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trpc_util.go
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trpc_util.go
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//
//
// Tencent is pleased to support the open source community by making tRPC available.
//
// Copyright (C) 2023 THL A29 Limited, a Tencent company.
// All rights reserved.
//
// If you have downloaded a copy of the tRPC source code from Tencent,
// please note that tRPC source code is licensed under the Apache 2.0 License,
// A copy of the Apache 2.0 License is included in this file.
//
//
package trpc
import (
"context"
"net"
"runtime"
"sync"
"time"
"github.com/panjf2000/ants/v2"
trpcpb "trpc.group/trpc/trpc-protocol/pb/go/trpc"
"trpc.group/trpc-go/trpc-go/codec"
"trpc.group/trpc-go/trpc-go/errs"
"trpc.group/trpc-go/trpc-go/internal/report"
"trpc.group/trpc-go/trpc-go/log"
)
// PanicBufLen is len of buffer used for stack trace logging
// when the goroutine panics, 1024 by default.
var PanicBufLen = 1024
// ----------------------- trpc util functions ------------------------------------ //
// Message returns msg from ctx.
func Message(ctx context.Context) codec.Msg {
return codec.Message(ctx)
}
// BackgroundContext puts an initialized msg into background context and returns it.
func BackgroundContext() context.Context {
cfg := GlobalConfig()
ctx, msg := codec.WithNewMessage(context.Background())
msg.WithCalleeContainerName(cfg.Global.ContainerName)
msg.WithNamespace(cfg.Global.Namespace)
msg.WithEnvName(cfg.Global.EnvName)
if cfg.Global.EnableSet == "Y" {
msg.WithSetName(cfg.Global.FullSetName)
}
if len(cfg.Server.Service) > 0 {
msg.WithCalleeServiceName(cfg.Server.Service[0].Name)
} else {
msg.WithCalleeApp(cfg.Server.App)
msg.WithCalleeServer(cfg.Server.Server)
}
return ctx
}
// GetMetaData returns metadata from ctx by key.
func GetMetaData(ctx context.Context, key string) []byte {
msg := codec.Message(ctx)
if len(msg.ServerMetaData()) > 0 {
return msg.ServerMetaData()[key]
}
return nil
}
// SetMetaData sets metadata which will be returned to upstream.
// This method is not thread-safe.
// Notice: SetMetaData can only be called in the server side rpc entry goroutine,
// not in goroutine that calls the client.
func SetMetaData(ctx context.Context, key string, val []byte) {
msg := codec.Message(ctx)
if len(msg.ServerMetaData()) > 0 {
msg.ServerMetaData()[key] = val
return
}
md := make(map[string][]byte)
md[key] = val
msg.WithServerMetaData(md)
}
// Request returns RequestProtocol from ctx.
// If the RequestProtocol not found, a new RequestProtocol will be created and returned.
func Request(ctx context.Context) *trpcpb.RequestProtocol {
msg := codec.Message(ctx)
request, ok := msg.ServerReqHead().(*trpcpb.RequestProtocol)
if !ok {
return &trpcpb.RequestProtocol{}
}
return request
}
// Response returns ResponseProtocol from ctx.
// If the ResponseProtocol not found, a new ResponseProtocol will be created and returned.
func Response(ctx context.Context) *trpcpb.ResponseProtocol {
msg := codec.Message(ctx)
response, ok := msg.ServerRspHead().(*trpcpb.ResponseProtocol)
if !ok {
return &trpcpb.ResponseProtocol{}
}
return response
}
// CloneContext copies the context to get a context that retains the value and doesn't cancel.
// This is used when the handler is processed asynchronously to detach the original timeout control
// and retains the original context information.
//
// After the trpc handler function returns, ctx will be canceled, and put the ctx's Msg back into pool,
// and the associated Metrics and logger will be released.
//
// Before starting a goroutine to run the handler function asynchronously,
// this method must be called to copy context, detach the original timeout control,
// and retain the information in Msg for Metrics.
//
// Retain the logger context for printing the associated log,
// keep other value in context, such as tracing context, etc.
func CloneContext(ctx context.Context) context.Context {
oldMsg := codec.Message(ctx)
newCtx, newMsg := codec.WithNewMessage(detach(ctx))
codec.CopyMsg(newMsg, oldMsg)
return newCtx
}
type detachedContext struct{ parent context.Context }
func detach(ctx context.Context) context.Context { return detachedContext{ctx} }
// Deadline implements context.Deadline
func (v detachedContext) Deadline() (time.Time, bool) { return time.Time{}, false }
// Done implements context.Done
func (v detachedContext) Done() <-chan struct{} { return nil }
// Err implements context.Err
func (v detachedContext) Err() error { return nil }
// Value implements context.Value
func (v detachedContext) Value(key interface{}) interface{} { return v.parent.Value(key) }
// GoAndWait provides safe concurrent handling. Per input handler, it starts a goroutine.
// Then it waits until all handlers are done and will recover if any handler panics.
// The returned error is the first non-nil error returned by one of the handlers.
// It can be set that non-nil error will be returned if the "key" handler fails while other handlers always
// return nil error.
func GoAndWait(handlers ...func() error) error {
var (
wg sync.WaitGroup
once sync.Once
err error
)
for _, f := range handlers {
wg.Add(1)
go func(handler func() error) {
defer func() {
if e := recover(); e != nil {
buf := make([]byte, PanicBufLen)
buf = buf[:runtime.Stack(buf, false)]
log.Errorf("[PANIC]%v\n%s\n", e, buf)
report.PanicNum.Incr()
once.Do(func() {
err = errs.New(errs.RetServerSystemErr, "panic found in call handlers")
})
}
wg.Done()
}()
if e := handler(); e != nil {
once.Do(func() {
err = e
})
}
}(f)
}
wg.Wait()
return err
}
// Goer is the interface that launches a testable and safe goroutine.
type Goer interface {
Go(ctx context.Context, timeout time.Duration, handler func(context.Context)) error
}
type asyncGoer struct {
panicBufLen int
shouldRecover bool
pool *ants.PoolWithFunc
}
type goerParam struct {
ctx context.Context
cancel context.CancelFunc
handler func(context.Context)
}
// NewAsyncGoer creates a goer that executes handler asynchronously with a goroutine when Go() is called.
func NewAsyncGoer(workerPoolSize int, panicBufLen int, shouldRecover bool) Goer {
g := &asyncGoer{
panicBufLen: panicBufLen,
shouldRecover: shouldRecover,
}
if workerPoolSize == 0 {
return g
}
pool, err := ants.NewPoolWithFunc(workerPoolSize, func(args interface{}) {
p := args.(*goerParam)
g.handle(p.ctx, p.handler, p.cancel)
})
if err != nil {
panic(err)
}
g.pool = pool
return g
}
func (g *asyncGoer) handle(ctx context.Context, handler func(context.Context), cancel context.CancelFunc) {
defer func() {
if g.shouldRecover {
if err := recover(); err != nil {
buf := make([]byte, g.panicBufLen)
buf = buf[:runtime.Stack(buf, false)]
log.ErrorContextf(ctx, "[PANIC]%v\n%s\n", err, buf)
report.PanicNum.Incr()
}
}
cancel()
}()
handler(ctx)
}
func (g *asyncGoer) Go(ctx context.Context, timeout time.Duration, handler func(context.Context)) error {
oldMsg := codec.Message(ctx)
newCtx, newMsg := codec.WithNewMessage(detach(ctx))
codec.CopyMsg(newMsg, oldMsg)
newCtx, cancel := context.WithTimeout(newCtx, timeout)
if g.pool != nil {
p := &goerParam{
ctx: newCtx,
cancel: cancel,
handler: handler,
}
return g.pool.Invoke(p)
}
go g.handle(newCtx, handler, cancel)
return nil
}
type syncGoer struct {
}
// NewSyncGoer creates a goer that executes handler synchronously without cloning ctx when Go() is called.
// it's usually used for testing.
func NewSyncGoer() Goer {
return &syncGoer{}
}
func (g *syncGoer) Go(ctx context.Context, timeout time.Duration, handler func(context.Context)) error {
newCtx, cancel := context.WithTimeout(ctx, timeout)
defer cancel()
handler(newCtx)
return nil
}
// DefaultGoer is an async goer without worker pool.
var DefaultGoer = NewAsyncGoer(0, PanicBufLen, true)
// Go launches a safer goroutine for async task inside rpc handler.
// it clones ctx and msg before the goroutine, and will recover and report metrics when the goroutine panics.
// you should set a suitable timeout to control the lifetime of the new goroutine to prevent goroutine leaks.
func Go(ctx context.Context, timeout time.Duration, handler func(context.Context)) error {
return DefaultGoer.Go(ctx, timeout, handler)
}
// --------------- the following code is IP Config related -----------------//
// nicIP defines the parameters used to record the ip address (ipv4 & ipv6) of the nic.
type nicIP struct {
nic string
ipv4 []string
ipv6 []string
}
// netInterfaceIP maintains the nic name to nicIP mapping.
type netInterfaceIP struct {
once sync.Once
ips map[string]*nicIP
}
// enumAllIP returns the nic name to nicIP mapping.
func (p *netInterfaceIP) enumAllIP() map[string]*nicIP {
p.once.Do(func() {
p.ips = make(map[string]*nicIP)
interfaces, err := net.Interfaces()
if err != nil {
return
}
for _, i := range interfaces {
p.addInterface(i)
}
})
return p.ips
}
func (p *netInterfaceIP) addInterface(i net.Interface) {
addrs, err := i.Addrs()
if err != nil {
return
}
for _, addr := range addrs {
ipNet, ok := addr.(*net.IPNet)
if !ok {
continue
}
if ipNet.IP.To4() != nil {
p.addIPv4(i.Name, ipNet.IP.String())
} else if ipNet.IP.To16() != nil {
p.addIPv6(i.Name, ipNet.IP.String())
}
}
}
// addIPv4 append ipv4 address
func (p *netInterfaceIP) addIPv4(nic string, ip4 string) {
ips := p.getNicIP(nic)
ips.ipv4 = append(ips.ipv4, ip4)
}
// addIPv6 append ipv6 address
func (p *netInterfaceIP) addIPv6(nic string, ip6 string) {
ips := p.getNicIP(nic)
ips.ipv6 = append(ips.ipv6, ip6)
}
// getNicIP returns nicIP by nic name.
func (p *netInterfaceIP) getNicIP(nic string) *nicIP {
if _, ok := p.ips[nic]; !ok {
p.ips[nic] = &nicIP{nic: nic}
}
return p.ips[nic]
}
// getIPByNic returns ip address by nic name.
// If the ipv4 addr is not empty, it will be returned.
// Otherwise, the ipv6 addr will be returned.
func (p *netInterfaceIP) getIPByNic(nic string) string {
p.enumAllIP()
if len(p.ips) <= 0 {
return ""
}
if _, ok := p.ips[nic]; !ok {
return ""
}
ip := p.ips[nic]
if len(ip.ipv4) > 0 {
return ip.ipv4[0]
}
if len(ip.ipv6) > 0 {
return ip.ipv6[0]
}
return ""
}
// localIP records the local nic name->nicIP mapping.
var localIP = &netInterfaceIP{}
// getIP returns ip addr by nic name.
func getIP(nic string) string {
ip := localIP.getIPByNic(nic)
return ip
}
// deduplicate merges two slices.
// Order will be kept and duplication will be removed.
func deduplicate(a, b []string) []string {
r := make([]string, 0, len(a)+len(b))
m := make(map[string]bool)
for _, s := range append(a, b...) {
if _, ok := m[s]; !ok {
m[s] = true
r = append(r, s)
}
}
return r
}