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A Not-So Civic Duty: Asprox Botnet Campaign Spreads Court Dates and Malware

published on 2014-06-16 14:00:00 UTC by Amanda Stewart
Content:

Executive Summary

FireEye Labs has been tracking a recent spike in malicious email detections that we attribute to a campaign that began in 2013. While malicious email campaigns are nothing new, this one is significant in that we are observing mass-targeting attackers adopting the malware evasion methods pioneered by the stealthier APT attackers. And this is certainly a high-volume business, with anywhere from a few hundred to ten thousand malicious emails sent daily – usually distributing between 50 and 500,000 emails per outbreak.

Through the FireEye Dynamic Threat Intelligence (DTI) cloud, FireEye Labs discovered that each and every major spike in email blasts brought a change in the attributes of their attack. These changes have made it difficult for anti-virus, IPS, firewalls and file-based sandboxes to keep up with the malware and effectively protect endpoints from infection. Worse, if past is prologue, we can expect other malicious, mass-targeting email operators to adopt this approach to bypass traditional defenses.

This blog will cover the trends of the campaign, as well as provide a short technical analysis of the payload.

Campaign Details

fig1

Figure 1: Attack Architecture

The campaign first appeared in late December of 2013 and has since been seen in fairly cyclical patterns each month. It appears that the threat actors behind this campaign are fairly responsive to published blogs and reports surrounding their malware techniques, tweaking their malware accordingly to continuously try and evade detection with success.

In late 2013, malware labeled as Kuluoz, the specific spam component of the Asprox botnet, was discovered to be the main payload of what would become the first malicious email campaign. Since then, the threat actors have continuously tweaked the malware by changing its hardcoded strings, remote access commands, and encryption keys.

Previously, Asprox malicious email campaigns targeted various industries in multiple countries and included a URL link in the body. The current version of Asprox includes a simple zipped email attachment that contains the malicious payload “exe.” Figure 2 below represents a sample message while Figure 3 is an example of the various court-related email headers used in the campaign.

fig2

Figure 2 Email Sample

fig3

Figure 3 Email Headers

Some of the recurring campaign that Asporox used includes themes focused around airline tickets, postal services and license keys. In recent months however, the court notice and court request-themed emails appear to be the most successful phishing scheme theme for the campaign.

The following list contains examples of email subject variations, specifically for the court notice theme:

  • Urgent court notice
  • Notice to Appear in Court
  • Notice of appearance in court
  • Warrant to appear
  • Pretrial notice
  • Court hearing notice
  • Hearing of your case
  • Mandatory court appearance

The campaign appeared to increase in volume during the month of May. Figure 4 shows the increase in activity of Asprox compared to other crimewares towards the end of May specifically. Figure 5 highlights the regular monthly pattern of overall malicious emails. In comparison, Figure 6 is a compilation of all the hits from our analytics.

fig4

Figure 4 Worldwide Crimeware Activity

fig5

Figure 5 Overall Asprox Botnet tracking

fig6

Figure 6 Asprox Botnet Activity Unique Samples

These malicious email campaign spikes revealed that FireEye appliances, with the support of DTI cloud, were able to provide a full picture of the campaign (blue), while only a fraction of the emailed malware samples could be detected by various Anti-Virus vendors (yellow).

fig7

Figure 7 FireEye Detection vs. Anti-Virus Detection

By the end of May, we observed a big spike on the unique binaries associated with this malicious activity. Compared to the previous days where malware authors used just 10-40 unique MD5s or less per day, we saw about 6400 unique MD5s sent out on May 29th. That is a 16,000% increase in unique MD5s over the usual malicious email campaign we’d observed. Compared to other recent email campaigns, Asprox uses a volume of unique samples for its campaign.

fig8

Figure 8 Asprox Campaign Unique Sample Tracking

fig9

Figure 9 Geographical Distribution of the Campaign

fig10

Figure 10 Distribution of Industries Affected

Brief Technical Analysis

fig11

Figure 11 Attack Architecture

Infiltration

The infiltration phase consists of the victim receiving a phishing email with a zipped attachment containing the malware payload disguised as an Office document. Figure 11 is an example of one of the more recent phishing attempts.

fig12

Figure 12 Malware Payload Icon

Evasion

Once the victim executes the malicious payload, it begins to start an svchost.exe process and then injects its code into the newly created process. Once loaded into memory, the injected code is then unpacked as a DLL. Notice that Asprox uses a hardcoded mutex that can be found in its strings.

  1. Typical Mutex Generation
    1. "2GVWNQJz1"
  2. Create svchost.exe process
  3. Code injection into svchost.exe

Entrenchment

Once the dll is running in memory it then creates a copy of itself in the following location:

%LOCALAPPDATA%/[8 CHARACTERS].EXE

Example filename:

%LOCALAPPDATA%\lwftkkea.exe

It’s important to note that the process will first check itself in the startup registry key, so a compromised endpoint will have the following registry populated with the executable:

HKCU\Software\Microsoft\Windows\CurrentVersion\Run

Exfiltration/Communication

The malware uses various encryption techniques to communicate with the command and control (C2) nodes. The communication uses an RSA (i.e. PROV_RSA_FULL) encrypted SSL session using the Microsoft Base Cryptographic Provider while the payloads themselves are RC4 encrypted. Each sample uses a default hardcoded public key shown below.

Default Public Key

-----BEGIN PUBLIC KEY-----

MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDCUAUdLJ1rmxx+bAndp+Cz6+5I'

Kmgap2hn2df/UiVglAvvg2US9qbk65ixqw3dGN/9O9B30q5RD+xtZ6gl4ChBquqw

jwxzGTVqJeexn5RHjtFR9lmJMYIwzoc/kMG8e6C/GaS2FCgY8oBpcESVyT2woV7U

00SNFZ88nyVv33z9+wIDAQAB

-----END PUBLIC KEY-----

First Communication Packet

Bot ID RC4 Encrypted URL

POST /5DBA62A2529A51B506D197253469FA745E7634B4FC

HTTP/1.1

Accept: */*

Content-Type: application/x-www-form-urlencoded

User-Agent: <host useragent>

Host: <host ip>:443

Content-Length: 319

Cache-Control: no-cache

<knock><id>5DBA62A247BC1F72B98B545736DEA65A</id><group>0206s</group><src>3</src><transport>0</transport><time>1881051166</time><version>1537</version><status>0</status><debug>none<debug></knock>

C2 Commands

In comparison to the campaign at the end of 2013, the current campaign uses one of the newer versions of the Asprox family where threat actors added the command “ear.”

if ( wcsicmp(Str1, L"idl") )

{

if ( wcsicmp(Str1, L"run") )

{

if ( wcsicmp(Str1, L"rem") )

{

if ( wcsicmp(Str1, L"ear")

{

if ( wcsicmp(Str1, L"rdl") )

{

if ( wcsicmp(Str1, L"red") )

{

if ( !wcsicmp(Str1, L"upd") )

C2 commands Description
idl idl This commands idles the process to wait for commands This commands idles the process to wait for commands
run run Download from a partner site and execute from a specified path Download from a partner site and execute from a specified path
rem rem Remove itself Remove itself
ear ear Download another executable and create autorun entry Download another executable and create autorun entry
rdl rdl Download, inject into svchost, and run Download, inject into svchost, and run
upd upd Download and update Download and update
red red Modify the registry Modify the registry

C2 Campaign Characteristics

fig13

For the two major malicious email campaign spikes in April and May of 2014, separate sets of C2 nodes were used for each major spike.

April May-June
94.23.24.58 94.23.24.58 192.69.192.178 192.69.192.178
94.23.43.184 94.23.43.184 213.21.158.141 213.21.158.141
1.234.53.27 1.234.53.27 213.251.150.3 213.251.150.3
84.124.94.52 84.124.94.52 27.54.87.235 27.54.87.235
133.242.134.76 133.242.134.76 61.19.32.24 61.19.32.24
173.45.78.226 173.45.78.226 69.64.56.232 69.64.56.232
37.59.9.98 37.59.9.98 72.167.15.89 72.167.15.89
188.93.74.192 188.93.74.192 84.234.71.214 84.234.71.214
187.16.250.214 187.16.250.214 89.22.96.113 89.22.96.113
85.214.220.78 85.214.220.78 89.232.63.147 89.232.63.147
91.121.20.71 91.121.20.71
91.212.253.253 91.212.253.253
91.228.77.15 91.228.77.15

Conclusion

The data reveals that each of the Asprox botnet’s malicious email campaigns changes its method of luring victims and C2 domains, as well as the technical details on monthly intervals. And, with each new improvement, it becomes more difficult for traditional security methods to detect certain types of malware.

Acknowledgements:

Nart Villeneuve, Jessa dela Torre, and David Sancho. Asprox Reborn. Trend Micro. 2013. http://www.trendmicro.com/cloud-content/us/pdfs/security-intelligence/white-papers/wp-asprox-reborn.pdf

Article: A Not-So Civic Duty: Asprox Botnet Campaign Spreads Court Dates and Malware - published over 10 years ago.

http://www.fireeye.com/blog/threat-research/2014/06/a-not-so-civic-duty-asprox-botnet-campaign-spreads-court-dates-and-malware.html   
Published: 2014 06 16 14:00:00
Received: 2021 06 06 09:05:11
Feed: FireEye Blog
Source: FireEye Blog
Category: Cyber Security
Topic: Cyber Security
Views: 1

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