Installation
npx skills add microsoft/azure-skills --skill azure-kusto 197.3K
Installs
Azure Data Explorer (Kusto) Query & Analytics
Execute KQL queries and manage Azure Data Explorer resources for fast, scalable big data analytics on log, telemetry, and time series data.
Skill Activation Triggers
Use this skill immediately when the user asks to:
- "Query my Kusto database for [data pattern]"
- "Show me events in the last hour from Azure Data Explorer"
- "Analyze logs in my ADX cluster"
- "Run a KQL query on [database]"
- "What tables are in my Kusto database?"
- "Show me the schema for [table]"
- "List my Azure Data Explorer clusters"
- "Aggregate telemetry data by [dimension]"
- "Create a time series chart from my logs"
Key Indicators:
- Mentions "Kusto", "Azure Data Explorer", "ADX", or "KQL"
- Log analytics or telemetry analysis requests
- Time series data exploration
- IoT data analysis queries
- SIEM or security analytics tasks
- Requests for data aggregation on large datasets
- Performance monitoring or APM queries
Overview
This skill enables querying and managing Azure Data Explorer (Kusto), a fast and highly scalable data exploration service optimized for log and telemetry data. Azure Data Explorer provides sub-second query performance on billions of records using the Kusto Query Language (KQL).
Key capabilities:
- Query Execution: Run KQL queries against massive datasets
- Schema Exploration: Discover tables, columns, and data types
- Resource Management: List clusters and databases
- Analytics: Aggregations, time series, anomaly detection, machine learning
Core Workflow
- Discover Resources: List available clusters and databases in subscription
- Explore Schema: Retrieve table structures to understand data model
- Query Data: Execute KQL queries for analysis, filtering, aggregation
- Analyze Results: Process query output for insights and reporting
Query Patterns
Pattern 1: Basic Data Retrieval
Fetch recent records from a table with simple filtering.
Example KQL:
Events
| where Timestamp > ago(1h)
| take 100Use for: Quick data inspection, recent event retrieval
Pattern 2: Aggregation Analysis
Summarize data by dimensions for insights and reporting.
Example KQL:
Events
| summarize count() by EventType, bin(Timestamp, 1h)
| order by count_ descUse for: Event counting, distribution analysis, top-N queries
Pattern 3: Time Series Analytics
Analyze data over time windows for trends and patterns.
Example KQL:
Telemetry
| where Timestamp > ago(24h)
| summarize avg(ResponseTime), percentiles(ResponseTime, 50, 95, 99) by bin(Timestamp, 5m)
| render timechartUse for: Performance monitoring, trend analysis, anomaly detection
Pattern 4: Join and Correlation
Combine multiple tables for cross-dataset analysis.
Example KQL:
Events
| where EventType == "Error"
| join kind=inner (
Logs
| where Severity == "Critical"
) on CorrelationId
| project Timestamp, EventType, LogMessage, SeverityUse for: Root cause analysis, correlated event tracking
Pattern 5: Schema Discovery
Explore table structure before querying.
Tools: kusto_table_schema_get
Use for: Understanding data model, query planning
Key Data Fields
When executing queries, common field patterns:
- Timestamp: Time of event (datetime) - use
ago(),between(),bin()for time filtering - EventType/Category: Classification field for grouping
- CorrelationId/SessionId: For tracing related events
- Severity/Level: For filtering by importance
- Dimensions: Custom properties for grouping and filtering
Result Format
Query results include:
- Columns: Field names and data types
- Rows: Data records matching query
- Statistics: Row count, execution time, resource utilization
- Visualization: Chart rendering hints (timechart, barchart, etc.)
KQL Best Practices
π’ Performance Optimized:
- Filter early: Use
wherebefore joins and aggregations - Limit result size: Use
takeorlimitto reduce data transfer - Time filters: Always filter by time range for time series data
- Indexed columns: Filter on indexed columns first
π΅ Query Patterns:
- Use
summarizefor aggregations instead ofcount()alone - Use
bin()for time bucketing in time series - Use
projectto select only needed columns - Use
extendto add calculated fields
π‘ Common Functions:
ago(timespan): Relative time (ago(1h), ago(7d))between(start .. end): Range filteringstartswith(),contains(),matches regex: String filteringparse,extract: Extract values from stringspercentiles(),avg(),sum(),max(),min(): Aggregations
Best Practices
- Always include time range filters to optimize query performance
- Use
takeorlimitfor exploratory queries to avoid large result sets - Leverage
summarizefor aggregations instead of client-side processing - Store frequently-used queries as functions in the database
- Use materialized views for repeated aggregations
- Monitor query performance and resource consumption
- Apply data retention policies to manage storage costs
- Use streaming ingestion for real-time analytics (< 1 second latency)
- Integrate with Azure Monitor for operational insights
MCP Tools Used
| Tool | Purpose |
|---|---|
kusto_cluster_list |
List all Azure Data Explorer clusters in a subscription |
kusto_database_list |
List all databases in a specific Kusto cluster |
kusto_query |
Execute KQL queries against a Kusto database |
kusto_table_schema_get |
Retrieve schema information for a specific table |
Required Parameters:
subscription: Azure subscription ID or display namecluster: Kusto cluster name (e.g., "mycluster")database: Database namequery: KQL query string (for query operations)table: Table name (for schema operations)
Optional Parameters:
resource-group: Resource group name (for listing operations)tenant: Azure AD tenant ID
Fallback Strategy: Azure CLI Commands
If Azure MCP Kusto tools fail, timeout, or are unavailable, use Azure CLI commands as fallback.
CLI Command Reference
| Operation | Azure CLI Command |
|---|---|
| List clusters | az kusto cluster list --resource-group <rg-name> |
| List databases | az kusto database list --cluster-name <cluster> --resource-group <rg-name> |
| Show cluster | az kusto cluster show --name <cluster> --resource-group <rg-name> |
| Show database | az kusto database show --cluster-name <cluster> --database-name <db> --resource-group <rg-name> |
KQL Query via Azure CLI
For queries, use the Kusto REST API or direct cluster URL:
az rest --method post \
--url "https://<cluster>.<region>.kusto.windows.net/v1/rest/query" \
--body "{ \"db\": \"<database>\", \"csl\": \"<kql-query>\" }"When to Fallback
Switch to Azure CLI when:
- MCP tool returns timeout error (queries > 60 seconds)
- MCP tool returns "service unavailable" or connection errors
- Authentication failures with MCP tools
- Empty response when database is known to have data
Common Issues
- Access Denied: Verify database permissions (Viewer role minimum for queries)
- Query Timeout: Optimize query with time filters, reduce result set, or increase timeout
- Syntax Error: Validate KQL syntax - common issues: missing pipes, incorrect operators
- Empty Results: Check time range filters (may be too restrictive), verify table name
- Cluster Not Found: Check cluster name format (exclude ".kusto.windows.net" suffix)
- High CPU Usage: Query too broad - add filters, reduce time range, limit aggregations
- Ingestion Lag: Streaming data may have 1-30 second delay depending on ingestion method
Use Cases
- Log Analytics: Application logs, system logs, audit logs
- IoT Analytics: Sensor data, device telemetry, real-time monitoring
- Security Analytics: SIEM data, threat detection, security event correlation
- APM: Application performance metrics, user behavior, error tracking
- Business Intelligence: Clickstream analysis, user analytics, operational KPIs
Installs
Security Audit
View Source
microsoft/azure-skills
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How to use this skill
Install azure-kusto by running npx skills add microsoft/azure-skills --skill azure-kusto in your project directory. Run the install command above in your project directory. The skill file will be downloaded from GitHub and placed in your project.
No configuration needed. Your AI agent (Claude Code, Cursor, Windsurf, etc.) automatically detects installed skills and uses them as context when generating code.
The skill enhances your agent's understanding of azure-kusto, helping it follow established patterns, avoid common mistakes, and produce production-ready output.
What you get
Skills are plain-text instruction files β not executable code. They encode expert knowledge about frameworks, languages, or tools that your AI agent reads to improve its output. This means zero runtime overhead, no dependency conflicts, and full transparency: you can read and review every instruction before installing.
Compatibility
This skill works with any AI coding agent that supports the skills.sh format, including Claude Code (Anthropic), Cursor, Windsurf, Cline, Aider, and other tools that read project-level context files. Skills are framework-agnostic at the transport level β the content inside determines which language or framework it applies to.
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