totalWrite - written , 65536 ) ) ;
fs . writeSync ( output , tmp ) ;
written += tmp . length ;
}
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//console.log('Write to signature', written);
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// Write the signature if needed
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if ( cert != null ) {
//if (cert == null) { cert = createSelfSignedCert({ cn: 'Test' }); }
// Set the hash algorithm hash OID
var hashOid = null , fileHash = null ;
if ( args . hash == null ) { args . hash = 'sha384' ; }
if ( args . hash == 'sha256' ) { hashOid = forge . pki . oids . sha256 ; fileHash = obj . getHashOfFile ( output , 'sha256' , written ) ; }
if ( args . hash == 'sha384' ) { hashOid = forge . pki . oids . sha384 ; fileHash = obj . getHashOfFile ( output , 'sha384' , written ) ; }
if ( args . hash == 'sha512' ) { hashOid = forge . pki . oids . sha512 ; fileHash = obj . getHashOfFile ( output , 'sha512' , written ) ; }
if ( args . hash == 'sha224' ) { hashOid = forge . pki . oids . sha224 ; fileHash = obj . getHashOfFile ( output , 'sha224' , written ) ; }
if ( args . hash == 'md5' ) { hashOid = forge . pki . oids . md5 ; fileHash = obj . getHashOfFile ( output , 'md5' , written ) ; }
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if ( hashOid == null ) { func ( 'Bad hash method OID' ) ; return ; }
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// Create the signature block
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var xp7 = forge . pkcs7 . createSignedData ( ) ;
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var content = { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 6 , 'constructed' : false , 'composed' : false , 'value' : forge . asn1 . oidToDer ( '1.3.6.1.4.1.311.2.1.15' ) . data } , { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 3 , 'constructed' : false , 'composed' : false , 'value' : '\u0000' , 'bitStringContents' : '\u0000' , 'original' : { 'tagClass' : 0 , 'type' : 3 , 'constructed' : false , 'composed' : false , 'value' : '\u0000' } } , { 'tagClass' : 128 , 'type' : 0 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 2 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : '' } ] } ] } ] } ] } , { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 0 , 'type' : 6 , 'constructed' : false , 'composed' : false , 'value' : forge . asn1 . oidToDer ( hashOid ) . data } , { 'tagClass' : 0 , 'type' : 5 , 'constructed' : false , 'composed' : false , 'value' : '' } ] } , { 'tagClass' : 0 , 'type' : 4 , 'constructed' : false , 'composed' : false , 'value' : fileHash . toString ( 'binary' ) } ] } ] } ;
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xp7 . contentInfo = forge . asn1 . create ( forge . asn1 . Class . UNIVERSAL , forge . asn1 . Type . SEQUENCE , true , [ forge . asn1 . create ( forge . asn1 . Class . UNIVERSAL , forge . asn1 . Type . OID , false , forge . asn1 . oidToDer ( '1.3.6.1.4.1.311.2.1.4' ) . getBytes ( ) ) ] ) ;
xp7 . contentInfo . value . push ( forge . asn1 . create ( forge . asn1 . Class . CONTEXT _SPECIFIC , 0 , true , [ content ] ) ) ;
xp7 . content = { } ; // We set .contentInfo and have .content empty to bypass node-forge limitation on the type of content it can sign.
xp7 . addCertificate ( cert . cert ) ;
if ( cert . extraCerts ) { for ( var i = 0 ; i < cert . extraCerts . length ; i ++ ) { xp7 . addCertificate ( cert . extraCerts [ 0 ] ) ; } } // Add any extra certificates that form the cert chain
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// Build authenticated attributes
var authenticatedAttributes = [
{ type : forge . pki . oids . contentType , value : forge . pki . oids . data } ,
{ type : forge . pki . oids . messageDigest } // This value will populated at signing time by node-forge
]
if ( ( typeof args . desc == 'string' ) || ( typeof args . url == 'string' ) ) {
var codeSigningAttributes = { 'tagClass' : 0 , 'type' : 16 , 'constructed' : true , 'composed' : true , 'value' : [ ] } ;
if ( args . desc != null ) { // Encode description as big-endian unicode.
var desc = "" , ucs = Buffer . from ( args . desc , 'ucs2' ) . toString ( )
for ( var k = 0 ; k < ucs . length ; k += 2 ) { desc += String . fromCharCode ( ucs . charCodeAt ( k + 1 ) , ucs . charCodeAt ( k ) ) ; }
codeSigningAttributes . value . push ( { 'tagClass' : 128 , 'type' : 0 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : desc } ] } ) ;
}
if ( args . url != null ) { codeSigningAttributes . value . push ( { 'tagClass' : 128 , 'type' : 1 , 'constructed' : true , 'composed' : true , 'value' : [ { 'tagClass' : 128 , 'type' : 0 , 'constructed' : false , 'composed' : false , 'value' : args . url } ] } ) ; }
authenticatedAttributes . push ( { type : obj . Oids . SPC _SP _OPUS _INFO _OBJID , value : codeSigningAttributes } ) ;
}
// Add the signer and sign
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xp7 . addSigner ( {
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key : cert . key ,
certificate : cert . cert ,
digestAlgorithm : forge . pki . oids . sha384 ,
authenticatedAttributes : authenticatedAttributes
} ) ;
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xp7 . sign ( ) ;
var p7signature = Buffer . from ( forge . pkcs7 . messageToPem ( xp7 ) . split ( '-----BEGIN PKCS7-----' ) [ 1 ] . split ( '-----END PKCS7-----' ) [ 0 ] , 'base64' ) ;
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//console.log('Signature', Buffer.from(p7signature, 'binary').toString('base64'));
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if ( args . time == null ) {
// Write the signature block to the output executable without time stamp
writeExecutableEx ( output , p7signature , written , func ) ;
} else {
// Decode the signature block
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var pkcs7der = null ;
try { pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( p7signature ) ) ; } catch ( ex ) { func ( '' + ex ) ; return ; }
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// To work around ForgeJS PKCS#7 limitation, this may break PKCS7 verify if ForgeJS adds support for it in the future
// Switch content type from "1.3.6.1.4.1.311.2.1.4" to "1.2.840.113549.1.7.1"
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 2 ] . value [ 0 ] . value = forge . asn1 . oidToDer ( forge . pki . oids . data ) . data ;
// Decode the PKCS7 message
var pkcs7 = p7 . messageFromAsn1 ( pkcs7der ) ;
// Create the timestamp request in DER format
const asn1 = forge . asn1 ;
const pkcs7dataOid = asn1 . oidToDer ( '1.2.840.113549.1.7.1' ) . data ;
const microsoftCodeSigningOid = asn1 . oidToDer ( '1.3.6.1.4.1.311.3.2.1' ) . data ;
const asn1obj =
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , microsoftCodeSigningOid ) ,
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , pkcs7dataOid ) ,
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 0 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OCTETSTRING , false , pkcs7 . rawCapture . signature . toString ( 'binary' ) ) // Signature here
] )
] )
] ) ;
// Re-decode the PKCS7 from the executable, this time, no workaround needed
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try { pkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( p7signature ) ) ; } catch ( ex ) { func ( '' + ex ) ; return ; }
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// Serialize an ASN.1 object to DER format in Base64
const requestBody = Buffer . from ( asn1 . toDer ( asn1obj ) . data , 'binary' ) . toString ( 'base64' ) ;
// Make an HTTP request
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const options = { url : args . time , proxy : args . proxy } ;
// Make a request to the time server
httpRequest ( options , requestBody , function ( err , data ) {
if ( err != null ) { func ( err ) ; return ; }
// Decode the timestamp signature block
var timepkcs7der = null ;
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try { timepkcs7der = forge . asn1 . fromDer ( forge . util . createBuffer ( Buffer . from ( data , 'base64' ) . toString ( 'binary' ) ) ) ; } catch ( ex ) { func ( "Unable to parse time-stamp response: " + ex ) ; return ; }
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// Get the ASN1 certificates used to sign the timestamp and add them to the certs in the PKCS7 of the executable
// TODO: We could look to see if the certificate is already present in the executable
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try {
var timeasn1Certs = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value ;
for ( var i in timeasn1Certs ) { pkcs7der . value [ 1 ] . value [ 0 ] . value [ 3 ] . value . push ( timeasn1Certs [ i ] ) ; }
// Get the time signature and add it to the executables PKCS7
const timeasn1Signature = timepkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] ;
const countersignatureOid = asn1 . oidToDer ( '1.2.840.113549.1.9.6' ) . data ;
const asn1obj2 =
asn1 . create ( asn1 . Class . CONTEXT _SPECIFIC , 1 , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . SEQUENCE , true , [
asn1 . create ( asn1 . Class . UNIVERSAL , asn1 . Type . OID , false , countersignatureOid ) ,
timeasn1Signature
] )
] ) ;
pkcs7der . value [ 1 ] . value [ 0 ] . value [ 4 ] . value [ 0 ] . value . push ( asn1obj2 ) ;
// Re-encode the executable signature block
const p7signature = Buffer . from ( forge . asn1 . toDer ( pkcs7der ) . data , 'binary' ) ;
// Write the file with the signature block
writeExecutableEx ( output , p7signature , written , func ) ;
} catch ( ex ) { func ( '' + ex ) ; return ; } // Something failed
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} ) ;
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}
return ;
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}
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// Close the file
fs . closeSync ( output ) ;
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// Indicate success
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func ( null ) ;
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}
function writeExecutableEx ( output , p7signature , written , func ) {
// Quad Align the results, adding padding if necessary
var len = written + p7signature . length ;
var padding = ( 8 - ( ( len ) % 8 ) ) % 8 ;
// Write the signature block header and signature
var win = Buffer . alloc ( 8 ) ; // WIN CERTIFICATE Structure
win . writeUInt32LE ( p7signature . length + padding + 8 ) ; // DWORD length
win . writeUInt16LE ( 512 , 4 ) ; // WORD revision
win . writeUInt16LE ( 2 , 6 ) ; // WORD type
fs . writeSync ( output , win ) ;
fs . writeSync ( output , p7signature ) ;
if ( padding > 0 ) { fs . writeSync ( output , Buffer . alloc ( padding , 0 ) ) ; }
// Write the signature header
var addresstable = Buffer . alloc ( 8 ) ;
addresstable . writeUInt32LE ( written ) ;
addresstable . writeUInt32LE ( 8 + p7signature . length + padding , 4 ) ;
var signatureHeaderLocation = ( obj . header . peHeaderLocation + 152 + ( obj . header . pe32plus * 16 ) ) ;
fs . writeSync ( output , addresstable , 0 , 8 , signatureHeaderLocation ) ;
written += ( p7signature . length + padding + 8 ) ; // Add the signature block to written counter
// Compute the checksum and write it in the PE header checksum location
var tmp = Buffer . alloc ( 4 ) ;
tmp . writeUInt32LE ( runChecksumOnFile ( output , written , ( ( obj . header . peOptionalHeaderLocation + 64 ) / 4 ) ) ) ;
fs . writeSync ( output , tmp , 0 , 4 , obj . header . peOptionalHeaderLocation + 64 ) ;
// Close the file
fs . closeSync ( output ) ;
// Indicate success
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func ( null ) ;
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}
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// Return null if we could not open the file
return ( openFile ( ) ? obj : null ) ;
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}
function start ( ) {
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// Parse the arguments
const args = require ( 'minimist' ) ( process . argv . slice ( 2 ) ) ;
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// Show tool help
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if ( process . argv . length < 3 ) {
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console . log ( "MeshCentral Authenticode Tool." ) ;
console . log ( "Usage:" ) ;
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console . log ( " node authenticode.js [command] [options]" ) ;
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console . log ( "Commands:" ) ;
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console . log ( " info: Show information about an executable." ) ;
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console . log ( " --exe [file] Required executable to view information." ) ;
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console . log ( " --json Show information in JSON format." ) ;
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console . log ( " sign: Sign an executable." ) ;
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console . log ( " --exe [file] Required executable to sign." ) ;
console . log ( " --out [file] Resulting signed executable." ) ;
console . log ( " --pem [pemfile] Certificate & private key to sign the executable with." ) ;
console . log ( " --desc [description] Description string to embbed into signature." ) ;
console . log ( " --url [url] URL to embbed into signature." ) ;
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console . log ( " --hash [method] Default is SHA384, possible value: MD5, SHA224, SHA256, SHA384 or SHA512." ) ;
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console . log ( " --time [url] The time signing server URL." ) ;
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console . log ( " --proxy [url] The HTTP proxy to use to contact the time signing server, must start with http://" ) ;
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console . log ( " unsign: Remove the signature from the executable." ) ;
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console . log ( " --exe [file] Required executable to un-sign." ) ;
console . log ( " --out [file] Resulting executable with signature removed." ) ;
console . log ( " createcert: Create a code signging self-signed certificate and key." ) ;
console . log ( " --out [pemfile] Required certificate file to create." ) ;
console . log ( " --cn [value] Required certificate common name." ) ;
console . log ( " --country [value] Certificate country name." ) ;
console . log ( " --state [value] Certificate state name." ) ;
console . log ( " --locality [value] Certificate locality name." ) ;
console . log ( " --org [value] Certificate organization name." ) ;
console . log ( " --ou [value] Certificate organization unit name." ) ;
console . log ( " --serial [value] Certificate serial number." ) ;
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console . log ( " timestamp: Add a signed timestamp to an already signed executable." ) ;
console . log ( " --exe [file] Required executable to sign." ) ;
console . log ( " --out [file] Resulting signed executable." ) ;
console . log ( " --time [url] The time signing server URL." ) ;
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console . log ( " --proxy [url] The HTTP proxy to use to contact the time signing server, must start with http://" ) ;
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console . log ( "" ) ;
console . log ( "Note that certificate PEM files must first have the signing certificate," ) ;
console . log ( "followed by all certificates that form the trust chain." ) ;
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console . log ( "" ) ;
console . log ( "When doing sign/unsign, you can also change resource properties of the generated file." ) ;
console . log ( "" ) ;
console . log ( " --filedescription [value]" ) ;
console . log ( " --fileversion [value]" ) ;
console . log ( " --internalname [value]" ) ;
console . log ( " --legalcopyright [value]" ) ;
console . log ( " --originalfilename [value]" ) ;
console . log ( " --productname [value]" ) ;
console . log ( " --productversion [value]" ) ;
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return ;
}
// Check that a valid command is passed in
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if ( [ 'info' , 'sign' , 'unsign' , 'createcert' , 'icons' , 'saveicon' , 'header' , 'timestamp' , 'signblock' ] . indexOf ( process . argv [ 2 ] . toLowerCase ( ) ) == - 1 ) {
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console . log ( "Invalid command: " + process . argv [ 2 ] ) ;
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console . log ( "Valid commands are: info, sign, unsign, createcert, timestamp" ) ;
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return ;
}
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var exe = null ;
if ( args . exe ) {
// Check the file exists and open the file
var stats = null ;
try { stats = require ( 'fs' ) . statSync ( args . exe ) ; } catch ( ex ) { }
if ( stats == null ) { console . log ( "Unable to executable open file: " + args . exe ) ; return ; }
exe = createAuthenticodeHandler ( args . exe ) ;
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if ( exe == null ) { console . log ( "Unable to parse executable file: " + args . exe ) ; return ; }
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}
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// Parse the resources and make any required changes
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var resChanges = false , versionStrings = null ;
if ( exe != null ) {
versionStrings = exe . getVersionInfo ( ) ;
var versionProperties = [ 'FileDescription' , 'FileVersion' , 'InternalName' , 'LegalCopyright' , 'OriginalFilename' , 'ProductName' , 'ProductVersion' ] ;
for ( var i in versionProperties ) {
const prop = versionProperties [ i ] , propl = prop . toLowerCase ( ) ;
if ( args [ propl ] && ( args [ propl ] != versionStrings [ prop ] ) ) { versionStrings [ prop ] = args [ propl ] ; resChanges = true ; }
}
if ( resChanges == true ) { exe . setVersionInfo ( versionStrings ) ; }
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}
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// Execute the command
var command = process . argv [ 2 ] . toLowerCase ( ) ;
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if ( command == 'info' ) { // Get signature information about an executable
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if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
if ( args . json ) {
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var r = { } , versionInfo = exe . getVersionInfo ( ) ;
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if ( versionInfo != null ) { r . versionInfo = versionInfo ; }
if ( exe . fileHashAlgo != null ) {
r . signture = { } ;
if ( exe . fileHashAlgo != null ) { r . signture . hashMethod = exe . fileHashAlgo ; }
if ( exe . fileHashSigned != null ) { r . signture . hashSigned = exe . fileHashSigned . toString ( 'hex' ) ; }
if ( exe . fileHashActual != null ) { r . signture . hashActual = exe . fileHashActual . toString ( 'hex' ) ; }
if ( exe . signingAttribs && exe . signingAttribs . length > 0 ) { r . signture . attributes = exe . signingAttribs ; }
}
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console . log ( JSON . stringify ( r , null , 2 ) ) ;
} else {
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var versionInfo = exe . getVersionInfo ( ) ;
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if ( versionInfo != null ) { console . log ( "Version Information:" ) ; for ( var i in versionInfo ) { if ( versionInfo [ i ] == null ) { console . log ( ' ' + i + ': (Empty)' ) ; } else { console . log ( ' ' + i + ': \"' + versionInfo [ i ] + '\"' ) ; } } }
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console . log ( "Checksum Information:" ) ;
console . log ( " Header CheckSum: 0x" + exe . header . peWindows . checkSum . toString ( 16 ) ) ;
console . log ( " Actual CheckSum: 0x" + exe . header . peWindows . checkSumActual . toString ( 16 ) ) ;
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console . log ( "Signature Information:" ) ;
if ( exe . fileHashAlgo != null ) {
console . log ( " Hash Method:" , exe . fileHashAlgo ) ;
if ( exe . fileHashSigned != null ) { console . log ( " Signed Hash:" , exe . fileHashSigned . toString ( 'hex' ) ) ; }
if ( exe . fileHashActual != null ) { console . log ( " Actual Hash:" , exe . fileHashActual . toString ( 'hex' ) ) ; }
} else {
console . log ( " This file is not signed." ) ;
}
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if ( exe . signingAttribs && exe . signingAttribs . length > 0 ) { console . log ( "Signature Attributes:" ) ; for ( var i in exe . signingAttribs ) { console . log ( ' ' + exe . signingAttribs [ i ] ) ; } }
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}
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}
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if ( command == 'header' ) { // Display the full executable header in JSON format
if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
console . log ( exe . header ) ;
}
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if ( command == 'sign' ) { // Sign an executable
if ( typeof args . exe != 'string' ) { console . log ( "Missing --exe [filename]" ) ; return ; }
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if ( typeof args . hash == 'string' ) { args . hash = args . hash . toLowerCase ( ) ; if ( [ 'md5' , 'sha224' , 'sha256' , 'sha384' , 'sha512' ] . indexOf ( args . hash ) == - 1 ) { console . log ( "Invalid hash method, must be SHA256 or SHA384" ) ; return ; } }
if ( args . hash == null ) { args . hash = 'sha384' ; }
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createOutFile ( args , args . exe ) ;
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var cert = loadCertificates ( args . pem ) ;
if ( cert == null ) { console . log ( "Unable to load certificate and/or private key, generating test certificate." ) ; cert = createSelfSignedCert ( { cn : 'Test' } ) ; }
if ( resChanges == false ) {
console . log ( "Signing to " + args . out ) ;
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exe . sign ( cert , args , function ( err ) { // Simple signing, copy most of the original file.
if ( err == null ) { console . log ( "Done." ) ; } else { console . log ( err ) ; }
if ( exe != null ) { exe . close ( ) ; }
} ) ;
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return ;
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} else {
console . log ( "Changing resources and signing to " + args . out ) ;
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exe . writeExecutable ( args , cert , function ( err ) { // Signing with resources decoded and re-encoded.
if ( err == null ) { console . log ( "Done." ) ; } else { console . log ( err ) ; }
if ( exe != null ) { exe . close ( ) ; }
} ) ;
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return ;
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}
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}
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if ( command == 'unsign' ) { // Unsign an executable
if ( typeof args . exe != 'string' ) { console . log ( "Missing --exe [filename]" ) ; return ; }
createOutFile ( args , args . exe ) ;
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if ( resChanges == false ) {
if ( exe . header . signed ) {
console . log ( "Unsigning to " + args . out ) ;
exe . unsign ( args ) ; // Simple unsign, copy most of the original file.
console . log ( "Done." ) ;
} else {
console . log ( "Executable is not signed." ) ;
}
} else {
console . log ( "Changing resources and unsigning to " + args . out ) ;
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exe . writeExecutable ( args , null , function ( err ) { // Unsigning with resources decoded and re-encoded.
if ( err == null ) { console . log ( "Done." ) ; } else { console . log ( err ) ; }
if ( exe != null ) { exe . close ( ) ; }
} ) ;
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}
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}
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if ( command == 'createcert' ) { // Create a code signing certificate and private key
if ( typeof args . out != 'string' ) { console . log ( "Missing --out [filename]" ) ; return ; }
if ( typeof args . cn != 'string' ) { console . log ( "Missing --cn [name]" ) ; return ; }
if ( typeof args . serial == 'string' ) { if ( args . serial != parseInt ( args . serial ) ) { console . log ( "Invalid serial number." ) ; return ; } else { args . serial = parseInt ( args . serial ) ; } }
if ( typeof args . serial == 'number' ) { args . serial = '0' + args . serial ; } // Serial number must be a integer string with a single leading '0'
const cert = createSelfSignedCert ( args ) ;
console . log ( "Writing to " + args . out ) ;
fs . writeFileSync ( args . out , pki . certificateToPem ( cert . cert ) + '\r\n' + pki . privateKeyToPem ( cert . key ) ) ;
console . log ( "Done." ) ;
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}
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if ( command == 'icons' ) { // Show icons in the executable
if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
if ( args . json ) {
var r = { } , iconInfo = exe . getIconInfo ( ) ;
if ( iconInfo != null ) { r . iconInfo = iconInfo ; }
console . log ( JSON . stringify ( r , null , 2 ) ) ;
} else {
var iconInfo = exe . getIconInfo ( ) ;
if ( iconInfo != null ) {
console . log ( "Icon Information:" ) ;
for ( var i in iconInfo ) { console . log ( ' Group ' + i + ':' ) ; for ( var j in iconInfo [ i ] . icons ) { console . log ( ' Icon ' + j + ': ' + ( ( iconInfo [ i ] . icons [ j ] . width == 0 ) ? 256 : iconInfo [ i ] . icons [ j ] . width ) + 'x' + ( ( iconInfo [ i ] . icons [ j ] . height == 0 ) ? 256 : iconInfo [ i ] . icons [ j ] . height ) + ', size: ' + iconInfo [ i ] . icons [ j ] . icon . length ) ; } }
}
}
}
if ( command == 'saveicon' ) { // Save an icon to file
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if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
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if ( typeof args . out != 'string' ) { console . log ( "Missing --out [filename]" ) ; return ; }
if ( typeof args . icon != 'number' ) { console . log ( "Missing or incorrect --icon [number]" ) ; return ; }
const iconInfo = exe . getIconInfo ( ) ;
var icon = null ;
for ( var i in iconInfo ) { if ( iconInfo [ i ] . icons [ args . icon ] ) { icon = iconInfo [ i ] . icons [ args . icon ] ; } }
if ( icon == null ) { console . log ( "Unknown icon: " + args . icon ) ; return ; }
// .ico header: https://en.wikipedia.org/wiki/ICO_(file_format)
var buf = Buffer . alloc ( 22 ) ;
buf . writeUInt16LE ( 1 , 2 ) ; // 1 = Icon, 2 = Cursor
buf . writeUInt16LE ( 1 , 4 ) ; // Icon Count, always 1 in our case
buf [ 6 ] = icon . width ; // Width (0 = 256)
buf [ 7 ] = icon . height ; // Height (0 = 256)
buf [ 8 ] = icon . colorCount ; // Colors
buf . writeUInt16LE ( icon . planes , 10 ) ; // Color planes
buf . writeUInt16LE ( icon . bitCount , 12 ) ; // Bits per pixel
buf . writeUInt32LE ( icon . icon . length , 14 ) ; // Size
buf . writeUInt32LE ( 22 , 18 ) ; // Offset, always 22 in our case
console . log ( "Writing to " + args . out ) ;
fs . writeFileSync ( args . out , Buffer . concat ( [ buf , icon . icon ] ) ) ;
console . log ( "Done." ) ;
}
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if ( command == 'signblock' ) { // Display the raw signature block of the executable in hex
if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
var buf = exe . getRawSignatureBlock ( ) ;
if ( buf == null ) { console . log ( "Executable is not signed." ) ; return } else { console . log ( buf . toString ( 'hex' ) ) ; return }
}
if ( command == 'timestamp' ) {
if ( exe == null ) { console . log ( "Missing --exe [filename]" ) ; return ; }
if ( exe . signature == null ) { console . log ( "Executable is not signed." ) ; return ; }
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if ( typeof args . time != 'string' ) { console . log ( "Missing --time [url]" ) ; return ; }
createOutFile ( args , args . exe ) ;
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console . log ( "Requesting time signature..." ) ;
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exe . timeStampRequest ( args , function ( err ) {
if ( err == null ) { console . log ( "Done." ) ; } else { console . log ( err ) ; }
if ( exe != null ) { exe . close ( ) ; }
} )
return ;
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}
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// Close the file
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if ( exe != null ) { exe . close ( ) ; }
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}
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// If this is the main module, run the command line version
if ( require . main === module ) { start ( ) ; }
// Exports
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module . exports . createAuthenticodeHandler = createAuthenticodeHandler ;
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module . exports . loadCertificates = loadCertificates ;
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