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azure-reliability

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by microsoft · part of microsoft/GitHub-Copilot-for-Azure

Assess and improve the reliability posture of PaaS Applications (Azure Functions and Azure App Service). Scans deployed resources for zone redundancy, ZRS storage, health probes, and multi-region failover. Presents a feature-pivoted checklist, then drives staged remediation (CLI or IaC patches) end-to-end with user confirmation. WHEN: \"assess reliability\", \"check reliability\", \"zone redundant\", \"multi-region failover\", \"high availability\", \"disaster recovery\", \"single points of fail

🧩 One of 7 skills in the microsoft/GitHub-Copilot-for-Azure package — works on its own, and pairs well with its siblings.

This is the playbook your agent receives when the skill activates — you don't need to read it to use the skill, but it's here to audit before installing.

Azure Reliability Assessment & Configuration

Quick Reference

PropertyDetails
Best forReliability posture assessment, zone redundancy enablement, multi-region failover setup
Primary capabilitiesReliability assessment table, Zone Redundancy Configuration, Multi-Region IaC Generation
Supported servicesAzure Functions, App Service (Container Apps planned for a future version)
MCP toolsAzure Resource Graph queries, Azure CLI commands

When to Use This Skill

Activate this skill when user wants to:

  • "Assess my Function app's reliability"
  • "Assess my Web app's reliability"
  • "Check the reliability of my resource group" (App Service and Functions resources only)
  • "Is my app zone redundant?" (App Service and Functions resources only)
  • "Is my app service plan zone redundant?"
  • "Make my app zone redundant" (App Service and Functions resources only)
  • "Make my app service plan zone redundant"
  • "Set up multi-region failover for my app" (App Service and Functions resources only)
  • "Check my reliability posture"
  • "Find single points of failure" (App Service and Functions resources only)
  • "Enable high availability for my app" (App Service and Functions resources only)
  • "Check disaster recovery readiness"
  • "Improve my app's resilience" (App Service and Functions resources only)

Scope note: This skill currently covers Azure Functions and Azure App Service only. If the user asks about Azure Container Apps reliability, acknowledge that support is planned but not yet available, and only proceed with the parts that apply to App Service and Functions resources in scope.

MCP Tools

ToolPurpose
mcp_azure_mcp_extension_cli_generateGenerate az CLI commands for resource queries and configuration
mcp_azure_mcp_subscription_listList available subscriptions
mcp_azure_mcp_group_listList resource groups

Primary query method: Azure Resource Graph via az graph query (requires az extension add --name resource-graph).

Assessment Workflow

Phase 1: Discover Resources

  1. Identify scope — Ask user for resource group, subscription, or app name
  2. Query Azure Resource Graph to discover all resources in scope
  3. Classify resources by service type (Functions, Storage, etc.). If non-Functions compute (App Service sites that aren't Function Apps, Container Apps) is found, note it but do not deep-dive — those services are planned for a future version of this skill.

Important: Always scope queries to the user's specified resource group or subscription. Add these filters to every Resource Graph query:

  • Resource group: | where resourceGroup =~ '<rg-name>'
  • Subscription: Use --subscriptions <sub-id> flag on az graph query
  • App name: | where name =~ '<app-name>'

Phase 2: Assess Reliability

Two-step assessment: platform-level discovery first, then per-service deep dive.

Step 1 — Platform discovery (find what's there). Use these to enumerate resources in scope and detect cross-cutting reliability gaps:

Platform checkReference
Zone redundancy — discoveryreferences/zone-redundancy-checks.md
Storage redundancy (cross-service)references/storage-redundancy-checks.md
Multi-region & global load balancersreferences/multi-region-checks.md
Front Door / Traffic Manager / App Insights probesreferences/health-probe-checks.md

Step 2 — Per-service deep dive. For each compute resource discovered in Step 1, load the matching service reference. The service reference is the single source of truth for that service's plan/SKU rules, assessment queries, CLI commands, IaC patches (Bicep + Terraform + AVM), and reporting hints.

This skill version ships only the Azure Functions and App Service per-service references. Other compute services are listed below explicitly so the dispatch logic is unambiguous: if a resource matches an unsupported row, do not attempt to load a reference, fabricate CLI commands, or generate IaC patches for it.

Service detectedReference
Azure Functions (microsoft.web/serverfarms with kind contains 'functionapp')references/services/functions/reliability.md
Azure App Service (non-Functions sites: microsoft.web/sites without kind contains 'functionapp', microsoft.web/serverfarms without kind contains 'functionapp')references/services/app-service/reliability.md
Azure Container Apps (microsoft.app/containerapps, microsoft.app/managedenvironments)⚪ Not yet shipped — planned for a future version

Handling unsupported services: If a resource matches an unsupported row above, surface it in the discovery summary, mark it as ⚪ not assessed (planned) in the Phase 3 table, and skip the per-service remediation steps for it. Do not attempt to fabricate CLI commands or IaC patches for those services.

Phase 3: Generate Reliability Checklist

Present findings as a feature-pivoted table: one row per reliability feature (Zone redundancy on compute, Zone-redundant storage, Health probes, Multi-region failover), with a single status indicator and the specific resources that are relevant to that feature. This avoids the noise of one-row-per-resource with mostly n/a cells. Do not assign numeric scores or grades.

🔍 Reliability Assessment — {scope}
─────────────────────────────────────────────────────────────────────────────────────────────
Reliability Feature              Status      Resources
─────────────────────────────────────────────────────────────────────────────────────────────
Zone redundancy — compute        🔴 OFF      • plan-web-ii5trxva2ark4 (P1v3)
                                              • plan-ii5trxva2ark4 (FC1)

Zone-redundant storage           🔴 GRS      • stii5trxva2ark4 (defaulted; no SKU set in IaC)

Health probes                    🔴 OFF      • func-api-ii5trxva2ark4 — needs code change (FC1)
                                              • app-web-ii5trxva2ark4 — no health check path

Multi-region failover            🔴 OFF      • Single region (eastus) only — Front Door not configured
─────────────────────────────────────────────────────────────────────────────────────────────

Want me to fix the 🔴 items? I'll do the quick wins first (App
plan zone redundancy + health checks on supported plans), then ask before
storage migration and multi-region setup. (yes/no)

Rules for the table:

  • Four feature rows, in this order: Zone redundancy — compute · Zone-redundant storage · Health probes · Multi-region failover. Omit a row entirely only if no resource in scope could ever apply to it.
  • Status column is one symbol + one short word, no other characters:
    • 🟢 ON — feature is fully enabled across all relevant resources in scope
    • 🟡 PARTIAL — some resources have it, some don't (or partial config like liveness-only)
    • 🔴 OFF — feature is missing on all relevant resources
    • For storage, replace OFF with the current SKU when relevant (🔴 LRS, 🔴 GRS, 🟢 ZRS, 🟢 GZRS). When no SKU is set in IaC, label as 🔴 GRS (ARM/AVM default) and note that in the resource line.
  • Resources column lists only what's relevant to that feature, one bullet per resource:
    • For "needs fixing" resources, include a short inline reason ((FC1), (defaulted; no SKU set), liveness only, needs code change (FC1)).
    • For resources that are already ON for that feature, mention them on the same row with — already ON so the user sees credit for what's right.
  • Do not include n/a, , or empty cells. If a feature doesn't apply to any resource in scope, drop the row.
  • Do not include numeric scores, grades, or point totals.
  • End the assessment with a single yes/no question that kicks off the staged remediation flow. Do not enumerate the per-resource fix list here — the user will see it after they say yes (Configuration Workflow Step 1).

UX Note: If the assessment finds the app already has all core reliability features (zone redundancy, ZRS/GZRS storage, health probes), skip the fix-it question and jump straight to Configuration Workflow Step 3 (Multi-region follow-up). Do NOT start any multi-region work without explicit consent.

Priority Classification

PriorityCriteriaAction
CriticalNo zone redundancy AND production workloadFix immediately
HighLRS storage on zone-redundant computeFix within days
MediumNo multi-region (single region but zone-redundant)Plan for next sprint
LowMissing health probes or monitoring gapsTrack and fix

Error Handling

ErrorMessageRemediation
Authentication required"Please login"Run az login and retry
Access denied"Forbidden"Confirm Reader/Contributor role assignment
Plan doesn't support ZR"Upgrade required"Inform user of plan upgrade path + cost delta
Region doesn't support AZ"Region limitation"Suggest supported regions

Best Practices

  • Run reliability assessments after every significant infrastructure change
  • Test failover scenarios periodically (at least quarterly)

Skill Boundaries

ActionThis skill doesHand off to
Assess reliability posture✅ Yes
Recommend improvements✅ Yes
Enable zone redundancy (CLI commands)✅ Yes
Patch Bicep/Terraform for reliability✅ Yes
Generate multi-region IaC✅ Yes (additions for the secondary region + Front Door)azure-prepare for full new-app IaC scaffolding
Deploy IaC for reliability changes✅ Yes (runs azd up / terraform apply / az deployment itself, after user confirmation)azure-deploy for general/non-reliability deploys
Validate pre-deploymentReliability checks onlyazure-validate for full validation