skillZs
LIVE SKILL TAGS
>>> LIVE SKILLS INDEX <<<
* OPEN SOURCE *
NO LOGIN, NO TRACKING
REAL INSTALL DATA
← back to all skills
jeffallan/claude-skills3.4k installs

sre-engineer

Defines service level objectives, creates error budget policies, designs incident response procedures, develops capacity models, and produces monitoring configurations and automation scripts for production systems. Use when defining SLIs/SLOs, managing error budgets, building reliable systems at scale, incident management, chaos engineering, toil reduction, or capacity planning.

How do I install this agent skill?

npx skills add https://github.com/jeffallan/claude-skills --skill sre-engineer
view source ↗

Is this agent skill safe to install?

  • Gen Agent Trust Hubwarn

    The skill provides comprehensive templates and scripts for Site Reliability Engineering (SRE) tasks, including toil automation, incident response, and chaos engineering. While functional for its stated purpose, the skill includes patterns for executing shell commands with elevated privileges (via kubectl, systemctl, tc, and iptables) and demonstrates unsafe command execution practices using shell=True, which could lead to command injection if user input is not properly sanitized.

  • Socketpass

    No alerts

  • Snykpass

    Risk: LOW · No issues

  • Runlayerfail

    2/6 files flagged

  • ZeroLeakspass

    Score: 93/100 · 2 sections analyzed

What does this agent skill do?

SRE Engineer

Core Workflow

  1. Assess reliability - Review architecture, SLOs, incidents, toil levels
  2. Define SLOs - Identify meaningful SLIs and set appropriate targets
  3. Verify alignment - Confirm SLO targets reflect user expectations before proceeding
  4. Implement monitoring - Build golden signal dashboards and alerting
  5. Automate toil - Identify repetitive tasks and build automation
  6. Test resilience - Design and execute chaos experiments; verify recovery meets RTO/RPO targets before marking the experiment complete; validate recovery behavior end-to-end

Reference Guide

Load detailed guidance based on context:

TopicReferenceLoad When
SLO/SLIreferences/slo-sli-management.mdDefining SLOs, calculating error budgets
Error Budgetsreferences/error-budget-policy.mdManaging budgets, burn rates, policies
Monitoringreferences/monitoring-alerting.mdGolden signals, alert design, dashboards
Automationreferences/automation-toil.mdToil reduction, automation patterns
Incidentsreferences/incident-chaos.mdIncident response, chaos engineering

Constraints

MUST DO

  • Define quantitative SLOs (e.g., 99.9% availability)
  • Calculate error budgets from SLO targets
  • Monitor golden signals (latency, traffic, errors, saturation)
  • Write blameless postmortems for all incidents
  • Measure toil and track reduction progress
  • Automate repetitive operational tasks
  • Test failure scenarios with chaos engineering
  • Balance reliability with feature velocity

MUST NOT DO

  • Set SLOs without user impact justification
  • Alert on symptoms without actionable runbooks
  • Tolerate >50% toil without automation plan
  • Skip postmortems or assign blame
  • Implement manual processes for recurring tasks
  • Deploy without capacity planning
  • Ignore error budget exhaustion
  • Build systems that can't degrade gracefully

Output Templates

When implementing SRE practices, provide:

  1. SLO definitions with SLI measurements and targets
  2. Monitoring/alerting configuration (Prometheus, etc.)
  3. Automation scripts (Python, Go, Terraform)
  4. Runbooks with clear remediation steps
  5. Brief explanation of reliability impact

Concrete Examples

SLO Definition & Error Budget Calculation

# 99.9% availability SLO over a 30-day window
# Allowed downtime: (1 - 0.999) * 30 * 24 * 60 = 43.2 minutes/month
# Error budget (request-based): 0.001 * total_requests

# Example: 10M requests/month → 10,000 error budget requests
# If 5,000 errors consumed in week 1 → 50% budget burned in 25% of window
# → Trigger error budget policy: freeze non-critical releases

Prometheus SLO Alerting Rule (Multiwindow Burn Rate)

groups:
  - name: slo_availability
    rules:
      # Fast burn: 2% budget in 1h (14.4x burn rate)
      - alert: HighErrorBudgetBurn
        expr: |
          (
            sum(rate(http_requests_total{status=~"5.."}[1h]))
            /
            sum(rate(http_requests_total[1h]))
          ) > 0.014400
          and
          (
            sum(rate(http_requests_total{status=~"5.."}[5m]))
            /
            sum(rate(http_requests_total[5m]))
          ) > 0.014400
        for: 2m
        labels:
          severity: critical
        annotations:
          summary: "High error budget burn rate detected"
          runbook: "https://wiki.internal/runbooks/high-error-burn"

      # Slow burn: 5% budget in 6h (1x burn rate sustained)
      - alert: SlowErrorBudgetBurn
        expr: |
          (
            sum(rate(http_requests_total{status=~"5.."}[6h]))
            /
            sum(rate(http_requests_total[6h]))
          ) > 0.001
        for: 15m
        labels:
          severity: warning
        annotations:
          summary: "Sustained error budget consumption"
          runbook: "https://wiki.internal/runbooks/slow-error-burn"

PromQL Golden Signal Queries

# Latency — 99th percentile request duration
histogram_quantile(0.99, sum(rate(http_request_duration_seconds_bucket[5m])) by (le, service))

# Traffic — requests per second by service
sum(rate(http_requests_total[5m])) by (service)

# Errors — error rate ratio
sum(rate(http_requests_total{status=~"5.."}[5m])) by (service)
  /
sum(rate(http_requests_total[5m])) by (service)

# Saturation — CPU throttling ratio
sum(rate(container_cpu_cfs_throttled_seconds_total[5m])) by (pod)
  /
sum(rate(container_cpu_cfs_periods_total[5m])) by (pod)

Toil Automation Script (Python)

#!/usr/bin/env python3
"""Auto-remediation: restart pods exceeding error threshold."""
import subprocess, sys, json

ERROR_THRESHOLD = 0.05  # 5% error rate triggers restart

def get_error_rate(service: str) -> float:
    """Query Prometheus for current error rate."""
    import urllib.request
    query = f'sum(rate(http_requests_total{{status=~"5..",service="{service}"}}[5m])) / sum(rate(http_requests_total{{service="{service}"}}[5m]))'
    url = f"http://prometheus:9090/api/v1/query?query={urllib.request.quote(query)}"
    with urllib.request.urlopen(url) as resp:
        data = json.load(resp)
    results = data["data"]["result"]
    return float(results[0]["value"][1]) if results else 0.0

def restart_deployment(namespace: str, deployment: str) -> None:
    subprocess.run(
        ["kubectl", "rollout", "restart", f"deployment/{deployment}", "-n", namespace],
        check=True
    )
    print(f"Restarted {namespace}/{deployment}")

if __name__ == "__main__":
    service, namespace, deployment = sys.argv[1], sys.argv[2], sys.argv[3]
    rate = get_error_rate(service)
    print(f"Error rate for {service}: {rate:.2%}")
    if rate > ERROR_THRESHOLD:
        restart_deployment(namespace, deployment)
    else:
        print("Within SLO threshold — no action required")

Documentation

Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.

<a href="https://skillzs.dev/skills/jeffallan/claude-skills/sre-engineer">View sre-engineer on skillZs</a>