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d8a173d9f045a4bb25c314b103531b92800f3a9a
gf/net/ghttp/ghttp_server_admin_process.go
Lance Add d8a173d9f0 feat(instance): migrate instance containers to type-safe generics (#4617) 
### 变更说明

本次重构将项目中用于**实例管理的容器**从 `StrAnyMap`/`IntAnyMap` 迁移到类型安全的泛型实现
`KVMapWithChecker`,同时将相关的 `glist.List` 和 `gqueue.Queue`
替换为对应的泛型版本,以提高实例管理的类型安全性。并且减少原先代码中的大量类型断言,提高性能。

### 前因

目前`goframe`中大量使用了包含`any`的容器,然后通过断言去转换类型,麻烦且影响性能,尤其是对`gdb/gredis/glog`等需要高频获取`instance`实例的组件影响较大。最近几个版本中gf完成了数据结构容器的泛型化改造,以及我最近解决了其中几个泛型容器对于`typed
nil`过滤的问题,所以可以逐步迁移这些实例容器到泛型容器,减少断言优化性能

### 主要改进

#### 1. 实例容器泛型化

以下模块的实例管理容器已迁移到泛型实现:

**核心实例管理**:
- `database/gdb`: 数据库实例容器 → `KVMap[string, DB]`
- `database/gredis`: Redis 实例容器 → `KVMap[string, *Redis]`
- `database/gredis`: Redis 配置容器 → `KVMap[string, *Config]`
- `os/gcfg`: 配置实例容器 → `KVMap[string, *Config]`
- `os/glog`: 日志实例容器 → `KVMap[string, *Logger]`
- `os/gview`: 视图实例容器 → `KVMap[string, *View]`
- `i18n/gi18n`: 国际化实例容器 → `KVMap[string, *Manager]`

**网络服务实例**:
- `net/ghttp`: HTTP 服务器容器 → `KVMap[string, *Server]`
- `net/gtcp`: TCP 服务器容器 → `KVMap[any, *Server]`
- `net/gudp`: UDP 服务器容器 → `KVMap[string, *Server]`

**其他实例容器**:
- `os/gres`: 资源实例容器 → `KVMap[string, *Resource]`
- `os/gfpool`: 文件池容器 → `KVMap[string, *Pool]`
- `os/gspath`: 路径搜索容器 → `KVMap[string, *SPath]`
- `net/gtcp`: 连接池容器 → `KVMap[string, *gpool.Pool]`

#### 2. 相关数据结构泛型化

- `os/gfsnotify`: 回调列表 → `TList[*Callback]`,事件队列 → `TQueue[*Event]`
- `os/grpool`: 任务队列 → `TList[*localPoolItem]`
- `os/gcache`: 事件队列 → `TList[*adapterMemoryEvent]`
- `net/ghttp`: 解析项列表 → `TList[*HandlerItemParsed]`
- `os/gproc`: 消息队列 → `TQueue[*MsgRequest]`
- `os/gmlock`: 锁映射 → `KVMap[string, *sync.RWMutex]`

### 技术实现

1. **引入检查器函数**: 为每个实例容器添加 `checker` 函数用于空值检测
2. **消除类型断言**: 实例获取时无需 `v.(*Type)` 转换
3. **明确函数签名**: `GetOrSetFuncLock` 的回调从 `func() any` 改为 `func() T`

### 使用示例

#### 实例容器的变更

**变更前**:
```go
// 旧的实例管理方式
var instances = gmap.NewStrAnyMap(true)

func Instance(name string) *Logger {
    v := instances.GetOrSetFuncLock(name, func() any {
        return New()
    })
    return v.(*Logger)  // 需要类型断言
}
```


**变更后**:
```go
// 新的泛型实例容器
var (
    checker   = func(v *Logger) bool { return v == nil }
    instances = gmap.NewKVMapWithChecker[string, *Logger](checker, true)
)

func Instance(name string) *Logger {
    return instances.GetOrSetFuncLock(name, New)  // 直接返回,无需断言
}
```


#### 队列容器的变更

**变更前**:
```go
// 旧的队列方式
events := gqueue.New()
events.Push(&Event{Path: "/tmp/file"})

if v := events.Pop(); v != nil {
    event := v.(*Event)  // 需要类型断言
    handleEvent(event)
}
```


**变更后**:
```go
// 新的泛型队列
events := gqueue.NewTQueue[*Event]()
events.Push(&Event{Path: "/tmp/file"})

if event := events.Pop(); event != nil {
    handleEvent(event)  // event 已是 *Event 类型
}
```


### 收益

-  **编译时类型安全**: 实例容器的类型错误在编译期捕获
-  **消除运行时断言**: 避免类型断言带来的 panic 风险
-  **提升代码可读性**: 实例管理逻辑更清晰
-  **改善开发体验**: IDE 类型提示和代码补全更准确

### 性能权衡

**编译时**:
- 泛型实例化会增加编译时间和二进制体积
- 预估编译时间增加 5-15%,二进制体积增加约 1-2MB

**运行时**:
- 减少类型断言的反射开销
- 提升实例获取等热点路径的性能
2026-01-16 15:23:13 +08:00

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// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with this file,
// You can obtain one at https://github.com/gogf/gf.
package ghttp
import (
"bytes"
"context"
"fmt"
"os"
"runtime"
"strings"
"sync"
"time"
"github.com/gogf/gf/v2/container/gtype"
"github.com/gogf/gf/v2/encoding/gjson"
"github.com/gogf/gf/v2/errors/gcode"
"github.com/gogf/gf/v2/errors/gerror"
"github.com/gogf/gf/v2/internal/intlog"
"github.com/gogf/gf/v2/os/gfile"
"github.com/gogf/gf/v2/os/glog"
"github.com/gogf/gf/v2/os/gproc"
"github.com/gogf/gf/v2/os/gtime"
"github.com/gogf/gf/v2/os/gtimer"
"github.com/gogf/gf/v2/text/gstr"
"github.com/gogf/gf/v2/util/gconv"
)
const (
// Allow executing management command after server starts after this interval in milliseconds.
adminActionIntervalLimit = 2000
adminActionNone = 0
adminActionRestarting = 1
adminActionShuttingDown = 2
adminActionReloadEnvKey = "GF_SERVER_RELOAD"
adminActionRestartEnvKey = "GF_SERVER_RESTART"
adminGProcCommGroup = "GF_GPROC_HTTP_SERVER"
)
var (
// serverActionLocker is the locker for server administration operations.
serverActionLocker sync.Mutex
// serverActionLastTime is timestamp in milliseconds of last administration operation.
serverActionLastTime = gtype.NewInt64(gtime.TimestampMilli())
// serverProcessStatus is the server status for operation of current process.
serverProcessStatus = gtype.NewInt()
)
// RestartAllServer restarts all the servers of the process gracefully.
// The optional parameter `newExeFilePath` specifies the new binary file for creating process.
func RestartAllServer(ctx context.Context, newExeFilePath string) error {
if !gracefulEnabled {
return gerror.NewCode(
gcode.CodeInvalidOperation,
"graceful reload feature is disabled",
)
}
serverActionLocker.Lock()
defer serverActionLocker.Unlock()
if err := checkProcessStatus(); err != nil {
return err
}
if err := checkActionFrequency(); err != nil {
return err
}
return restartWebServers(ctx, nil, newExeFilePath)
}
// ShutdownAllServer shuts down all servers of current process gracefully.
func ShutdownAllServer(ctx context.Context) error {
serverActionLocker.Lock()
defer serverActionLocker.Unlock()
if err := checkProcessStatus(); err != nil {
return err
}
if err := checkActionFrequency(); err != nil {
return err
}
shutdownWebServersGracefully(ctx, nil)
return nil
}
// checkProcessStatus checks the server status of current process.
func checkProcessStatus() error {
status := serverProcessStatus.Val()
if status > 0 {
switch status {
case adminActionRestarting:
return gerror.NewCode(gcode.CodeInvalidOperation, "server is restarting")
case adminActionShuttingDown:
return gerror.NewCode(gcode.CodeInvalidOperation, "server is shutting down")
}
}
return nil
}
// checkActionFrequency checks the operation frequency.
// It returns error if it is too frequency.
func checkActionFrequency() error {
interval := gtime.TimestampMilli() - serverActionLastTime.Val()
if interval < adminActionIntervalLimit {
return gerror.NewCodef(
gcode.CodeInvalidOperation,
"too frequent action, please retry in %d ms",
adminActionIntervalLimit-interval,
)
}
serverActionLastTime.Set(gtime.TimestampMilli())
return nil
}
// forkReloadProcess creates a new child process and copies the fd to child process.
func forkReloadProcess(ctx context.Context, newExeFilePath ...string) error {
var (
binaryPath = os.Args[0]
)
if len(newExeFilePath) > 0 && newExeFilePath[0] != "" {
binaryPath = newExeFilePath[0]
}
if !gfile.Exists(binaryPath) {
return gerror.Newf(`binary file path "%s" does not exist`, binaryPath)
}
var (
p = gproc.NewProcess(binaryPath, os.Args[1:], os.Environ())
sfm = getServerFdMap()
)
for name, m := range sfm {
for fdk, fdv := range m {
if len(fdv) > 0 {
s := ""
for _, item := range gstr.SplitAndTrim(fdv, ",") {
array := strings.Split(item, "#")
fd := uintptr(gconv.Uint(array[1]))
if fd > 0 {
s += fmt.Sprintf("%s#%d,", array[0], 3+len(p.ExtraFiles))
p.ExtraFiles = append(p.ExtraFiles, os.NewFile(fd, ""))
} else {
s += fmt.Sprintf("%s#%d,", array[0], 0)
}
}
sfm[name][fdk] = strings.TrimRight(s, ",")
}
}
}
buffer, _ := gjson.Encode(sfm)
p.Env = append(p.Env, adminActionReloadEnvKey+"="+string(buffer))
if _, err := p.Start(ctx); err != nil {
intlog.Errorf(
ctx,
"%d: fork process failed, error: %s, %s",
gproc.Pid(), err.Error(), string(buffer),
)
return err
}
return nil
}
// forkRestartProcess creates a new server process.
func forkRestartProcess(ctx context.Context, newExeFilePath ...string) error {
var (
path = os.Args[0]
)
if len(newExeFilePath) > 0 && newExeFilePath[0] != "" {
path = newExeFilePath[0]
}
if err := os.Unsetenv(adminActionReloadEnvKey); err != nil {
intlog.Errorf(ctx, `%+v`, err)
}
env := os.Environ()
env = append(env, adminActionRestartEnvKey+"=1")
p := gproc.NewProcess(path, os.Args[1:], env)
if _, err := p.Start(ctx); err != nil {
glog.Errorf(
ctx,
`%d: fork process failed, error:%s, are you running using "go run"?`,
gproc.Pid(), err.Error(),
)
return err
}
return nil
}
// getServerFdMap returns all the servers name to file descriptor mapping as map.
func getServerFdMap() map[string]listenerFdMap {
sfm := make(map[string]listenerFdMap)
serverMapping.RLockFunc(func(m map[string]*Server) {
for k, v := range m {
sfm[k] = v.getListenerFdMap()
}
})
return sfm
}
// bufferToServerFdMap converts binary content to fd map.
func bufferToServerFdMap(buffer []byte) map[string]listenerFdMap {
sfm := make(map[string]listenerFdMap)
if len(buffer) > 0 {
j, _ := gjson.LoadContent(buffer)
for k := range j.Var().Map() {
m := make(map[string]string)
for mapKey, mapValue := range j.Get(k).MapStrStr() {
m[mapKey] = mapValue
}
sfm[k] = m
}
}
return sfm
}
// restartWebServers restarts all servers.
func restartWebServers(ctx context.Context, signal os.Signal, newExeFilePath string) error {
serverProcessStatus.Set(adminActionRestarting)
if runtime.GOOS == "windows" {
if signal != nil {
// Controlled by signal.
forceCloseWebServers(ctx)
if err := forkRestartProcess(ctx, newExeFilePath); err != nil {
intlog.Errorf(ctx, `%+v`, err)
}
return nil
}
// Controlled by web page.
// It should ensure the response wrote to client and then close all servers gracefully.
gtimer.SetTimeout(ctx, time.Second, func(ctx context.Context) {
forceCloseWebServers(ctx)
if err := forkRestartProcess(ctx, newExeFilePath); err != nil {
intlog.Errorf(ctx, `%+v`, err)
}
})
return nil
}
if err := forkReloadProcess(ctx, newExeFilePath); err != nil {
glog.Printf(ctx, "%d: server restarts failed", gproc.Pid())
serverProcessStatus.Set(adminActionNone)
return err
} else {
if signal != nil {
glog.Printf(ctx, "%d: server restarting by signal: %s", gproc.Pid(), signal)
} else {
glog.Printf(ctx, "%d: server restarting by web admin", gproc.Pid())
}
}
return nil
}
// shutdownWebServersGracefully gracefully shuts down all servers.
func shutdownWebServersGracefully(ctx context.Context, signal os.Signal) {
serverProcessStatus.Set(adminActionShuttingDown)
if signal != nil {
glog.Printf(
ctx,
"%d: server gracefully shutting down by signal: %s",
gproc.Pid(), signal.String(),
)
} else {
glog.Printf(ctx, "pid[%d]: server gracefully shutting down by api", gproc.Pid())
}
serverMapping.RLockFunc(func(m map[string]*Server) {
for _, v := range m {
v.doServiceDeregister()
for _, s := range v.servers {
s.Shutdown(ctx)
}
}
})
}
// forceCloseWebServers forced shuts down all servers.
func forceCloseWebServers(ctx context.Context) {
serverMapping.RLockFunc(func(m map[string]*Server) {
for _, v := range m {
for _, s := range v.servers {
s.Close(ctx)
}
}
})
}
// handleProcessMessage receives and handles the message from processes,
// which are commonly used for graceful reloading feature.
func handleProcessMessage() {
var (
ctx = context.TODO()
)
for {
if msg := gproc.Receive(adminGProcCommGroup); msg != nil {
if bytes.EqualFold(msg.Data, []byte("exit")) {
intlog.Printf(ctx, "%d: process message: exit", gproc.Pid())
shutdownWebServersGracefully(ctx, nil)
allShutdownChan <- struct{}{}
intlog.Printf(ctx, "%d: process message: exit done", gproc.Pid())
return
}
}
}
}
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