optimizing-ef-core-queries
communityOptimize Entity Framework Core queries by fixing N+1 problems, choosing correct tracking modes, using compiled queries, and avoiding common performance traps. Use when EF Core queries are slow, generating excessive SQL, or causing high database load.
>_dotnet/skills/plugins/dotnet-data/skills/optimizing-ef-core-queries·commit 22575b2
name: optimizing-ef-core-queries description: Optimize Entity Framework Core queries by fixing N+1 problems, choosing correct tracking modes, using compiled queries, and avoiding common performance traps. Use when EF Core queries are slow, generating excessive SQL, or causing high database load. license: MIT
Optimizing EF Core Queries
When to Use
- EF Core queries are slow or generating too many SQL statements
- Database CPU/IO is high due to ORM inefficiency
- N+1 query patterns are detected in logs
- Large result sets cause memory pressure
When Not to Use
- The user is using Dapper or raw ADO.NET (not EF Core)
- The performance issue is database-side (missing indexes, bad schema)
- The user is building a new data access layer from scratch
Inputs
| Input | Required | Description |
|---|---|---|
| Slow EF Core queries | Yes | The LINQ queries or DbContext usage to optimize |
| SQL output or logs | No | EF Core generated SQL or query execution logs |
Workflow
Step 1: Enable query logging to see the actual SQL
// In Program.cs or DbContext configuration:
optionsBuilder
.UseSqlServer(connectionString)
.LogTo(Console.WriteLine, LogLevel.Information)
.EnableSensitiveDataLogging() // shows parameter values (dev only!)
.EnableDetailedErrors();
Or use the Microsoft.EntityFrameworkCore log category:
{
"Logging": {
"LogLevel": {
"Microsoft.EntityFrameworkCore.Database.Command": "Information"
}
}
}
Step 2: Fix N+1 query patterns
The #1 EF Core performance killer. Happens when loading related entities in a loop.
Before (N+1 — 1 query for orders + N queries for items):
var orders = await db.Orders.ToListAsync();
foreach (var order in orders)
{
// Each access triggers a lazy-load query!
var items = order.Items.Count;
}
After (eager loading — 1 or 2 queries total):
// Option 1: Include (JOIN)
var orders = await db.Orders
.Include(o => o.Items)
.ToListAsync();
// Option 2: Split query (separate SQL, avoids cartesian explosion)
var orders = await db.Orders
.Include(o => o.Items)
.AsSplitQuery()
.ToListAsync();
// Option 3: Explicit projection (best - only fetches needed columns)
var orderSummaries = await db.Orders
.Select(o => new OrderSummary
{
OrderId = o.Id,
Total = o.Items.Sum(i => i.Price),
ItemCount = o.Items.Count
})
.ToListAsync();
When to use Split vs Single query:
| Scenario | Use |
|---|---|
| 1 level of Include | Single query (default) |
| Multiple Includes (Cartesian risk) | AsSplitQuery() |
| Include with large child collections | AsSplitQuery() |
| Need transaction consistency | Single query |
Step 3: Use NoTracking for read-only queries
Change tracking overhead is significant. Disable it when you don't need to update entities:
// Per-query
var products = await db.Products
.AsNoTracking()
.Where(p => p.IsActive)
.ToListAsync();
// Global default for read-heavy apps
services.AddDbContext<AppDbContext>(options =>
options.UseSqlServer(connectionString)
.UseQueryTrackingBehavior(QueryTrackingBehavior.NoTracking));
Use AsNoTrackingWithIdentityResolution() when the query returns duplicate entities to avoid duplicated objects in memory.
Step 4: Use compiled queries for hot paths
// Define once as static
private static readonly Func<AppDbContext, int, Task<Order?>> GetOrderById =
EF.CompileAsyncQuery((AppDbContext db, int id) =>
db.Orders
.Include(o => o.Items)
.FirstOrDefault(o => o.Id == id));
// Use repeatedly — skips query compilation overhead
var order = await GetOrderById(db, orderId);
Step 5: Avoid common query traps
| Trap | Problem | Fix |
|---|---|---|
ToList() before Where() | Loads entire table into memory | Filter first: .Where().ToList() |
Count() to check existence | Scans all rows | Use .Any() instead |
.Select() after .Include() | Include is ignored with projection | Remove Include, use Select only |
string.Contains() in Where | May not translate, falls to client eval | Use EF.Functions.Like() for SQL LIKE |
Calling .ToList() inside Select() | Causes nested queries | Use projection with Select all the way |
Step 6: Use raw SQL or FromSql for complex queries
When LINQ can't express it efficiently:
var results = await db.Orders
.FromSqlInterpolated($@"
SELECT o.* FROM Orders o
INNER JOIN (
SELECT OrderId, SUM(Price) as Total
FROM OrderItems
GROUP BY OrderId
HAVING SUM(Price) > {minTotal}
) t ON o.Id = t.OrderId")
.AsNoTracking()
.ToListAsync();
Validation
- SQL logging shows expected number of queries (no N+1)
- Read-only queries use
AsNoTracking() - Hot-path queries use compiled queries
- No client-side evaluation warnings in logs
- Include/split strategy matches data shape
Common Pitfalls
| Pitfall | Solution |
|---|---|
| Lazy loading silently creating N+1 | Remove Microsoft.EntityFrameworkCore.Proxies or disable lazy loading |
| Global query filters forgotten in perf analysis | Check HasQueryFilter in model config; use IgnoreQueryFilters() if needed |
DbContext kept alive too long | DbContext should be scoped (per-request); don't cache it |
| Batch updates fetching then saving | EF Core 7+: use ExecuteUpdateAsync / ExecuteDeleteAsync for bulk operations |
String interpolation in FromSqlRaw | SQL injection risk — use FromSqlInterpolated (parameterized) |