analyzing-linux-system-artifacts▌
mukul975/Anthropic-Cybersecurity-Skills · updated May 25, 2026
MDX-style export adds YAML metadata + attribution linking explainx.ai and this canonical listing URL.
Examine Linux system artifacts including auth logs, cron jobs, shell history, and system configuration to uncover evidence of compromise or unauthorized activity.
| name | analyzing-linux-system-artifacts |
| description | Examine Linux system artifacts including auth logs, cron jobs, shell history, and system configuration to uncover evidence of compromise or unauthorized activity. |
| domain | cybersecurity |
| subdomain | digital-forensics |
| tags | - forensics - linux-forensics - system-artifacts - log-analysis - persistence-detection - incident-investigation |
| version | '1.0' |
| author | mahipal |
| license | Apache-2.0 |
| nist_csf | - RS.AN-01 - RS.AN-03 - DE.AE-02 - RS.MA-01 |
Analyzing Linux System Artifacts
When to Use
- When investigating a compromised Linux server or workstation
- For identifying persistence mechanisms (cron, systemd, SSH keys)
- When tracing user activity through shell history and authentication logs
- During incident response to determine the scope of a Linux-based breach
- For detecting rootkits, backdoors, and unauthorized modifications
Prerequisites
- Forensic image or live access to the Linux system (read-only)
- Understanding of Linux file system hierarchy (FHS)
- Knowledge of common Linux logging locations (/var/log/)
- Tools: chkrootkit, rkhunter, AIDE, auditd logs
- Familiarity with systemd, cron, and PAM configurations
- Root access for complete artifact collection
Workflow
Step 1: Mount and Collect System Artifacts
# Mount forensic image read-only
mount -o ro,loop,offset=$((2048*512)) /cases/case-2024-001/images/linux_evidence.dd /mnt/evidence
# Create collection directories
mkdir -p /cases/case-2024-001/linux/{logs,config,users,persistence,network}
# Collect authentication logs
cp /mnt/evidence/var/log/auth.log* /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/secure* /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/syslog* /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/kern.log* /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/audit/audit.log* /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/wtmp /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/btmp /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/lastlog /cases/case-2024-001/linux/logs/
cp /mnt/evidence/var/log/faillog /cases/case-2024-001/linux/logs/
# Collect user artifacts
for user_dir in /mnt/evidence/home/*/; do
username=$(basename "$user_dir")
mkdir -p /cases/case-2024-001/linux/users/$username
cp "$user_dir"/.bash_history /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.zsh_history /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp -r "$user_dir"/.ssh/ /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.bashrc /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.profile /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.viminfo /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.wget-hsts /cases/case-2024-001/linux/users/$username/ 2>/dev/null
cp "$user_dir"/.python_history /cases/case-2024-001/linux/users/$username/ 2>/dev/null
done
# Collect root user artifacts
cp /mnt/evidence/root/.bash_history /cases/case-2024-001/linux/users/root/ 2>/dev/null
cp -r /mnt/evidence/root/.ssh/ /cases/case-2024-001/linux/users/root/ 2>/dev/null
# Collect system configuration
cp /mnt/evidence/etc/passwd /cases/case-2024-001/linux/config/
cp /mnt/evidence/etc/shadow /cases/case-2024-001/linux/config/
cp /mnt/evidence/etc/group /cases/case-2024-001/linux/config/
cp /mnt/evidence/etc/sudoers /cases/case-2024-001/linux/config/
cp -r /mnt/evidence/etc/sudoers.d/ /cases/case-2024-001/linux/config/
cp /mnt/evidence/etc/hosts /cases/case-2024-001/linux/config/
cp /mnt/evidence/etc/resolv.conf /cases/case-2024-001/linux/config/
cp -r /mnt/evidence/etc/ssh/ /cases/case-2024-001/linux/config/
Step 2: Analyze User Accounts and Authentication
# Analyze user accounts for anomalies
python3 << 'PYEOF'
print("=== USER ACCOUNT ANALYSIS ===\n")
# Parse /etc/passwd
with open('/cases/case-2024-001/linux/config/passwd') as f:
for line in f:
parts = line.strip().split(':')
if len(parts) >= 7:
username, _, uid, gid, comment, home, shell = parts[0], parts[1], int(parts[2]), int(parts[3]), parts[4], parts[5], parts[6]
# Flag accounts with UID 0 (root equivalent)
if uid == 0 and username != 'root':
print(f" ALERT: UID 0 account: {username} (shell: {shell})")
# Flag accounts with login shells that shouldn't have them
if shell not in ('/bin/false', '/usr/sbin/nologin', '/bin/sync') and uid >= 1000:
print(f" User: {username} (UID:{uid}, Shell:{shell}, Home:{home})")
# Flag system accounts with login shells
if uid < 1000 and uid > 0 and shell in ('/bin/bash', '/bin/sh', '/bin/zsh'):
print(f" WARNING: System account with shell: {username} (UID:{uid}, Shell:{shell})")
# Parse /etc/shadow for account status
print("\n=== PASSWORD STATUS ===")
with open('/cases/case-2024-001/linux/config/shadow') as f:
for line in f:
parts = line.strip().split(':')
if len(parts) >= 3:
username = parts[0]
pwd_hash = parts[1]
last_change = parts[2]
if pwd_hash and pwd_hash not in ('*', '!', '!!', ''):
hash_type = 'Unknown'
if pwd_hash.startswith('$6$'): hash_type = 'SHA-512'
elif pwd_hash.startswith('$5$'): hash_type = 'SHA-256'
elif pwd_hash.startswith('$y$'): hash_type = 'yescrypt'
elif pwd_hash.startswith('$1$'): hash_type = 'MD5 (WEAK)'
print(f" {username}: {hash_type} hash, last changed: day {last_change}")
PYEOF
# Analyze login history
last -f /cases/case-2024-001/linux/logs/wtmp > /cases/case-2024-001/linux/analysis/login_history.txt
lastb -f /cases/case-2024-001/linux/logs/btmp > /cases/case-2024-001/linux/analysis/failed_logins.txt 2>/dev/null
Step 3: Examine Persistence Mechanisms
# Check cron jobs for all users
echo "=== CRON JOBS ===" > /cases/case-2024-001/linux/persistence/cron_analysis.txt
# System cron
for cronfile in /mnt/evidence/etc/crontab /mnt/evidence/etc/cron.d/*; do
echo "--- $cronfile ---" >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
cat "$cronfile" 2>/dev/null >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
echo "" >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
done
# User cron tabs
for cronfile in /mnt/evidence/var/spool/cron/crontabs/*; do
echo "--- User crontab: $(basename $cronfile) ---" >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
cat "$cronfile" 2>/dev/null >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
echo "" >> /cases/case-2024-001/linux/persistence/cron_analysis.txt
done
# Check systemd services for persistence
echo "=== SYSTEMD SERVICES ===" > /cases/case-2024-001/linux/persistence/systemd_analysis.txt
find /mnt/evidence/etc/systemd/system/ -name "*.service" -newer /mnt/evidence/etc/os-release \
>> /cases/case-2024-001/linux/persistence/systemd_analysis.txt
for svc in /mnt/evidence/etc/systemd/system/*.service; do
echo "--- $(basename $svc) ---" >> /cases/case-2024-001/linux/persistence/systemd_analysis.txt
cat "$svc" >> /cases/case-2024-001/linux/persistence/systemd_analysis.txt
echo "" >> /cases/case-2024-001/linux/persistence/systemd_analysis.txt
done
# Check authorized SSH keys (backdoor detection)
echo "=== SSH AUTHORIZED KEYS ===" > /cases/case-2024-001/linux/persistence/ssh_keys.txt
find /mnt/evidence/home/ /mnt/evidence/root/ -name "authorized_keys" -exec sh -c \
'echo "--- {} ---"; cat {}; echo ""' \; >> /cases/case-2024-001/linux/persistence/ssh_keys.txt
# Check rc.local and init scripts
cat /mnt/evidence/etc/rc.local 2>/dev/null > /cases/case-2024-001/linux/persistence/rc_local.txt
# Check /etc/profile.d/ for login-triggered scripts
ls -la /mnt/evidence/etc/profile.d/ > /cases/case-2024-001/linux/persistence/profile_scripts.txt
# Check for LD_PRELOAD hijacking
grep -r "LD_PRELOAD" /mnt/evidence/etc/ 2>/dev/null > /cases/case-2024-001/linux/persistence/ld_preload.txt
cat /mnt/evidence/etc/ld.so.preload 2>/dev/null >> /cases/case-2024-001/linux/persistence/ld_preload.txt
Step 4: Analyze Shell History and Command Execution
# Analyze bash history for each user
python3 << 'PYEOF'
import os, glob
print("=== SHELL HISTORY ANALYSIS ===\n")
suspicious_commands = [
'wget', 'curl', 'nc ', 'ncat', 'netcat', 'python -c', 'python3 -c',
'perl -e', 'base64', 'chmod 777', 'chmod +s', '/dev/tcp', '/dev/udp',
'nmap', 'masscan', 'hydra', 'john', 'hashcat', 'passwd', 'useradd',
'iptables -F', 'ufw disable', 'history -c', 'rm -rf /', 'dd if=',
'crontab', 'at ', 'systemctl enable', 'ssh-keygen', 'scp ', 'rsync',
'tar czf', 'zip -r', 'openssl enc', 'gpg --encrypt', 'shred',
'chattr', 'setfacl', 'awk', '/tmp/', '/dev/shm/'
]
for hist_file in glob.glob('/cases/case-2024-001/linux/users/*/.bash_history'):
username = hist_file.split('/')[-2]
print(f"User: {username}")
with open(hist_file, 'r', errors='ignore') as f:
lines = f.readlines()
print(f" Total commands: {len(lines)}")
flagged = []
for i, line in enumerate(lines):
line = line.strip()
for cmd in suspicious_commands:
if cmd in line.lower():
flagged.append((i+1, line))
break
if flagged:
print(f" Suspicious commands: {len(flagged)}")
for lineno, cmd in flagged:
print(f" Line {lineno}: {cmd[:120]}")
print()
PYEOF
Step 5: Check for Rootkits and Modified Binaries
# Check for known rootkit indicators
# Compare system binary hashes against known-good
find /mnt/evidence/usr/bin/ /mnt/evidence/usr/sbin/ /mnt/evidence/bin/ /mnt/evidence/sbin/ \
-type f -executable -exec sha256sum {} \; > /cases/case-2024-001/linux/analysis/binary_hashes.txt
# Check for SUID/SGID binaries (potential privilege escalation)
find /mnt/evidence/ -perm -4000 -type f 2>/dev/null > /cases/case-2024-001/linux/analysis/suid_files.txt
find /mnt/evidence/ -perm -2000 -type f 2>/dev/null > /cases/case-2024-001/linux/analysis/sgid_files.txt
# Check for suspicious files in /tmp and /dev/shm
find /mnt/evidence/tmp/ /mnt/evidence/dev/shm/ -type f 2>/dev/null \
-exec file {} \; > /cases/case-2024-001/linux/analysis/tmp_files.txt
# Check for hidden files and directories
find /mnt/evidence/ -name ".*" -not -path "*/\." -type f 2>/dev/null | \
head -100 > /cases/case-2024-001/linux/analysis/hidden_files.txt
# Check kernel modules
ls -la /mnt/evidence/lib/modules/$(ls /mnt/evidence/lib/modules/ | head -1)/extra/ 2>/dev/null \
> /cases/case-2024-001/linux/analysis/extra_modules.txt
# Check for modified PAM configuration (authentication backdoors)
diff /mnt/evidence/etc/pam.d/ /cases/baseline/pam.d/ 2>/dev/null \
> /cases/case-2024-001/linux/analysis/pam_changes.txt
Key Concepts
| Concept | Description |
|---|---|
| /var/log/auth.log | Primary authentication log on Debian/Ubuntu systems |
| /var/log/secure | Primary authentication log on RHEL/CentOS systems |
| wtmp/btmp | Binary logs recording successful and failed login sessions |
| .bash_history | User command history file (can be cleared by attackers) |
| crontab | Scheduled task system commonly used for persistence |
| authorized_keys | SSH public keys granting passwordless access to an account |
| SUID bit | File permission allowing execution as the file owner (privilege escalation vector) |
| LD_PRELOAD | Environment variable that loads a shared library before all others (hooking technique) |
Tools & Systems
| Tool | Purpose |
|---|---|
| chkrootkit | Rootkit detection scanner for Linux systems |
| rkhunter | Rootkit Hunter - checks for rootkits, backdoors, and local exploits |
| AIDE | Advanced Intrusion Detection Environment - file integrity monitor |
| auditd | Linux audit framework for system call and file access monitoring |
| last/lastb | Parse wtmp/btmp for login and failed login history |
| Plaso/log2timeline | Super-timeline creation including Linux artifacts |
| osquery | SQL-based system querying for live forensic investigation |
| Velociraptor | Endpoint agent with Linux artifact collection capabilities |
Common Scenarios
Scenario 1: SSH Brute Force Followed by Compromise Analyze auth.log for failed SSH attempts followed by success, identify the attacking IP, check .bash_history for post-compromise commands, examine authorized_keys for added backdoor keys, check crontab for persistence, review network connections.
Scenario 2: Web Server Compromise via Application Vulnerability Examine web server access and error logs for exploitation attempts, check /tmp and /dev/shm for webshells, analyze the web server user's activity (www-data), check for privilege escalation via SUID binaries or kernel exploits, review outbound connections.
Scenario 3: Insider Threat on Database Server Analyze the suspect user's bash_history for database dump commands, check for large tar/zip files in home directory or /tmp, examine scp/rsync commands for data transfer, review cron jobs for automated exfiltration, check USB device logs.
Scenario 4: Crypto-Miner on Cloud Instance Check for high-CPU processes in /proc (live) or systemd service files, examine crontab entries for miner restart scripts, check /tmp for mining binaries, analyze network connections for mining pool communications, review authorized_keys for attacker access.
Output Format
Linux Forensics Summary:
System: webserver01 (Ubuntu 22.04 LTS)
Hostname: webserver01.corp.local
Kernel: 5.15.0-91-generic
User Accounts:
Total: 25 (3 with UID 0 - 1 ANOMALOUS)
Interactive shells: 8 users
Recently created: admin2 (created 2024-01-15)
Authentication Events:
Successful SSH logins: 456
Failed SSH attempts: 12,345 (from 23 unique IPs)
Sudo executions: 89
Persistence Mechanisms Found:
Cron jobs: 3 suspicious (reverse shell, miner restart)
Systemd services: 1 unknown (update-checker.service)
SSH keys: 2 unauthorized keys in root authorized_keys
rc.local: Modified with download cradle
Suspicious Activity:
- bash_history contains wget to pastebin URL
- SUID binary /tmp/.hidden/escalate found
- /dev/shm/ contains compiled ELF binary
- LD_PRELOAD in /etc/ld.so.preload pointing to /lib/.hidden.so
Report: /cases/case-2024-001/linux/analysis/
How to use analyzing-linux-system-artifacts on Cursor
AI-first code editor with Composer
Prerequisites
Before installing skills in Cursor, ensure your development environment meets these requirements:
- ›Cursor installed and configured on your development machine
- ›Node.js version 16.0+ with npm package manager (verify with
node --version) - ›Active project directory or workspace where you want to add analyzing-linux-system-artifacts
Execute installation command
Execute the skills CLI command in your project's root directory to begin installation:
The skills CLI fetches analyzing-linux-system-artifacts from GitHub repository mukul975/Anthropic-Cybersecurity-Skills and configures it for Cursor.
Select Cursor when prompted
The CLI will show a list of available agents. Use arrow keys to navigate and space to select Cursor:
Verify installation
Confirm successful installation by checking the skill directory location:
Reload or restart Cursor to activate analyzing-linux-system-artifacts. Access the skill through slash commands (e.g., /analyzing-linux-system-artifacts) or your agent's skill management interface.
Security & Verification Notice
We perform automated surface-level scans (Gen AI Scanner, Socket, Snyk) during installation. These checks detect common vulnerabilities but do not guarantee complete security. Always review skill source code and verify the publisher's reputation before production use.
Skills execute code in your development environment. Always verify the publisher's identity, review recent commits, and test in isolated environments before production deployment.
List & Monetize Your Skill
Submit your Claude Code skill and start earning
Use Cases▌
Task Automation & Efficiency
Automate repetitive workflows and reduce manual effort
Example
Generate reports, summarize documents, draft communications
Save 3-5 hours per week on routine tasks
Knowledge Enhancement
Learn new skills, understand complex topics, get expert guidance
Example
Explain concepts, provide examples, suggest learning resources
Accelerate learning and skill development by 2x
Quality Improvement
Enhance output quality through reviews, suggestions, and refinements
Example
Review drafts, suggest improvements, catch errors
Improve work quality by 30-40% with less effort
Implementation Guide▌
Prerequisites
- ›Claude Desktop or compatible AI client with skill support
- ›Clear understanding of task or problem to solve
- ›Willingness to iterate and refine outputs
Time Estimate
15-45 minutes depending on use case complexity
Installation Steps
- 1.Install skill using provided installation command
- 2.Test with simple use case relevant to your work
- 3.Evaluate output quality and relevance
- 4.Iterate on prompts to improve results
- 5.Integrate into regular workflow if valuable
Common Pitfalls
- ⚠Expecting perfect results without iteration
- ⚠Not providing enough context in prompts
- ⚠Using skill for tasks outside its intended scope
- ⚠Accepting outputs without review and validation
Best Practices▌
✓ Do
- +Start with clear, specific prompts
- +Provide relevant context and constraints
- +Review and refine all outputs before using
- +Iterate to improve output quality
- +Document successful prompt patterns
✗ Don't
- −Don't use without understanding skill limitations
- −Don't skip validation of outputs
- −Don't share sensitive information in prompts
- −Don't expect skill to replace human judgment
💡 Pro Tips
- ★Be specific about desired format and style
- ★Ask for multiple options to choose from
- ★Request explanations to understand reasoning
- ★Combine AI efficiency with human expertise
When to Use This▌
✓ Use When
Use when skill capabilities match your task, clear ROI on time saved, and you can validate outputs. Best for repetitive tasks, learning, and quality improvement.
✗ Avoid When
Avoid when task requires deep expertise you can't validate, involves sensitive decisions, or when learning process is more valuable than speed of completion.
Learning Path▌
- 1Familiarize yourself with skill capabilities and limitations
- 2Start with low-risk, non-critical tasks
- 3Progress to more complex and valuable use cases
- 4Build expertise through regular use and experimentation
Discussion
Product Hunt–style comments (not star reviews)- No comments yet — start the thread.
Ratings
4.6★★★★★36 reviews- ★★★★★Anika Iyer· Dec 28, 2024
Registry listing for analyzing-linux-system-artifacts matched our evaluation — installs cleanly and behaves as described in the markdown.
- ★★★★★Dev Johnson· Dec 24, 2024
Useful defaults in analyzing-linux-system-artifacts — fewer surprises than typical one-off scripts, and it plays nicely with `npx skills` flows.
- ★★★★★Aarav Jackson· Dec 8, 2024
Solid pick for teams standardizing on skills: analyzing-linux-system-artifacts is focused, and the summary matches what you get after install.
- ★★★★★Dhruvi Jain· Dec 4, 2024
analyzing-linux-system-artifacts has been reliable in day-to-day use. Documentation quality is above average for community skills.
- ★★★★★Charlotte Iyer· Nov 27, 2024
analyzing-linux-system-artifacts fits our agent workflows well — practical, well scoped, and easy to wire into existing repos.
- ★★★★★Arya Martinez· Nov 27, 2024
analyzing-linux-system-artifacts has been reliable in day-to-day use. Documentation quality is above average for community skills.
- ★★★★★Oshnikdeep· Nov 23, 2024
Solid pick for teams standardizing on skills: analyzing-linux-system-artifacts is focused, and the summary matches what you get after install.
- ★★★★★Anaya Flores· Nov 19, 2024
analyzing-linux-system-artifacts reduced setup friction for our internal harness; good balance of opinion and flexibility.
- ★★★★★Aarav Sethi· Nov 15, 2024
We added analyzing-linux-system-artifacts from the explainx registry; install was straightforward and the SKILL.md answered most questions upfront.
- ★★★★★Luis Ndlovu· Oct 18, 2024
analyzing-linux-system-artifacts is among the better-maintained entries we tried; worth keeping pinned for repeat workflows.
showing 1-10 of 36