Discovered: August 08, 2001
Updated: March 19, 2010 2:39:03 PM
Infection Length: Varies
Systems Affected: Windows

Downloader is a detection name used by Symantec to identify malicious software programs that share the primary functionality of downloading content.

The content that is downloaded varies from one example to the next. It may comprise of, but need not be limited to, the following items:

  • Configuration/command information
  • Miscellaneous files
  • Other threats or security risks, such as components related to pay per install operations
  • Misleading Applications
  • Secondary components of, or upgrades to, the existing attack

Most downloaders that are encountered will attempt to download content from the Internet rather than the local network. In order to successfully achieve its primary function a downloader must run on a computer that is inadequately protected and connected to a network. An adequately protected computer will either prevent the downloader from running in the first place or prevent unauthorized access to network resources and thereby prevent the attack from being carried out to its conclusion.

If a Symantec antivirus product displays a detection alert for this threat, it means the computer is already protected against this threat and the Symantec product will effectively remove this threat from the computer.

Antivirus Protection Dates

  • Initial Rapid Release version June 11, 2001
  • Latest Rapid Release version November 18, 2018 revision 019
  • Initial Daily Certified version June 11, 2001 revision 007
  • Latest Daily Certified version November 18, 2018 revision 001
  • Initial Weekly Certified release date June 13, 2001

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

Writeup By: Hon Lau

Discovered: August 08, 2001
Updated: March 19, 2010 2:39:03 PM
Infection Length: Varies
Systems Affected: Windows

Downloader is a detection name used by Symantec to identify malicious software programs that share the primary functionality of downloading content.


Background information

Traditionally, software distribution involved making software installers available to users through physical media such as CDs or DVDs. This meant that full installers containing all the files required for a software application could be provided as long as there was enough space on the media.

With the advent of the Internet, more and more software began to be distributed through the network. Due to bandwidth limitations and the increased frequency of software updates it became more economical to distribute so-called stub installers in place of full installers, thus reducing the amount of content that needed to be downloaded. Instead of downloading several hundred megabytes before installing and customizing the components of the software, users download a much smaller file, in the order of hundreds of kilobytes. After the stub installer is run and the user makes the required choices, the stub installer determines an optimized list of components that are required. This is in contrast to downloading all components of a package, many of which would not be needed. For these reasons, stub installer programs are widely used by many legitimate software applications.

Malware downloaders operate in a similar fashion and copy techniques from the mainstream software industry. Malware downloaders offer an attractive level of indirection and economy to would-be attackers. Stub downloader files are more likely to slip through unnoticed by a user than if a much larger installer package were used, which may take some time to download. Furthermore, when an attack is split into a chain of smaller components it spreads the risk of failure.

If, following action by antivirus software producers, the downloader components of an attack sequence are detected by antivirus software, the attackers can easily create new downloader components and reuse the other parts of the attack. Furthermore, the risk of multiple separate attack components being detected by security software is much lower than if a single file were used. This strategy is one of risk distribution and is the exact opposite of putting "all your eggs in one basket".

This pattern of behavior -- using distributed code components -- reflects the move by mainstream software providers to shift their software and services into the network world otherwise known as the "cloud", where functionality and software components are downloaded and accessed on-demand rather than permanently installed on the local computer.


Who creates downloaders?
Downloaders are created by the whole spectrum of malware authors. They provide an easy, low cost, low risk and reusable means of malware distribution. This means that they are commonly used in many malware-based attacks.


What is downloaded?
The content that is downloaded varies from one example to the next. It may comprise of, but need not be limited to, the following items:

  • Configuration/command information
  • Miscellaneous files
  • Other threats or security risks such as components related to pay per install operations
  • Misleading Applications
  • Secondary components of, or upgrades to, the existing attack


Where is it downloaded from?

Most downloaders that are encountered will attempt to download content from the Internet rather than the local network. Downloaders will usually have URLs directly embedded into their code in some shape or form, meaning that the download location is fixed. In contrast, some downloaders may contain the functionality to download content but must be given a parameter or command to specify the download location. These are likely to be dropped by other threats and then used to download other files.


Are there any tell-tale signs?
Downloaders associated with malicious software are generally small and discrete programs that attempt to carry out their functionality whilst staying below the radar. This means that, in the majority of cases, there will not be any obvious tell-tale signs that they are running on a computer. In some cases a downloader may be suspected if network performance is significantly affected, with the available bandwidth being used by the threat. Alternatively, a user may find unfamiliar files on the file system where they may not have been present before. It should be noted, however, that these are by no means definitive indicators of the presence of a downloader.


What are the risks?
The dangers posed by downloaders are open-ended but are usually time-bound. As a downloader may download virtually anything at all, the scope of the damage it can potentially cause is only limited to what it can successfully download. On a positive note, malicious sites associated with downloaders often have a limited life span before being closed down or cleaned up. This means that older downloaders may present a minimal risk to users even when they are not detected by security software.


What can I do to minimize the risks?
As a general rule, users should always run up-to-date antivirus software with real-time protection such as Norton Antivirus, Norton Internet Security, Norton 360 or Symantec Endpoint Protection . In addition, a firewall -- or better still, an Intrusion Prevention System (IPS) -- will help to block download activities initiated by these types of malicious programs. Program controls such as those found in Symantec Endpoint Protection can also help to prevent programs such as these from executing in the first place.


How can I find out more?
Advanced users can submit a sample to Threat Expert to obtain a detailed report of the system and file system changes caused by a threat.

Writeup By: Hon Lau

Discovered: August 08, 2001
Updated: March 19, 2010 2:39:03 PM
Infection Length: Varies
Systems Affected: Windows

You may have arrived at this page either because you have been alerted by your Symantec product about this risk, or you are concerned that your computer has been affected by this risk.

Before proceeding further we recommend that you run a full system scan . If that does not resolve the problem you can try one of the options available below.



FOR NORTON USERS
If you are a Norton product user, we recommend you try the following resources to remove this risk.

Removal Tool


If you have an infected Windows system file, you may need to replace them using from the Windows installation CD .


How to reduce the risk of infection
The following resources provide further information and best practices to help reduce the risk of infection.


FOR BUSINESS USERS
If you are a Symantec business product user, we recommend you try the following resources to remove this risk.

Identifying and submitting suspect files
Submitting suspicious files to Symantec allows us to ensure that our protection capabilities keep up with the ever-changing threat landscape. Submitted files are analyzed by Symantec Security Response and, where necessary, updated definitions are immediately distributed through LiveUpdate™ to all Symantec end points. This ensures that other computers nearby are protected from attack. The following resources may help in identifying suspicious files for submission to Symantec.


Removal Tool

If you have an infected Windows system file, you may need to replace them using from the Windows installation CD .


How to reduce the risk of infection
The following resource provides further information and best practices to help reduce the risk of infection.
Protecting your business network



MANUAL REMOVAL
The following instructions pertain to all current Symantec antivirus products.

1. Performing a full system scan
How to run a full system scan using your Symantec product


2. Restoring settings in the registry
Many risks make modifications to the registry, which could impact the functionality or performance of the compromised computer. While many of these modifications can be restored through various Windows components, it may be necessary to edit the registry. See in the Technical Details of this writeup for information about which registry keys were created or modified. Delete registry subkeys and entries created by the risk and return all modified registry entries to their previous values.

Writeup By: Hon Lau