Self Assessment

Akira Stealer : An Undetected Python Based Info-stealer

Published On : 2023-10-20
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Akira Stealer : An Undetected Python Based Info-stealer

Executive Summary

At Cyfirma, we are committed to providing up-to-date information on the most prevalent threats and tactics used by malicious actors to target both organizations and individuals. In this analysis, we delve into a python-based information stealer, Akira. This report is a comprehensive investigation of this information stealer malware, unfolding its functionality and capabilities.


Akira is an information stealing malware being offered on a dedicated website as MaaS (malware-as-a-service) with the tag “Akira Undetector”. The web platform provides an interface to generate a new stealer binary with instructions to use the malware, leveraging the Telegram channel to provide updates and command-and-control functionality. This malware is capable of harvesting information from web browsers such as saved credentials and payment card details, and also trawls the system for information, including username, system ID, hardware details, installed software, network configurations, and uploads the stolen information to the adversary’s account on ‘GoFile’ online storage management service and Discord instant messaging service.

Key Findings

  • Akira Stealer is an emerging stealer malware distributed under the guise of free premium software.
  • It uses multi-level infection process for successful compromise and for obfuscation to avoid detection.
  • Uses CMD script file and obfuscated PowerShell script to download and execute the malware.
  • Uses urllib3 HTTP client for python to communicate with C2 and to exfiltrate the stolen data.
  • Performs client-side TLS certificate verification to avoid network communication interception.
  • It is capable of extracting sensitive data from a wide range of sources such as web-browsers, messaging apps and other applications.
  • Looks for financial data such as saved card details, cryptocurrency wallet database.
  • Enumerates the compromised system for victim and system profiling.
  • Uploads the stolen data to multiple locations such as on online storage and to Discord channel.
  • Threat actor uses the Telegram channel to control the infected systems and to provide updates on the new features to its subscribers.
  • Threat actors also have presence on GitHub.

External Threat Landscape Management Attribution

This information stealer (Akira) is being served as MaaS (Malware-as-a-Service) from a dedicated C2 web-portal at “https[:]//akira[.]red/”:

Akira[.]red domain’s ‘A’ records reveal two IP addresses:

The portal features instructions to build and use the stealer binary:

Threat actor using the Telegram channel to distribute malware and to control the infected systems:

Akira’s Telegram channel has 358 subscribers as of now. They claim that in the form of malware-as-a-service, the stealer is undetectable and can bypass the antivirus:

Threat actor also provides support and updates over the Telegram:

Threat actor profile is also spotted on the GitHub, mentions Akira Crypto Stealer completely FUD:

Threat Landscape:
From an external threat landscape perspective, Akira Stealer features multilevel infection process for obfuscation and lower detection, Cyfirma’s research team highlights the concerning trend of threat actors developing distinct methods to evade detection at the early stages of attack and infection and providing ease to its subscriber for infecting the system with just few clicks. The threat actor behind Akira stealer is adapting different techniques to obfuscate the malicious sample to keep it under the radar for as long as possible.

Analysis of Akira Stealer

File Analysis

File Name 3989X_NORD_VPN_PREMIUM_HITS.txt.cmd
File Size 3.99 KB (4095 bytes)
Signed Not signed
MD5 016dfdd45c8208d246d59327c40355e0
SHA-256 b14262297bdfc61e2103eed6d77dce42bd3076c31912b4143151dfa36f751411
Date Modified 26 ‎September ‎2023, ‏‎23:20:08

The original malware sample comes as a Windows command shell (CMD) script file. The content of the script file is obfuscated and drops a batch file hidden.bat in the current working directory upon execution:

This CMD file has no detection at the time of analysis:

The batch script file:

File Name hidden.bat
File Size 3.58 KB (3,670 bytes)
Signed Not signed
MD5 81e7ff1742d45075305a2082b1a7ac9d
SHA-256 03564dc699f82f7e5d52046d82863ceddc6d657c66c0078f88cfe9cf1953187b
Date Modified 26 ‎September ‎2023

This batch has no detection at the time of analysis:

The Windows shell script embeds the dropped batch file in the tmp.vbs for its execution using csscript.exe with ‘nologo’ parameter which specifies that the Windows Script Host banner is not displayed before the script runs. The hidden.bat file contains obfuscated PowerShell script:

Decoded content of the batch file, which is a PowerShell script command is also obfuscated as shown below:

Further de-obfuscation of the PowerShell command reveals its functionality as a Downloader:

Behavioral & Code Analysis

The batch file runs the PowerShell command in a hidden window with NoProfile option, that further downloads a zip archive containing akira.exe and required resources for its execution from the URL https[:]//store7.gofile[.]io/download/direct/13d3e926-8be7-4c15-a1d9-f0e809ec1f14/

File Name
File Size 50.9 MB (5,34,11,943 bytes)
Signed Not signed
MD5 4027c802411f8b4091c5c4eb077efa49
SHA-256 50e36d96cb593c39afa2fc11ac25c976f0ff1586159d2eb2626902e6d6062f81
Date Modified ‎3 ‎October, ‎2023

This zip archive is downloaded in the Temp folder directory (C:\Users\username\AppData\Local\Temp) of current user and extracted as folder name m2. The extracted folder contains the executable akira.exe and compiled bytecode files generated by the Python interpreter and urllib3, which is a powerful, user-friendly HTTP client for Python, capable of performing client-side TLS certificate verification and supports different encodings:

The malware akira.exe is a 64-bit GUI subsystem Windows executable, compiled using Visual Studio:

File Name akira.exe
File Size 74.50 KB (76288 bytes)
Signed Not signed
MD5 c9e84d2fed103f6c7a8f1822a42da643
SHA-256 3981ea2f66e197c3fb644184a33f2553fed51e175aa0402e77d1e324c96e1326
Compiler-stamp Tue Aug 01 06:17:26 2023
Date Modified 26 ‎September ‎2023

This executable (akira.exe) has just two detections at the time of analysis:

Upon the execution, akira.exe connects to the domain “”, a dedicated web-portal that provides Maas (malware-as-a-service) over the encrypted connection with user-agent python-requests/2.31.0, a HTTP client for Python from the urllib3.

The connection is secure and verification against network traffic interception (man-in-the-middle) is performed at client-side before establishing the connection, so any attempt to decrypt the network traffic creates exception, resulting in termination of the execution process:

This malware is using its own certificate from the certifi folder of the downloaded unzipped archive:

We managed to intercept the network communication of the malware, which confirms the use for TLS 1.2 protocol:

Following the successful TLS handshake, it sends the request to download the instructions from its C2:

In response to the request, the C2 server sends the encoded instructions. The content-length of the response body varies on each different execution of the malware:

We observed a series of activities performed by akira.exe after receiving these instructions, explained in detail in the followings:

The malware checks for the version of the Windows OS:

Confirms the IP address of the victim PC:

Then it executes a command prompt instruction, which further invokes the PowerShell command as shown in the following process execution tree:

This PowerShell command is used to invoke another PowerShell command with same encoded parameter under the fodhelper.exe (Features on Demand Helper, runs as a high integrity process), which provides the effortless privilege elevation without requiring a UAC prompt with most UAC settings.

After this, the malware process (akira.exe) runs as a trusted process (with high integrity) with privileged rights. Following these execution sequences, it again performs the OS version check, then drops itself in the StarUp folder with file name that only includes blank characters in the name with extension ‘.scr’; and also modifies setting for Windows Defender to add the file in the exclusion list. Furthermore, it disables the task manager by adding a Windows registry:

On the event of system restart, the malware was unable to run, as the StartUp folder lacks the supported file that TA forgot to copy to the folder:

Information Stealing Process:

The malware continues its execution and starts its information stealing functionality. It created a folder with the victim’ PC name (device name) to store the stolen data/information:

Then it starts collecting the data from the web-browsers and other apps, and stores them in this folder in the following execution:

In our investigation, we found the following applications from which malware tries to collect the data:
1. Opera web browser
2. Google Chrome browser
3. Mozilla Firefox browser
4. Microsoft Edge
5. Discord
6. CentBrowser
7. Amigo
8. Kometa
9. Orbitum
10. 7star browser
11. Sputnik
12. Vivaldi
13. Chrome SxS
14. Epic privacy browser
15. uCozMedia
16. Yandax browser
17. Brave-browser
18. Iridium
19. Discordcanary
20. Lightcord

The malware process saves the stolen data in the relevant files/folders according to the name:

The collected data includes login credentials, Credit card details, addon details, browsing history, saved website data, extensions, autofill data, bookmarks, network login data, cookies, and user profiles. After data collection, malware creates a zip archive of the folder:

Malware also start reconning the victim’s system such as collecting information about physical memory, system’s UUID etc:

Data Exfiltration:

Akira.exe requests for the server information to upload the stolen data:

After receiving the response, the malware uploads the stolen data that includes the zip archive and data collected from system reconning to the “” URL, at server “store3” as, mentioned in the response from the C2:

It also, uploads the infected system information to C2 in the following communication:

Uploads the same information to the Discord channel:

It also takes the screenshot, saves that in the C:\Users\username\AppData\Local\Temp directory as dump.png and uploads that to the Discord channel:

Akira Stealer Capabilities

The analysis of the Akira Stealer provides insights into it and reveals its functionality. Based on the analysis and the extracted data, followings are the capabilities of the Akira Stealer malware:
1. Credential stealing
2. Capable of extracting sensitive data from web-browsers, messaging apps and other applications.
3. Harvesting system user data and enumerate.
4. Target financial data, such as saved credit cards and login credentials.
5. Steals network login information and session cookies.
6. Collects bookmarks, wallet extensions data.
7. Takes screenshots.
8. Collects information for system profiling such as location data, IP address, city, country, language.
9. Uses client-side TLS certificate verification to deter the capturing of unencrypted communications.
10. Exfiltrates the gathered data to C2 and online storage defined by the adversary.


Akira is an information stealer malware that uses MaaS (malware-as-a-service) model, a dangerous form of malware that has potential to cause significant damage to organizations and end users. It is being distributed on a dedicated web-portal and by using the Telegram channel and it is capable of harvesting wealth of sensitive data from the compromised data while being undetected.

Threat actors are continuously making changes to the techniques to make it undetectable for an extended period, making their malicious creation flexible and provides ease of controlling infected system and updates over the Telegram channel that encourage cybercriminals to accomplish their evil intentions.

The best way to seek protection from the Akira Stealer is to be cautious with suspicious links and files received on the emails. Users should be aware that even trustworthy sources can lead to infection and data theft. Hardening the system, network and application security can help to reduce the risk of infection. Using up-to-date anti-malware software and adaptive organizational security policy is essential for effective protection.

Indicators of Compromise

S/N Indicators Type Context
1 016dfdd45c8208d246d59327c40355e0 MD5 Hash 3989X_NORD_VPN_PREMIUM_HITS.txt.cmd
2 b14262297bdfc61e2103eed6d77dce42bd3076c31912b4143151dfa36f751411 SHA-256 Hash 3989X_NORD_VPN_PREMIUM_HITS.txt.cmd
3 81e7ff1742d45075305a2082b1a7ac9d MD5 Hash hidden.bat
4 03564dc699f82f7e5d52046d82863ceddc6d657c66c0078f88cfe9cf1953187b SHA-256 Hash hidden.bat
5 4027c802411f8b4091c5c4eb077efa49 MD5 Hash
6 50e36d96cb593c39afa2fc11ac25c976f0ff1586159d2eb2626902e6d6062f81 SHA-256 Hash
7 Akira[.]red Domain C2 server
8 https[:]//akira[.]red/pyst.txt URL C2 server
9 https[:]//akira[.]red/inj.php URL C2 server
10 https[:]//api[.]gofile[.]io/getServer URL Data exfiltration
11 https[:]//store11[.]gofile[.]io/uploadFile URL Data exfiltration
12 https[:]//store1[.]gofile[.]io/uploadFile URL Data exfiltration
13 https[:]//store4[.]gofile[.]io/uploadFile URL Data exfiltration
14 https[:]//discord[.]com/api/webhooks/1145738132550078484/px0c3QsngkzQX39aXJP-vKODDYwvODftHl6j83epN0ndbZ0O_DQ7D6vhFVDcluj0rLey URL Data exfiltration
15 https[:]//store7[.]gofile[.]io/download/direct/13d3e926-8be7-4c15-a1d9-f0e809ec1f14/m2[.]zip URL Malware download
16 URL Telegram channel
17 URL Telegram channel

MITRE ATT&CK Tactics and Techniques

No Tactic Technique
1 Execution (TA0002) T1059.001: PowerShell
T1059.003: Windows Command Shell
T1059.006: Python
T1204.002: Malicious File
2 Persistence (TA0003) T1547.001: Registry Run Keys / Startup Folder
3 Privilege Escalation (TA0004) T1548: Abuse Elevation Control Mechanism
4 Defense Evasion (TA0005) T1622: Debugger Evasion
T1564: Hidden Window
T1070.004: File Deletion
T1112: Modify Registry
T1562: Impair Defenses
5 Credential Access (TA0006) T1539: Steal Web Session Cookie
T1555.003: Credentials from Web Browsers
6 Discovery (TA0007) T1217: Browser Information Discovery
T1082: System Information Discovery
T1016: System Network Configuration Discovery
7 Collection (TA0009) T1113: Screen Capture
8 Command and Control (TA0011) T1071.001: Web Protocols
T1132: Data Encoding
T1573: Encrypted Channel
9 Exfiltration (TA0010) T1041: Exfiltration Over C2 Channel
T1567.002: Exfiltration to Cloud Storage


  • Implement threat intelligence to proactively counter the threats associated with Akira Stealer.
  • To protect the endpoints, use robust endpoint security solutions for real-time monitoring and threat detection such as Anti-malware security suit and host-based intrusion prevention system.
  • Continuous monitoring of the network activity with NIDS/NIPS and using the web application firewall to filter/block the suspicious activity provides comprehensive protection from compromise due to encrypted payloads.
  • Configure firewalls to block outbound communication to known malicious IP addresses and domains associated with Akira Stealer command and control servers.
  • Implement behavior-based monitoring to detect unusual activity patterns, such as suspicious processes attempting to make unauthorized network connections.
  • Employ application whitelisting to allow only approved applications to run on endpoints, preventing the execution of unauthorized or malicious executables.
  • Conducting vulnerability assessment and penetration testing on the environment periodically helps in hardening the security by finding the security loopholes followed by remediation process.
  • Use of security benchmarks to create baseline security procedures and organizational security policies is also recommended.
  • Develop a comprehensive incident response plan that outlines steps to take in case of a malware infection, including isolating affected systems and notifying relevant stakeholders.
  • Security awareness and training programs help to protect from security incidents, such as social engineering attacks. Organizations should remain vigilant and continuously adapt their defenses to mitigate the evolving threats posed by Akira Stealer.
  • Update security patches which can reduce the risk for potential compromise.