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Discovered: July 17, 2007
Updated: August 06, 2015 3:46:15 PM
Also Known As: [Kaspersky], Win32/Kollah.AB [Computer Associates], Troj/GPCoder-G [Sophos], Sinowal.FY [Panda Software], PWS-JT [McAfee]
Type: Trojan
Infection Length: 58,368 bytes
Systems Affected: Windows

Trojan.Gpcoder.E is a Trojan horse that encrypts files and then prompts the user to purchase a password in order to decrypt them.

Note: Virus definitions dated July 17, 2007 or earlier detect this threat as Infostealer.Banker.C.

For more information, please see the following resources:
The dawn of ransomwear: How ransomware could move to wearable devices

Antivirus Protection Dates

  • Initial Rapid Release version July 17, 2007 revision 009
  • Latest Rapid Release version August 08, 2016 revision 023
  • Initial Daily Certified version July 18, 2007 revision 004
  • Latest Daily Certified version August 09, 2016 revision 001
  • Initial Weekly Certified release date July 18, 2007

Click here for a more detailed description of Rapid Release and Daily Certified virus definitions.

Writeup By: Elia Florio

Discovered: July 17, 2007
Updated: August 06, 2015 3:46:15 PM
Also Known As: [Kaspersky], Win32/Kollah.AB [Computer Associates], Troj/GPCoder-G [Sophos], Sinowal.FY [Panda Software], PWS-JT [McAfee]
Type: Trojan
Infection Length: 58,368 bytes
Systems Affected: Windows

When the Trojan is executed, it creates the following mutex to ensure that only one copy of the threat is running on the computer:

Next, the Trojan copies itself to the following location and appends a random amount of data to the file in order to have a random size:

It checks for the presence of the following firewall programs:


If present, the threat copies itself to the %System% folder but postpones its malicious activity until the computer restarts.

It then gathers the following information from the compromised computer:
  • OS version
  • Presence of Service Pack 2
  • Language of the system

It creates the following folder with system and hidden attributes:

The Trojan then creates the following file, which is used to save gathered information:

It also creates the following file, which is used to store the encrypted configuration of the Trojan:

Next, the Trojan modifies the following registry entry so that it executes whenever Windows starts:
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Winlogon\"Userinit" = "%System%\userinit.exe, %System%\ntos.exe"

It may also create the following registry entries so that it executes whenever Windows starts:
HKEY_CURRENT_USER\Software\Microsoft\Windows\CurrentVersion\Run\"userinit" = "%System%\ntos.exe"
HKEY_USERS\.DEFAULT\Software\Microsoft\Windows\CurrentVersion\Run\"userinit" = "%System%\ntos.exe"

Next, it injects malicious code into the following running processes:

The Trojan attempts to create malicious threads in all running processes except for the following one:

The injected code will prevent the removal of the Trojan by blocking access to deletion of all of the malicious files and by regenerating all of the registry subkeys associated with the Trojan when they are deleted.

The Trojan then hooks certain system functions using usermode rootkit techniques to ensure that its code gets injected into each process.

The Trojan attempts to gain control of network functionalities and to steal sensitive information.

The Trojan may perform the following actions:
  • Intercept network traffic
  • Redirect traffic

Next, it may add the following registry entry as an infection marker for the compromised computer:
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Network\"UID" = "[COMPUTER NAME]_[UNIQUE ID]"

The Trojan then opens a back door on TCP Port 6081.

If the system date is after July 10, 2007, it starts the encryption routine of files present on the computer.

It creates the following registry entries:
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\"WinCode" = "[ENCRYPTION KEY]"
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\"Win32" = "[MAIL FLAG VALUE]"

[ENCRYPTION KEY] is a random generated unique 4-bytes key for the specific compromised computer.
[MAIL FLAG VALUE] is a random chosen number between 1 and 4 used to select the email address of the attacker.

Next, it scans for files on all drives from A through W, excluding CD-ROM drives and the root of drives. If a drive is found, it searches sequentially by two drive letters for the next drive. For example, if drive C is not a CD-ROM drive, it searches drive E for files.

The Trojan searches for files with the following extensions:
  • .12m
  • .3ds
  • .3dx
  • .4ge
  • .4gl
  • .7z
  • .a86
  • .abc
  • .acd
  • .ace
  • .act
  • .ada
  • .adi
  • .aex
  • .af3
  • .afd
  • .ag4
  • .ai
  • .aif
  • .aifc
  • .aiff
  • .ain
  • .aio
  • .ais
  • .akf
  • .alv
  • .amp
  • .ans
  • .ap
  • .apa
  • .apo
  • .app
  • .arc
  • .arh
  • .arj
  • .arx
  • .asc
  • .asm
  • .ask
  • .au
  • .bak
  • .bas
  • .bb
  • .bcb
  • .bcp
  • .bdb
  • .bh
  • .bib
  • .bpr
  • .bsa
  • .btr
  • .bup
  • .bwb
  • .bz
  • .bz2
  • .c86
  • .cac
  • .cbl
  • .cc
  • .cdb
  • .cdr
  • .cgi
  • .cmd
  • .cnt
  • .cob
  • .col
  • .cpp
  • .cpt
  • .crp
  • .cru
  • .csc
  • .css
  • .csv
  • .ctx
  • .cvs
  • .cwb
  • .cwk
  • .cxe
  • .cxx
  • .cyp
  • .db
  • .db0
  • .db1
  • .db2
  • .db3
  • .db4
  • .dba
  • .dbb
  • .dbc
  • .dbd
  • .dbe
  • .dbf
  • .dbk
  • .dbm
  • .dbo
  • .dbq
  • .dbt
  • .dbx
  • .dfm
  • .djvu
  • .dic
  • .dif
  • .dm
  • .dmd
  • .doc
  • .dok
  • .dot
  • .dox
  • .dsc
  • .dwg
  • .dxf
  • .dxr
  • .eps
  • .exp
  • .fas
  • .fax
  • .fdb
  • .fla
  • .flb
  • .frm
  • .fm
  • .fox
  • .frm
  • .frt
  • .frx
  • .fsl
  • .gtd
  • .gif
  • .gz
  • .gzip
  • .ha
  • .hh
  • .hjt
  • .hog
  • .hpp
  • .htm
  • .html
  • .htx
  • .ice
  • .icf
  • .inc
  • .ish
  • .iso
  • .jar
  • .jad
  • .java
  • .jpg
  • .jpeg
  • .js
  • .jsp
  • .key
  • .kwm
  • .lst
  • .lwp
  • .lzh
  • .lzs
  • .lzw
  • .ma
  • .mak
  • .man
  • .maq
  • .mar
  • .mbx
  • .mdb
  • .mdf
  • .mid
  • .mo
  • .myd
  • .obj
  • .old
  • .p12
  • .pak
  • .pas
  • .pdf
  • .pem
  • .pfx
  • .php
  • .php3
  • .php4
  • .pgp
  • .pkr
  • .pl
  • .pm3
  • .pm4
  • .pm5
  • .pm6
  • .png
  • .ppt
  • .pps
  • .prf
  • .prx
  • .ps
  • .psd
  • .pst
  • .pw
  • .pwa
  • .pwl
  • .pwm
  • .pwp
  • .pxl
  • .py
  • .rar
  • .res
  • .rle
  • .rmr
  • .rnd
  • .rtf
  • .safe
  • .sar
  • .skr
  • .sln
  • .swf
  • .sql
  • .tar
  • .tbb
  • .tex
  • .tga
  • .tgz
  • .tif
  • .tiff
  • .txt
  • .vb
  • .vp
  • .wps
  • .xcr
  • .xls
  • .xml
  • .zip

When a file is found, the Trojan encrypts it with a custom encryption algorithm by using the generated key. The first bytes of the encrypted files contain the string "GLAMOUR" followed by the encrypted data.

Next, the Trojan creates the following file in each folder where a file has been encrypted:

The file contains the following message:

Hello, your files are encrypted with RSA-4096 algorithm ([http://][REMOVED]).
You will need at least few years to decrypt these files without our software.
All your private information for last 3 months were collected and sent to us.
To decrypt your files you need to buy our software. The price is $300.
To buy our software please contact us at: [MAIL ADDRESS] and provide us your personal code [PERSONAL CODE].
After successful purchase we will send your decrypting tool, and your private information
will be deleted from our system.
If you will not contact us until 07/15/2007 your private information will be shared and you will lost all your data.

Glamorous team


[MAIL ADDRESS] is one the following email addresses chosen according to the [MAIL FLAG VALUE] number:

[PERSONAL CODE] is a decimal number converted from the [ENCRYPTION KEY] value.

The Trojan attempts to send and receive data from the following remote host:


Symantec Security Response encourages all users and administrators to adhere to the following basic security "best practices":

  • Use a firewall to block all incoming connections from the Internet to services that should not be publicly available. By default, you should deny all incoming connections and only allow services you explicitly want to offer to the outside world.
  • Enforce a password policy. Complex passwords make it difficult to crack password files on compromised computers. This helps to prevent or limit damage when a computer is compromised.
  • Ensure that programs and users of the computer use the lowest level of privileges necessary to complete a task. When prompted for a root or UAC password, ensure that the program asking for administration-level access is a legitimate application.
  • Disable AutoPlay to prevent the automatic launching of executable files on network and removable drives, and disconnect the drives when not required. If write access is not required, enable read-only mode if the option is available.
  • Turn off file sharing if not needed. If file sharing is required, use ACLs and password protection to limit access. Disable anonymous access to shared folders. Grant access only to user accounts with strong passwords to folders that must be shared.
  • Turn off and remove unnecessary services. By default, many operating systems install auxiliary services that are not critical. These services are avenues of attack. If they are removed, threats have less avenues of attack.
  • If a threat exploits one or more network services, disable, or block access to, those services until a patch is applied.
  • Always keep your patch levels up-to-date, especially on computers that host public services and are accessible through the firewall, such as HTTP, FTP, mail, and DNS services.
  • Configure your email server to block or remove email that contains file attachments that are commonly used to spread threats, such as .vbs, .bat, .exe, .pif and .scr files.
  • Isolate compromised computers quickly to prevent threats from spreading further. Perform a forensic analysis and restore the computers using trusted media.
  • Train employees not to open attachments unless they are expecting them. Also, do not execute software that is downloaded from the Internet unless it has been scanned for viruses. Simply visiting a compromised Web site can cause infection if certain browser vulnerabilities are not patched.
  • If Bluetooth is not required for mobile devices, it should be turned off. If you require its use, ensure that the device's visibility is set to "Hidden" so that it cannot be scanned by other Bluetooth devices. If device pairing must be used, ensure that all devices are set to "Unauthorized", requiring authorization for each connection request. Do not accept applications that are unsigned or sent from unknown sources.
  • For further information on the terms used in this document, please refer to the Security Response glossary.

Writeup By: Elia Florio

Discovered: July 17, 2007
Updated: August 06, 2015 3:46:15 PM
Also Known As: [Kaspersky], Win32/Kollah.AB [Computer Associates], Troj/GPCoder-G [Sophos], Sinowal.FY [Panda Software], PWS-JT [McAfee]
Type: Trojan
Infection Length: 58,368 bytes
Systems Affected: Windows

The following instructions pertain to all current and recent Symantec antivirus products, including the Symantec AntiVirus and Norton AntiVirus product lines.

  1. Disable System Restore (Windows Me/XP).
  2. Update the virus definitions.
  3. Run a full system scan.
  4. Delete any values added to the registry.

For specific details on each of these steps, read the following instructions.

1. To disable System Restore (Windows Me/XP)
If you are running Windows Me or Windows XP, we recommend that you temporarily turn off System Restore. Windows Me/XP uses this feature, which is enabled by default, to restore the files on your computer in case they become damaged. If a virus, worm, or Trojan infects a computer, System Restore may back up the virus, worm, or Trojan on the computer.

Windows prevents outside programs, including antivirus programs, from modifying System Restore. Therefore, antivirus programs or tools cannot remove threats in the System Restore folder. As a result, System Restore has the potential of restoring an infected file on your computer, even after you have cleaned the infected files from all the other locations.

Also, a virus scan may detect a threat in the System Restore folder even though you have removed the threat.

For instructions on how to turn off System Restore, read your Windows documentation, or one of the following articles:

Note: When you are completely finished with the removal procedure and are satisfied that the threat has been removed, reenable System Restore by following the instructions in the aforementioned documents.

For additional information, and an alternative to disabling Windows Me System Restore, see the Microsoft Knowledge Base article: Antivirus Tools Cannot Clean Infected Files in the _Restore Folder (Article ID: Q263455).

2. To update the virus definitions
Symantec Security Response fully tests all the virus definitions for quality assurance before they are posted to our servers. There are two ways to obtain the most recent virus definitions:
  • Running LiveUpdate, which is the easiest way to obtain virus definitions.

    If you use Norton AntiVirus 2006, Symantec AntiVirus Corporate Edition 10.0, or newer products, LiveUpdate definitions are updated daily. These products include newer technology.

    If you use Norton AntiVirus 2005, Symantec AntiVirus Corporate Edition 9.0, or earlier products, LiveUpdate definitions are updated weekly. The exception is major outbreaks, when definitions are updated more often.

  • Downloading the definitions using the Intelligent Updater: The Intelligent Updater virus definitions are posted daily. You should download the definitions from the Symantec Security Response Web site and manually install them.

The latest Intelligent Updater virus definitions can be obtained here: Intelligent Updater virus definitions . For detailed instructions read the document: How to update virus definition files using the Intelligent Updater .

3. To run a full system scan
  1. Start your Symantec antivirus program and make sure that it is configured to scan all the files.

    For Norton AntiVirus consumer products: Read the document: How to configure Norton AntiVirus to scan all files.

    For Symantec AntiVirus Enterprise products: Read the document: How to verify that a Symantec Corporate antivirus product is set to scan all files.

  2. Run a full system scan.
  3. If any files are detected, follow the instructions displayed by your antivirus program.
Important: If you are unable to start your Symantec antivirus product or the product reports that it cannot delete a detected file, you may need to stop the risk from running in order to remove it. To do this, run the scan in Safe mode. For instructions, read the document, How to start the computer in Safe Mode . Once you have restarted in Safe mode, run the scan again.
After the files are deleted, restart the computer in Normal mode and proceed with the next section.

Warning messages may be displayed when the computer is restarted, since the threat may not be fully removed at this point. You can ignore these messages and click OK. These messages will not appear when the computer is restarted after the removal instructions have been fully completed. The messages displayed may be similar to the following:

Title: [FILE PATH]
Message body: Windows cannot find [FILE NAME]. Make sure you typed the name correctly, and then try again. To search for a file, click the Start button, and then click Search.

4. To delete the value from the registry
Important: Symantec strongly recommends that you back up the registry before making any changes to it. Incorrect changes to the registry can result in permanent data loss or corrupted files. Modify the specified subkeys only. For instructions refer to the document: How to make a backup of the Windows registry .
  1. Click Start > Run.
  2. Type regedit
  3. Click OK.

    Note: If the registry editor fails to open the threat may have modified the registry to prevent access to the registry editor. Security Response has developed a tool to resolve this problem. Download and run this tool, and then continue with the removal.

  4. Navigate to and delete the following registry entries:

    HKEY_CURRENT_USER\Software\Microsoft\Windows\CurrentVersion\Run\"userinit" = "%System%\ntos.exe"
    HKEY_USERS\.DEFAULT\Software\Microsoft\Windows\CurrentVersion\Run\"userinit" = "%System%\ntos.exe"
    HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Network\"UID" = "[COMPUTER NAME]_[UNIQUE ID]"
    HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\"WinCode" = "[ENCRYPTION KEY]"
    HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\"Win32" = "[MAIL FLAG VALUE]"

  5. Restore the following registry entry to its previous value:

    HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Winlogon\"Userinit" = "%System%\userinit.exe, %System%\ntos.exe"

  6. Exit the Registry Editor.

Writeup By: Elia Florio