linux-troubleshooting
Linux system troubleshooting workflow for diagnosing and resolving system issues, performance problems, and service failures.
Best use case
linux-troubleshooting is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Linux system troubleshooting workflow for diagnosing and resolving system issues, performance problems, and service failures.
Teams using linux-troubleshooting should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/linux-troubleshooting/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How linux-troubleshooting Compares
| Feature / Agent | linux-troubleshooting | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Linux system troubleshooting workflow for diagnosing and resolving system issues, performance problems, and service failures.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Linux Troubleshooting Workflow ## Overview Specialized workflow for diagnosing and resolving Linux system issues including performance problems, service failures, network issues, and resource constraints. ## When to Use This Workflow Use this workflow when: - Diagnosing system performance issues - Troubleshooting service failures - Investigating network problems - Resolving disk space issues - Debugging application errors ## Workflow Phases ### Phase 1: Initial Assessment #### Skills to Invoke - `bash-linux` - Linux commands - `devops-troubleshooter` - Troubleshooting #### Actions 1. Check system uptime 2. Review recent changes 3. Identify symptoms 4. Gather error messages 5. Document findings #### Commands ```bash uptime hostnamectl cat /etc/os-release dmesg | tail -50 ``` #### Copy-Paste Prompts ``` Use @bash-linux to gather system information ``` ### Phase 2: Resource Analysis #### Skills to Invoke - `bash-linux` - Resource commands - `performance-engineer` - Performance analysis #### Actions 1. Check CPU usage 2. Analyze memory 3. Review disk space 4. Monitor I/O 5. Check network #### Commands ```bash top -bn1 | head -20 free -h df -h iostat -x 1 5 ``` #### Copy-Paste Prompts ``` Use @performance-engineer to analyze system resources ``` ### Phase 3: Process Investigation #### Skills to Invoke - `bash-linux` - Process commands - `server-management` - Process management #### Actions 1. List running processes 2. Identify resource hogs 3. Check process status 4. Review process trees 5. Analyze strace output #### Commands ```bash ps aux --sort=-%cpu | head -10 pstree -p lsof -p PID strace -p PID ``` #### Copy-Paste Prompts ``` Use @server-management to investigate processes ``` ### Phase 4: Log Analysis #### Skills to Invoke - `bash-linux` - Log commands - `error-detective` - Error detection #### Actions 1. Check system logs 2. Review application logs 3. Search for errors 4. Analyze log patterns 5. Correlate events #### Commands ```bash journalctl -xe tail -f /var/log/syslog grep -i error /var/log/* ``` #### Copy-Paste Prompts ``` Use @error-detective to analyze log files ``` ### Phase 5: Network Diagnostics #### Skills to Invoke - `bash-linux` - Network commands - `network-engineer` - Network troubleshooting #### Actions 1. Check network interfaces 2. Test connectivity 3. Analyze connections 4. Review firewall rules 5. Check DNS resolution #### Commands ```bash ip addr show ss -tulpn curl -v http://target dig domain ``` #### Copy-Paste Prompts ``` Use @network-engineer to diagnose network issues ``` ### Phase 6: Service Troubleshooting #### Skills to Invoke - `server-management` - Service management - `systematic-debugging` - Debugging #### Actions 1. Check service status 2. Review service logs 3. Test service restart 4. Verify dependencies 5. Check configuration #### Commands ```bash systemctl status service journalctl -u service -f systemctl restart service ``` #### Copy-Paste Prompts ``` Use @systematic-debugging to troubleshoot service issues ``` ### Phase 7: Resolution #### Skills to Invoke - `incident-responder` - Incident response - `bash-pro` - Fix implementation #### Actions 1. Implement fix 2. Verify resolution 3. Monitor stability 4. Document solution 5. Create prevention plan #### Copy-Paste Prompts ``` Use @incident-responder to implement resolution ``` ## Troubleshooting Checklist - [ ] System information gathered - [ ] Resources analyzed - [ ] Logs reviewed - [ ] Network tested - [ ] Services verified - [ ] Issue resolved - [ ] Documentation created ## Quality Gates - [ ] Root cause identified - [ ] Fix verified - [ ] Monitoring in place - [ ] Documentation complete ## Related Workflow Bundles - `os-scripting` - OS scripting - `bash-scripting` - Bash scripting - `cloud-devops` - DevOps ## Limitations - Use this skill only when the task clearly matches the scope described above. - Do not treat the output as a substitute for environment-specific validation, testing, or expert review. - Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.
Related Skills
linux-shell-scripting
Provide production-ready shell script templates for common Linux system administration tasks including backups, monitoring, user management, log analysis, and automation. These scripts serve as building blocks for security operations and penetration testing environments.
linux-privilege-escalation
Execute systematic privilege escalation assessments on Linux systems to identify and exploit misconfigurations, vulnerable services, and security weaknesses that allow elevation from low-privilege user access to root-level control.
claude-in-chrome-troubleshooting
Diagnose and fix Claude in Chrome MCP extension connectivity issues. Use when mcp__claude-in-chrome__* tools fail, return "Browser extension is not connected", or behave erratically.
bash-linux
Bash/Linux terminal patterns. Critical commands, piping, error handling, scripting. Use when working on macOS or Linux systems.
zustand-store-ts
Create Zustand stores following established patterns with proper TypeScript types and middleware.
zoom-automation
Automate Zoom meeting creation, management, recordings, webinars, and participant tracking via Rube MCP (Composio). Always search tools first for current schemas.
zoho-crm-automation
Automate Zoho CRM tasks via Rube MCP (Composio): create/update records, search contacts, manage leads, and convert leads. Always search tools first for current schemas.
zod-validation-expert
Expert in Zod — TypeScript-first schema validation. Covers parsing, custom errors, refinements, type inference, and integration with React Hook Form, Next.js, and tRPC.
zipai-optimizer
Ultra-dense token optimizer skill for prompt caching, log pruning, AST-based inspection, and minified JSON payloads.
zeroize-audit
Detects missing zeroization of sensitive data in source code and identifies zeroization removed by compiler optimizations, with assembly-level analysis, and control-flow verification. Use for auditing C/C++/Rust code handling secrets, keys, passwords, or other sensitive data.
zendesk-automation
Automate Zendesk tasks via Rube MCP (Composio): tickets, users, organizations, replies. Always search tools first for current schemas.
zapier-make-patterns
No-code automation democratizes workflow building. Zapier and Make (formerly Integromat) let non-developers automate business processes without writing code. But no-code doesn't mean no-complexity - these platforms have their own patterns, pitfalls, and breaking points.