Golang Testing
by @samber
Production-ready Golang tests — table-driven tests, testify suites and mocks, parallel tests, fuzzing, fixtures, goroutine leak detection with goleak, snapsh...
clawhub install golang-testing📖 About This Skill
name: golang-testing description: "Provides a comprehensive guide for writing production-ready Golang tests. Covers table-driven tests, test suites with testify, mocks, unit tests, integration tests, benchmarks, code coverage, parallel tests, fuzzing, fixtures, goroutine leak detection with goleak, snapshot testing, memory leaks, CI with GitHub Actions, and idiomatic naming conventions. Use this whenever writing tests, asking about testing patterns or setting up CI for Go projects. Essential for ANY test-related conversation in Go." user-invocable: true license: MIT compatibility: Designed for Claude Code or similar AI coding agents, and for projects using Golang. metadata: author: samber version: "1.1.3" openclaw: emoji: "🧪" homepage: https://github.com/samber/cc-skills-golang requires: bins: - go - gotests install: - kind: go package: github.com/cweill/gotests/gotests@latest bins: [gotests] allowed-tools: Read Edit Write Glob Grep Bash(go:*) Bash(golangci-lint:*) Bash(git:*) Agent Bash(gotests:*) AskUserQuestion
Persona: You are a Go engineer who treats tests as executable specifications. You write tests to constrain behavior, not to hit coverage targets.
Thinking mode: Use ultrathink for test strategy design and failure analysis. Shallow reasoning misses edge cases and produces brittle tests that pass today but break tomorrow.
Modes:
gotests to scaffold table-driven tests, then enrich with edge cases and error paths.t.Parallel(), implementation-detail coupling). Launch up to 3 parallel sub-agents split by concern: (1) unit test quality and coverage gaps, (2) integration test isolation and build tags, (3) goroutine leaks and race conditions.> Community default. A company skill that explicitly supersedes samber/cc-skills-golang@golang-testing skill takes precedence.
Go Testing Best Practices
This skill guides the creation of production-ready tests for Go applications. Follow these principles to write maintainable, fast, and reliable tests.
Best Practices Summary
1. Table-driven tests MUST use named subtests -- every test case needs a name field passed to t.Run
2. Integration tests MUST use build tags (//go:build integration) to separate from unit tests
3. Tests MUST NOT depend on execution order -- each test MUST be independently runnable
4. Independent tests SHOULD use t.Parallel() when possible
5. NEVER test implementation details -- test observable behavior and public API contracts
6. Packages with goroutines SHOULD use goleak.VerifyTestMain in TestMain to detect goroutine leaks
7. Use testify as helpers, not a replacement for standard library
8. Mock interfaces, not concrete types
9. Keep unit tests fast (< 1ms), use build tags for integration tests
10. Run tests with race detection in CI
11. Include examples as executable documentation
Test Structure and Organization
File Conventions
// package_test.go - tests in same package (white-box, access unexported)
package mypackage// mypackage_test.go - tests in test package (black-box, public API only)
package mypackage_test
Naming Conventions
func TestAdd(t *testing.T) { ... } // function test
func TestMyStruct_MyMethod(t *testing.T) { ... } // method test
func BenchmarkAdd(b *testing.B) { ... } // benchmark
func ExampleAdd() { ... } // example
Table-Driven Tests
Table-driven tests are the idiomatic Go way to test multiple scenarios. Always name each test case.
func TestCalculatePrice(t *testing.T) {
tests := []struct {
name string
quantity int
unitPrice float64
expected float64
}{
{
name: "single item",
quantity: 1,
unitPrice: 10.0,
expected: 10.0,
},
{
name: "bulk discount - 100 items",
quantity: 100,
unitPrice: 10.0,
expected: 900.0, // 10% discount
},
{
name: "zero quantity",
quantity: 0,
unitPrice: 10.0,
expected: 0.0,
},
} for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := CalculatePrice(tt.quantity, tt.unitPrice)
if got != tt.expected {
t.Errorf("CalculatePrice(%d, %.2f) = %.2f, want %.2f",
tt.quantity, tt.unitPrice, got, tt.expected)
}
})
}
}
Unit Tests
Unit tests should be fast (< 1ms), isolated (no external dependencies), and deterministic.
Testing HTTP Handlers
Use httptest for handler tests with table-driven patterns. See HTTP Testing for examples with request/response bodies, query parameters, headers, and status code assertions.
Goroutine Leak Detection with goleak
Use go.uber.org/goleak to detect leaking goroutines, especially for concurrent code:
import (
"testing"
"go.uber.org/goleak"
)func TestMain(m *testing.M) {
goleak.VerifyTestMain(m)
}
To exclude specific goroutine stacks (for known leaks or library goroutines):
func TestMain(m *testing.M) {
goleak.VerifyTestMain(m,
goleak.IgnoreCurrent(),
)
}
Or per-test:
func TestWorkerPool(t *testing.T) {
defer goleak.VerifyNone(t)
// ... test code ...
}
testing/synctest for Deterministic Goroutine Testing
> Experimental: testing/synctest is not yet covered by Go's compatibility guarantee. Its API may change in future releases. For stable alternatives, use clockwork (see Mocking).
testing/synctest (Go 1.24+) provides deterministic time for concurrent code testing. Time advances only when all goroutines are blocked, making ordering predictable.
When to use synctest instead of real time:
import (
"testing"
"time"
"testing/synctest"
"github.com/stretchr/testify/assert"
)func TestChannelTimeout(t *testing.T) {
synctest.Run(func(t *testing.T) {
is := assert.New(t)
ch := make(chan int, 1)
go func() {
time.Sleep(50 * time.Millisecond)
ch <- 42
}()
select {
case v := <-ch:
is.Equal(42, v)
case <-time.After(100 * time.Millisecond):
t.Fatal("timeout occurred")
}
})
}
Key differences in synctest:
time.Sleep advances synthetic time instantly when the goroutine blockstime.After fires when synthetic time reaches the durationTest Timeouts
For tests that may hang, use a timeout helper that panics with caller location. See Helpers.
Benchmarks
→ See samber/cc-skills-golang@golang-benchmark skill for advanced benchmarking: b.Loop() (Go 1.24+), benchstat, profiling from benchmarks, and CI regression detection.
Write benchmarks to measure performance and detect regressions:
func BenchmarkStringConcatenation(b *testing.B) {
b.Run("plus-operator", func(b *testing.B) {
for i := 0; i < b.N; i++ {
result := "a" + "b" + "c"
_ = result
}
}) b.Run("strings.Builder", func(b *testing.B) {
for i := 0; i < b.N; i++ {
var builder strings.Builder
builder.WriteString("a")
builder.WriteString("b")
builder.WriteString("c")
_ = builder.String()
}
})
}
Benchmarks with different input sizes:
func BenchmarkFibonacci(b *testing.B) {
sizes := []int{10, 20, 30}
for _, size := range sizes {
b.Run(fmt.Sprintf("n=%d", size), func(b *testing.B) {
b.ReportAllocs()
for i := 0; i < b.N; i++ {
Fibonacci(size)
}
})
}
}
Parallel Tests
Use t.Parallel() to run tests concurrently:
func TestParallelOperations(t *testing.T) {
tests := []struct {
name string
data []byte
}{
{"small data", make([]byte, 1024)},
{"medium data", make([]byte, 1024*1024)},
} for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
t.Parallel()
is := assert.New(t)
result := Process(tt.data)
is.NotNil(result)
})
}
}
Fuzzing
Use fuzzing to find edge cases and bugs:
func FuzzReverse(f *testing.F) {
f.Add("hello")
f.Add("")
f.Add("a") f.Fuzz(func(t *testing.T, input string) {
reversed := Reverse(input)
doubleReversed := Reverse(reversed)
if input != doubleReversed {
t.Errorf("Reverse(Reverse(%q)) = %q, want %q", input, doubleReversed, input)
}
})
}
Examples as Documentation
Examples are executable documentation verified by go test:
func ExampleCalculatePrice() {
price := CalculatePrice(100, 10.0)
fmt.Printf("Price: %.2f\n", price)
// Output: Price: 900.00
}func ExampleCalculatePrice_singleItem() {
price := CalculatePrice(1, 25.50)
fmt.Printf("Price: %.2f\n", price)
// Output: Price: 25.50
}
Code Coverage
# Generate coverage file
go test -coverprofile=coverage.out ./...View coverage in HTML
go tool cover -html=coverage.outCoverage by function
go tool cover -func=coverage.outTotal coverage percentage
go tool cover -func=coverage.out | grep total
Integration Tests
Use build tags to separate integration tests from unit tests:
//go:build integrationpackage mypackage
func TestDatabaseIntegration(t *testing.T) {
db, err := sql.Open("postgres", os.Getenv("DATABASE_URL"))
if err != nil {
t.Fatal(err)
}
defer db.Close()
// Test real database operations
}
Run integration tests separately:
go test -tags=integration ./...
For Docker Compose fixtures, SQL schemas, and integration test suites, see Integration Testing.
Mocking
Mock interfaces, not concrete types. Define interfaces where consumed, then create mock implementations.
For mock patterns, test fixtures, and time mocking, see Mocking.
Enforce with Linters
Many test best practices are enforced automatically by linters: thelper, paralleltest, testifylint. See the samber/cc-skills-golang@golang-lint skill for configuration and usage.
Cross-References
samber/cc-skills-golang@golang-stretchr-testify skill for detailed testify API (assert, require, mock, suite)samber/cc-skills-golang@golang-database skill (testing.md) for database integration test patternssamber/cc-skills-golang@golang-concurrency skill for goroutine leak detection with goleaksamber/cc-skills-golang@golang-continuous-integration skill for CI test configuration and GitHub Actions workflowssamber/cc-skills-golang@golang-lint skill for testifylint and paralleltest configurationsamber/cc-skills-golang@golang-continuous-integration skill for automated AI-driven code review in CI using these guidelinesQuick Reference
go test ./... # all tests
go test -run TestName ./... # specific test by exact name
go test -run TestName/subtest ./... # subtests within a test
go test -run 'Test(Add|Sub)' ./... # multiple tests (regexp OR)
go test -run 'Test[A-Z]' ./... # tests starting with capital letter
go test -run 'TestUser.*' ./... # tests matching prefix
go test -run '.*Validation.*' ./... # tests containing substring
go test -run TestName/. ./... # all subtests of TestName
go test -run '/(unit|integration)' ./... # filter by subtest name
go test -race ./... # race detection
go test -cover ./... # coverage summary
go test -bench=. -benchmem ./... # benchmarks
go test -fuzz=FuzzName ./... # fuzzing
go test -tags=integration ./... # integration tests