Guides malware analysis through file ID, static disassembly (IDA/Ghidra), dynamic sandboxing (Wireshark/ProcMon), IOC extraction, and persistence/evasion detection for threat intel and IR.
From antigravity-awesome-skillsnpx claudepluginhub sickn33/antigravity-awesome-skills --plugin antigravity-awesome-skillsThis skill uses the workspace's default tool permissions.
Designs and optimizes AI agent action spaces, tool definitions, observation formats, error recovery, and context for higher task completion rates.
Enables AI agents to execute x402 payments with per-task budgets, spending controls, and non-custodial wallets via MCP tools. Use when agents pay for APIs, services, or other agents.
Compares coding agents like Claude Code and Aider on custom YAML-defined codebase tasks using git worktrees, measuring pass rate, cost, time, and consistency.
file sample.exe sha256sum sample.exe
strings -a sample.exe | head -100 FLOSS sample.exe # Obfuscated strings
diec sample.exe # Detect It Easy exeinfope sample.exe
rabin2 -i sample.exe dumpbin /imports sample.exe
### Phase 3: Static Analysis
1. **Load in disassembler**: IDA Pro, Ghidra, or Binary Ninja
2. **Identify main functionality**: Entry point, WinMain, DllMain
3. **Map execution flow**: Key decision points, loops
4. **Identify capabilities**: Network, file, registry, process operations
5. **Extract IOCs**: C2 addresses, file paths, mutex names
### Phase 4: Dynamic Analysis
Environment Setup:
Execution:
Documentation:
## Use this skill when
- Working on file identification tasks or workflows
- Needing guidance, best practices, or checklists for file identification
## Do not use this skill when
- The task is unrelated to file identification
- You need a different domain or tool outside this scope
## Instructions
- Clarify goals, constraints, and required inputs.
- Apply relevant best practices and validate outcomes.
- Provide actionable steps and verification.
- If detailed examples are required, open `resources/implementation-playbook.md`.
## Common Malware Techniques
### Persistence Mechanisms
Registry Run keys - HKCU/HKLM\Software\Microsoft\Windows\CurrentVersion\Run Scheduled tasks - schtasks, Task Scheduler Services - CreateService, sc.exe WMI subscriptions - Event subscriptions for execution DLL hijacking - Plant DLLs in search path COM hijacking - Registry CLSID modifications Startup folder - %APPDATA%\Microsoft\Windows\Start Menu\Programs\Startup Boot records - MBR/VBR modification
### Evasion Techniques
Anti-VM - CPUID, registry checks, timing Anti-debugging - IsDebuggerPresent, NtQueryInformationProcess Anti-sandbox - Sleep acceleration detection, mouse movement Packing - UPX, Themida, VMProtect, custom packers Obfuscation - String encryption, control flow flattening Process hollowing - Inject into legitimate process Living-off-the-land - Use built-in tools (PowerShell, certutil)
### C2 Communication
HTTP/HTTPS - Web traffic to blend in DNS tunneling - Data exfil via DNS queries Domain generation - DGA for resilient C2 Fast flux - Rapidly changing DNS Tor/I2P - Anonymity networks Social media - Twitter, Pastebin as C2 channels Cloud services - Legitimate services as C2
## Tool Proficiency
### Analysis Platforms
Cuckoo Sandbox - Open-source automated analysis ANY.RUN - Interactive cloud sandbox Hybrid Analysis - VirusTotal alternative Joe Sandbox - Enterprise sandbox solution CAPE - Cuckoo fork with enhancements
### Monitoring Tools
Process Monitor - File, registry, process activity Process Hacker - Advanced process management Wireshark - Network packet capture API Monitor - Win32 API call logging Regshot - Registry change comparison
### Unpacking Tools
Unipacker - Automated unpacking framework x64dbg + plugins - Scylla for IAT reconstruction OllyDumpEx - Memory dump and rebuild PE-sieve - Detect hollowed processes UPX - For UPX-packed samples
## IOC Extraction
### Indicators to Extract
```yaml
Network:
- IP addresses (C2 servers)
- Domain names
- URLs
- User-Agent strings
- JA3/JA3S fingerprints
File System:
- File paths created
- File hashes (MD5, SHA1, SHA256)
- File names
- Mutex names
Registry:
- Registry keys modified
- Persistence locations
Process:
- Process names
- Command line arguments
- Injected processes
rule Malware_Generic_Packer
{
meta:
description = "Detects common packer characteristics"
author = "Security Analyst"
strings:
$mz = { 4D 5A }
$upx = "UPX!" ascii
$section = ".packed" ascii
condition:
$mz at 0 and ($upx or $section)
}
# Malware Analysis Report
## Executive Summary
- Sample identification
- Key findings
- Threat level assessment
## Sample Information
- Hashes (MD5, SHA1, SHA256)
- File type and size
- Compilation timestamp
- Packer information
## Static Analysis
- Imports and exports
- Strings of interest
- Code analysis findings
## Dynamic Analysis
- Execution behavior
- Network activity
- Persistence mechanisms
- Evasion techniques
## Indicators of Compromise
- Network IOCs
- File system IOCs
- Registry IOCs
## Recommendations
- Detection rules
- Mitigation steps
- Remediation guidance