Hacktool.MSIL.FakeHack.LL
Table of Contents
Analysis Report
General information
| Family Name: | Hacktool.MSIL.FakeHack.LL |
|---|---|
| Signature status: | No Signature |
Known Samples
Known Samples
This section lists other file samples believed to be associated with this family.|
MD5:
92b53eff5d6265a310e3f8a7f535643a
SHA1:
c00154fad2a87fde2abdb1fea14d38ae8ba348c3
SHA256:
9C99FE9D9BE4965FC9C6960583C221B722860E1577F1468B412E699B7FA70D25
File Size:
31.23 KB, 31232 bytes
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MD5:
48362e2fc6f720414cc9314c5f152ee4
SHA1:
91043a5ae13f83a033f569536b30e2f587defc1a
SHA256:
0DB8CB0078FEA271BCFD01DDC2FFA5D499292E59BCBB1B2B8D088065B31C17A9
File Size:
31.23 KB, 31232 bytes
|
Windows Portable Executable Attributes
- File doesn't have "Rich" header
- File doesn't have debug information
- File doesn't have exports table
- File doesn't have relocations information
- File doesn't have security information
- File is .NET application
- File is 64-bit executable
- File is console application (IMAGE_SUBSYSTEM_WINDOWS_CUI)
- File is either console or GUI application
- File is not packed
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- IMAGE_FILE_DLL is not set inside PE header (Executable)
- IMAGE_FILE_EXECUTABLE_IMAGE is set inside PE header (Executable Image)
Windows PE Version Information
Windows PE Version Information
This section displays values and attributes that have been set in the Windows file version information data structure for samples within this family. To mislead users, malware actors often add fake version information mimicking legitimate software.| Name | Value |
|---|---|
| Assembly Version | 5.8.3.0 |
| Comments | Manages BCU's pre-defined rules and scripts. |
| Company Name | Marcin Szeniak |
| File Description | ScriptHelper |
| File Version | 5.8.3.0 |
| Internal Name | ScriptHelper.dll |
| Legal Copyright | Copyright © 2023 |
| Original Filename | ScriptHelper.dll |
| Product Name | ScriptHelper |
| Product Version | 5.8.3.0 |
File Traits
- .NET
- x64
Block Information
Block Information
During analysis, EnigmaSoft breaks file samples into logical blocks for classification and comparison with other samples. Blocks can be used to generate malware detection rules and to group file samples into families based on shared source code, functionality and other distinguishing attributes and characteristics. This section lists a summary of this block data, as well as its classification by EnigmaSoft. A visual representation of the block data is also displayed, where available.| Total Blocks: | 56 |
|---|---|
| Potentially Malicious Blocks: | 27 |
| Whitelisted Blocks: | 29 |
| Unknown Blocks: | 0 |
Visual Map
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0 - Probable Safe Block
? - Unknown Block
x - Potentially Malicious Block
? - Unknown Block
x - Potentially Malicious Block
Similar Families
Similar Families
This section lists other families that share similarities with this family, based on EnigmaSoft’s analysis. Many malware families are created from the same malware toolkits and use the same packing and encryption techniques but uniquely extend functionality. Similar families may also share source code, attributes, icons, subcomponents, compromised and/or invalid digital signatures, and network characteristics. Researchers leverage these similarities to rapidly and effectively triage file samples and extend malware detection rules.- MSIL.FakeHack.AQ
- MSIL.FakeHack.LL
- MSIL.FakeHack.PK
- MSIL.FakeHack.PL
- MSIL.FakeHack.PN
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- MSIL.FakeHack.RY
- MSIL.FakeHack.TTC
- MSIL.Runner.D
Windows API Usage
Windows API Usage
This section lists Windows API calls that are used by the samples in this family. Windows API usage analysis is a valuable tool that can help identify malicious activity, such as keylogging, security privilege escalation, data encryption, data exfiltration, interference with antivirus software, and network request manipulation.| Category | API |
|---|---|
| Syscall Use |
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| User Data Access |
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