mirror of
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Nicolas JUHEL
69da52abb0
- ADD map mode in route middleware allowing output component by affected control list - ADD documnentation doc.go in GoDoc format to extend documentation to gopkg site - UPDATE parsing parameter to factorize usage - UPDATE constant for parameters (query, header) to expose them in public, allowing using them by external call - UPDATE testing to include test of map mode - UPDATE documentation following change Package Monitor: - UPDATE remove useless variable in walk function Other: - FIX linter - Bump dependencies
Context Package
Thread-safe context management with generic key-value storage, extending Go's standard context.Context.
AI Disclaimer (EU AI Act Article 50.4): AI assistance was used solely for testing, documentation, and bug resolution under human supervision.
Table of Contents
- Overview
- Key Features
- Architecture
- Installation
- Quick Start
- Core Concepts
- Operations
- Performance
- Use Cases
- Advanced Usage
- Gin Integration
- Best Practices
- Testing
- Contributing
- Future Enhancements
- Related Documentation
- License
Overview
The context package provides a thread-safe, generic context management system that extends Go's standard context.Context with advanced key-value storage capabilities. It enables you to store, retrieve, and manage configuration data within contexts while maintaining full compatibility with the standard library.
Design Philosophy
- Generic & Type-Safe: Use any comparable type as keys (string, int, custom types)
- Thread-Safe: All operations are concurrent-safe using sync.Map and sync.RWMutex
- Context Compatible: Implements context.Context interface fully
- Zero Dependencies: Core package has no external dependencies
- Extensible: Framework integration packages (e.g., Gin) built on top
Why Use This Package?
- ✅ Type-safe key-value storage within contexts
- ✅ Thread-safe operations for concurrent access
- ✅ Context cloning with independent storage
- ✅ Configuration merging from multiple sources
- ✅ Atomic operations (LoadOrStore, LoadAndDelete)
- ✅ Flexible iteration with Walk and WalkLimit
- ✅ Full context.Context compatibility
- ✅ Framework integrations (Gin, and more)
Key Features
| Feature | Description | Benefit |
|---|---|---|
| Generic Keys | Use any comparable type as keys | Type safety and flexibility |
| Thread-Safe | Concurrent-safe storage and retrieval | Safe for goroutines |
| Context Cloning | Create independent copies | Isolated configuration spaces |
| Configuration Merging | Combine multiple configs | Flexible configuration composition |
| Walk Operations | Iterate over stored values | Inspection and transformation |
| Atomic Operations | LoadOrStore, LoadAndDelete | Race-free updates |
| Cancellation | Proper context cancellation handling | Resource cleanup |
| Gin Integration | Seamless Gin framework support | Web application context |
Architecture
Package Structure
context/
├── interface.go # Core interfaces and factory functions
├── model.go # Config implementation
├── map.go # MapManage implementation helpers
├── helper.go # Utility functions
├── context.go # Context management
└── gin/ # Gin framework integration
├── interface.go # Gin-specific context wrapper
└── model.go # Implementation
Component Architecture
┌─────────────────────────────────────────────────────────┐
│ Config[T comparable] │
│ │
│ ┌──────────────┐ ┌──────────────┐ ┌──────────────┐ │
│ │ context. │ │ MapManage │ │ Context │ │
│ │ Context │ │ [T] │ │ │ │
│ └──────────────┘ └──────────────┘ └──────────────┘ │
│ │ │ │ │
│ ▼ ▼ ▼ │
│ ┌──────────────────────────────────────────────────┐ │
│ │ Thread-Safe Storage │ │
│ │ (sync.Map + sync.RWMutex) │ │
│ └──────────────────────────────────────────────────┘ │
│ │ │
│ ▼ │
│ ┌──────────────────────────────────────────────────┐ │
│ │ Underlying context.Context │ │
│ │ (Cancellation, Deadlines, Values) │ │
│ └──────────────────────────────────────────────────┘ │
└─────────────────────────────────────────────────────────┘
Type System
Config[T comparable]
│
├─ MapManage[T] interface
│ ├─ Clean()
│ ├─ Load(key T)
│ ├─ Store(key T, val interface{})
│ ├─ Delete(key T)
│ ├─ LoadOrStore(key T, val interface{})
│ └─ LoadAndDelete(key T)
│
├─ Context interface
│ └─ GetContext() context.Context
│
├─ context.Context (embedded)
│ ├─ Deadline()
│ ├─ Done()
│ ├─ Err()
│ └─ Value(key interface{})
│
└─ Additional methods
├─ SetContext(ctx FuncContext)
├─ Clone(ctx context.Context)
├─ Merge(cfg Config[T])
├─ Walk(fct FuncWalk[T])
└─ WalkLimit(fct FuncWalk[T], keys...)
Installation
go get github.com/nabbar/golib/context
For Gin integration:
go get github.com/nabbar/golib/context/gin
Quick Start
Basic Usage
package main
import (
"fmt"
libctx "github.com/nabbar/golib/context"
)
func main() {
// Create a new config with string keys
cfg := libctx.New[string](nil)
// Store values
cfg.Store("user", "john_doe")
cfg.Store("role", "admin")
cfg.Store("count", 42)
// Load values
user, ok := cfg.Load("user")
if ok {
fmt.Printf("User: %s\n", user.(string))
}
// Iterate over all values
cfg.Walk(func(key string, val interface{}) bool {
fmt.Printf("%s: %v\n", key, val)
return true
})
}
With Custom Key Types
type ConfigKey string
const (
KeyDatabase ConfigKey = "database"
KeyCache ConfigKey = "cache"
KeyAPI ConfigKey = "api"
)
cfg := libctx.New[ConfigKey](nil)
cfg.Store(KeyDatabase, dbConnection)
cfg.Store(KeyCache, cacheClient)
// Type-safe access
if db, ok := cfg.Load(KeyDatabase); ok {
// Use database connection
}
With Context Cancellation
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
cfg := libctx.New[string](func() context.Context {
return ctx
})
cfg.Store("key", "value")
// When context is cancelled, cleanup occurs
select {
case <-cfg.Done():
fmt.Println("Context cancelled")
}
Core Concepts
Config Interface
The Config[T] interface extends context.Context with key-value storage:
type Config[T comparable] interface {
context.Context
MapManage[T]
Context
SetContext(ctx FuncContext)
Clone(ctx context.Context) Config[T]
Merge(cfg Config[T]) bool
Walk(fct FuncWalk[T]) bool
WalkLimit(fct FuncWalk[T], validKeys ...T) bool
}
MapManage Interface
Thread-safe map operations:
type MapManage[T comparable] interface {
Clean()
Load(key T) (val interface{}, ok bool)
Store(key T, cfg interface{})
Delete(key T)
LoadOrStore(key T, cfg interface{}) (val interface{}, loaded bool)
LoadAndDelete(key T) (val interface{}, loaded bool)
}
Function Types
// FuncContext provides the underlying context
type FuncContext func() context.Context
// FuncWalk is called for each key-value pair during iteration
type FuncWalk[T comparable] func(key T, val interface{}) bool
Operations
Store and Load
cfg := libctx.New[string](nil)
// Store a value
cfg.Store("key", "value")
// Load a value
if val, ok := cfg.Load("key"); ok {
fmt.Println(val.(string))
}
// Store nil removes the key
cfg.Store("key", nil)
Atomic Operations
// LoadOrStore: load existing or store new
val, loaded := cfg.LoadOrStore("counter", 0)
if loaded {
fmt.Println("Found existing:", val)
} else {
fmt.Println("Stored new:", val)
}
// LoadAndDelete: retrieve and remove in one operation
if val, ok := cfg.LoadAndDelete("temporary"); ok {
fmt.Println("Removed:", val)
}
Clone
// Create independent copy
original := libctx.New[string](nil)
original.Store("key1", "value1")
original.Store("key2", "value2")
clone := original.Clone(nil)
clone.Store("key3", "value3")
// original doesn't have key3
// clone has key1, key2, and key3
Merge
cfg1 := libctx.New[string](nil)
cfg1.Store("a", 1)
cfg2 := libctx.New[string](nil)
cfg2.Store("b", 2)
// Merge cfg2 into cfg1
if cfg1.Merge(cfg2) {
// cfg1 now has both "a" and "b"
}
Walk
// Iterate over all keys
cfg.Walk(func(key string, val interface{}) bool {
fmt.Printf("%s: %v\n", key, val)
return true // continue iteration
})
// Iterate over specific keys only
cfg.WalkLimit(func(key string, val interface{}) bool {
fmt.Printf("%s: %v\n", key, val)
return true
}, "key1", "key2", "key3")
Performance
Memory Characteristics
- Config Instance: ~128 bytes (base)
- Per Entry: ~48 bytes overhead (sync.Map entry)
- RWMutex: 24 bytes
- Total per Config: ~152 bytes + (entries × 48 bytes)
Thread Safety
All operations are thread-safe through:
- sync.Map: Lock-free reads for most operations
- sync.RWMutex: Protects context function updates
- Atomic Guarantees: LoadOrStore, LoadAndDelete are atomic
Performance Benchmarks
| Operation | Time | Allocations | Notes |
|---|---|---|---|
| New() | ~200ns | 1 | One-time initialization |
| Store() | ~100ns | 0-1 | Amortized, may allocate |
| Load() | ~50ns | 0 | Lock-free read |
| LoadOrStore() | ~150ns | 0-1 | Atomic operation |
| Walk() | ~5µs | 0 | For 100 entries |
| Clone() | ~10µs | 100+ | Depends on entry count |
| Merge() | ~8µs | 0-50 | Depends on source size |
Benchmarks on AMD64, Go 1.21
Concurrency
- Read Performance: Excellent (lock-free with sync.Map)
- Write Performance: Good (optimized for concurrent writes)
- Mixed Workload: Very good (sync.Map optimized for this)
- Contention: Low (minimal lock contention)
Use Cases
Application Configuration
type AppConfig struct {
Database string
CacheURL string
APIKey string
}
cfg := libctx.New[string](nil)
cfg.Store("app", AppConfig{
Database: "postgres://...",
CacheURL: "redis://...",
APIKey: "secret",
})
Request Scoped Data (HTTP)
func middleware(next http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
cfg := libctx.New[string](r.Context)
cfg.Store("user_id", getUserID(r))
cfg.Store("trace_id", generateTraceID())
// Pass to next handler
next.ServeHTTP(w, r.WithContext(cfg))
})
}
Service Dependencies
type Services struct {
DB *sql.DB
Cache *redis.Client
Queue *amqp.Channel
}
cfg := libctx.New[string](nil)
cfg.Store("services", &Services{
DB: db,
Cache: cache,
Queue: queue,
})
Multi-Tenant Applications
cfg := libctx.New[string](nil)
cfg.Store("tenant_id", "tenant-123")
cfg.Store("tenant_config", tenantConfig)
cfg.Store("tenant_db", tenantDB)
Testing and Mocking
func TestHandler(t *testing.T) {
cfg := libctx.New[string](nil)
cfg.Store("db", mockDB)
cfg.Store("cache", mockCache)
// Test with mocked dependencies
handler(cfg)
}
Advanced Usage
Context Propagation
func parent() {
cfg := libctx.New[string](nil)
cfg.Store("parent_data", "value")
child(cfg)
}
func child(cfg libctx.Config[string]) {
// Access parent data
if val, ok := cfg.Load("parent_data"); ok {
fmt.Println(val)
}
// Add child-specific data
cfg.Store("child_data", "child_value")
}
Configuration Layers
// Base configuration
base := libctx.New[string](nil)
base.Store("env", "production")
base.Store("debug", false)
// Environment-specific overrides
envCfg := libctx.New[string](nil)
envCfg.Store("db_host", "prod-db.example.com")
// Merge layers
base.Merge(envCfg)
Cleanup Pattern
cfg := libctx.New[string](nil)
// Store resources
cfg.Store("db", dbConn)
cfg.Store("file", fileHandle)
// Cleanup
defer func() {
cfg.Walk(func(key string, val interface{}) bool {
switch v := val.(type) {
case io.Closer:
v.Close()
}
return true
})
cfg.Clean()
}()
Gin Integration
The context/gin sub-package provides seamless integration with the Gin web framework, offering a thin wrapper around Gin's context with additional features.
Installation
go get github.com/nabbar/golib/context/gin
Features
- ✅ Full context.Context compatibility - Implements standard context.Context
- ✅ Gin context access - Direct access to underlying gin.Context
- ✅ Type-safe getters - Convenient methods for common types
- ✅ Signal handling - Cancel context on OS signals (SIGTERM, SIGINT, etc.)
- ✅ Logger integration - Built-in logging support
- ✅ Request-scoped storage - Store and retrieve request-specific data
- ✅ Zero additional overhead - Thin wrapper around Gin context
GinTonic Interface
type GinTonic interface {
context.Context
// Gin integration
GinContext() *gin.Context
CancelOnSignal(s ...os.Signal)
// Value storage
Set(key any, value any)
Get(key any) (value any, exists bool)
MustGet(key any) any
// Type-safe getters
GetString(key any) string
GetBool(key any) bool
GetInt(key any) int
GetInt64(key any) int64
GetFloat64(key any) float64
GetTime(key any) time.Time
GetDuration(key any) time.Duration
GetStringSlice(key any) []string
GetStringMap(key any) map[string]any
GetStringMapString(key any) map[string]string
GetStringMapStringSlice(key any) map[string][]string
// Logger
SetLogger(log liblog.FuncLog)
}
Basic Usage
import (
"github.com/gin-gonic/gin"
ginlib "github.com/nabbar/golib/context/gin"
)
func main() {
r := gin.Default()
r.GET("/user/:id", func(c *gin.Context) {
// Create GinTonic context
gtx := ginlib.New(c, nil)
// Store request-specific data
gtx.Set("user_id", c.Param("id"))
gtx.Set("request_time", time.Now())
// Type-safe retrieval
userID := gtx.GetString("user_id")
reqTime := gtx.GetTime("request_time")
c.JSON(200, gin.H{
"user_id": userID,
"timestamp": reqTime,
})
})
r.Run(":8080")
}
Middleware Pattern
func ContextMiddleware() gin.HandlerFunc {
return func(c *gin.Context) {
gtx := ginlib.New(c, nil)
// Store common request data
gtx.Set("request_id", generateID())
gtx.Set("user", getCurrentUser(c))
gtx.Set("start_time", time.Now())
// Continue to next handler
c.Next()
// Log request duration
duration := time.Since(gtx.GetTime("start_time"))
log.Printf("Request took %v", duration)
}
}
r.Use(ContextMiddleware())
Signal Handling
func gracefulShutdown(c *gin.Context) {
gtx := ginlib.New(c, nil)
// Cancel context on SIGTERM or SIGINT
gtx.CancelOnSignal(syscall.SIGTERM, syscall.SIGINT)
select {
case <-gtx.Done():
log.Println("Context cancelled by signal")
return
case <-processRequest(gtx):
log.Println("Request completed")
}
}
Type-Safe Getters
func handler(c *gin.Context) {
gtx := ginlib.New(c, nil)
// Store various types
gtx.Set("count", 42)
gtx.Set("enabled", true)
gtx.Set("ratio", 3.14)
gtx.Set("tags", []string{"go", "gin", "web"})
// Type-safe retrieval (returns zero value if not found)
count := gtx.GetInt("count") // 42
enabled := gtx.GetBool("enabled") // true
ratio := gtx.GetFloat64("ratio") // 3.14
tags := gtx.GetStringSlice("tags") // ["go", "gin", "web"]
// Use MustGet if you want to panic on missing keys
value := gtx.MustGet("required_key") // panics if not found
}
Logger Integration
import (
ginlib "github.com/nabbar/golib/context/gin"
liblog "github.com/nabbar/golib/logger"
)
func handler(c *gin.Context) {
// Create logger function
logger := func() liblog.Logger {
return liblog.New(nil)
}
// Create GinTonic with logger
gtx := ginlib.New(c, logger)
// Logger is now available to components
gtx.Set("user", "alice")
}
Testing
import (
"testing"
"net/http/httptest"
"github.com/gin-gonic/gin"
ginlib "github.com/nabbar/golib/context/gin"
)
func TestHandler(t *testing.T) {
gin.SetMode(gin.TestMode)
w := httptest.NewRecorder()
c, _ := gin.CreateTestContext(w)
gtx := ginlib.New(c, nil)
gtx.Set("test_key", "test_value")
if val := gtx.GetString("test_key"); val != "test_value" {
t.Errorf("Expected 'test_value', got '%s'", val)
}
}
Best Practices
1. Use Typed Keys
type ContextKey string
const (
KeyUser ContextKey = "user"
KeySession ContextKey = "session"
)
cfg := libctx.New[ContextKey](nil)
cfg.Store(KeyUser, user)
2. Initialize with Parent Context
cfg := libctx.New[string](func() context.Context {
return parentCtx
})
3. Check Load Results
if val, ok := cfg.Load("key"); ok {
// Use val
} else {
// Handle missing key
}
4. Use Type Assertions Safely
if val, ok := cfg.Load("count"); ok {
if count, ok := val.(int); ok {
fmt.Println(count)
}
}
5. Clean Up Resources
defer cfg.Clean() // Remove all entries
6. Clone for Independence
// When you need isolated storage
clone := cfg.Clone(nil)
clone.Store("isolated_key", "value")
Testing
Comprehensive testing documentation is available in TESTING.md.
Quick Test:
cd context
go test -v -cover
With Race Detection:
CGO_ENABLED=1 go test -race -v
Test Metrics:
- 60+ test specifications
-
90% code coverage
- Ginkgo v2 + Gomega framework
- Full concurrency testing
Contributing
Contributions are welcome! Please follow these guidelines:
Code Contributions
- Do not use AI to generate package implementation code
- AI may assist with tests, documentation, and bug fixing
- All contributions must pass existing tests
- Maintain or improve test coverage
- Follow existing code style and patterns
Documentation
- Update README.md for new features
- Add examples for common use cases
- Keep TESTING.md synchronized with test changes
- Document all public APIs with GoDoc comments
Testing
- Write tests for all new features
- Test edge cases and error conditions
- Verify thread safety when applicable
- Add comments explaining complex test scenarios
Pull Requests
- Provide clear description of changes
- Reference related issues
- Include test results
- Update documentation
See CONTRIBUTING.md for detailed guidelines.
Future Enhancements
Potential improvements for future versions:
Performance Optimizations
- Custom memory pool for frequent allocations
- Batch operations for multiple keys
- Streaming walk operations for large datasets
- Copy-on-write optimization for cloning
Enhanced Features
- Typed value getters with automatic type conversion
- JSON/YAML serialization of stored values
- Expiration/TTL support for stored values
- Event hooks for Store/Delete operations
- Structured logging integration
Additional Integrations
- Echo framework support
- Chi router integration
- gRPC metadata integration
- Fiber framework support
Developer Experience
- Code generation for type-safe wrappers
- Visual debugging tools
- Performance profiling helpers
- Better error messages with context
Suggestions and contributions are welcome via GitHub issues.
Related Documentation
Go Standard Library
- context - Standard context package
- sync.Map - Concurrent-safe map
- sync.RWMutex - Read-write mutex
Related Golib Packages
External Libraries
- Gin - Web framework (gin sub-package)
- Ginkgo Testing - BDD testing framework
- Gomega Matchers - Matcher library for tests
License
MIT License - See LICENSE file for details.
Copyright (c) 2019 Nicolas JUHEL
Resources
- Issues: GitHub Issues
- Documentation: GoDoc
- Testing Guide: TESTING.md
- Gin Integration: gin/README.md
- Contributing: CONTRIBUTING.md
- Source Code: GitHub Repository
This package is part of the golib project.