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From cybersec-toolkit
Acquires Linux memory with LiME kernel module and analyzes images with Volatility 3 to extract processes, bash history, network connections, and kernel modules during incident response.
How this skill is triggered — by the user, by Claude, or both
Slash command
/cybersec-toolkit:analyzing-memory-forensics-with-lime-and-volatilityThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
- When investigating security incidents that require analyzing memory forensics with lime and volatility
Acquire Linux memory using LiME kernel module, then analyze with Volatility 3 to extract forensic artifacts from the memory image.
# LiME acquisition
insmod lime-$(uname -r).ko "path=/evidence/memory.lime format=lime"
# Volatility 3 analysis
vol3 -f /evidence/memory.lime linux.pslist
vol3 -f /evidence/memory.lime linux.bash
vol3 -f /evidence/memory.lime linux.sockstat
import volatility3
from volatility3.framework import contexts, automagic
from volatility3.plugins.linux import pslist, bash, sockstat
# Programmatic Volatility 3 usage
context = contexts.Context()
automagics = automagic.available(context)
Key analysis steps:
# Full forensic workflow
vol3 -f memory.lime linux.pslist | grep -v "\[kthread\]"
vol3 -f memory.lime linux.bash
vol3 -f memory.lime linux.malfind
vol3 -f memory.lime linux.lsmod
npx claudepluginhub 26zl/cybersec-toolkit --plugin cybersec-toolkitAcquires Linux memory with LiME kernel module and analyzes images with Volatility 3 to extract processes, bash history, network connections, and kernel modules during incident response.
Acquires Linux memory with LiME kernel module and analyzes with Volatility 3 to extract processes, network connections, bash history, kernel modules, and injected code for incident response.
Extracts Linux memory using LiME kernel module and analyzes with Volatility 3 for processes, network connections, bash history, kernel modules, and injected code in incident response.