package p2c import ( "context" "flag" "fmt" "math/rand" "strconv" "sync/atomic" "testing" "time" "github.com/go-kratos/kratos/pkg/conf/env" nmd "github.com/go-kratos/kratos/pkg/net/metadata" wmeta "github.com/go-kratos/kratos/pkg/net/rpc/warden/internal/metadata" "google.golang.org/grpc/balancer" "google.golang.org/grpc/codes" "google.golang.org/grpc/metadata" "google.golang.org/grpc/resolver" "google.golang.org/grpc/status" ) var serverNum int var cliNum int var concurrency int var extraLoad int64 var extraDelay int64 var extraWeight uint64 func init() { flag.IntVar(&serverNum, "snum", 6, "-snum 6") flag.IntVar(&cliNum, "cnum", 12, "-cnum 12") flag.IntVar(&concurrency, "concurrency", 10, "-cc 10") flag.Int64Var(&extraLoad, "exload", 3, "-exload 3") flag.Int64Var(&extraDelay, "exdelay", 250, "-exdelay 250") flag.Uint64Var(&extraWeight, "extraWeight", 50, "-exdelay 50") } type testSubConn struct { addr resolver.Address wait chan struct{} //statics reqs int64 usage int64 cpu int64 prevReq int64 prevUsage int64 //control params loadJitter int64 delayJitter int64 } func newTestSubConn(addr string, weight uint64, color string) (sc *testSubConn) { sc = &testSubConn{ addr: resolver.Address{ Addr: addr, Metadata: wmeta.MD{ Weight: weight, Color: color, }, }, wait: make(chan struct{}, 1000), } go func() { for { for i := 0; i < 210; i++ { <-sc.wait } time.Sleep(time.Millisecond * 20) } }() return } func (s *testSubConn) connect(ctx context.Context) { time.Sleep(time.Millisecond * 15) //add qps counter when request come in atomic.AddInt64(&s.reqs, 1) select { case <-ctx.Done(): return case s.wait <- struct{}{}: atomic.AddInt64(&s.usage, 1) } load := atomic.LoadInt64(&s.loadJitter) if load > 0 { for i := 0; i <= rand.Intn(int(load)); i++ { select { case <-ctx.Done(): return case s.wait <- struct{}{}: atomic.AddInt64(&s.usage, 1) } } } delay := atomic.LoadInt64(&s.delayJitter) if delay > 0 { delay = rand.Int63n(delay) time.Sleep(time.Millisecond * time.Duration(delay)) } } func (s *testSubConn) UpdateAddresses([]resolver.Address) { } // Connect starts the connecting for this SubConn. func (s *testSubConn) Connect() { } func TestBalancerPick(t *testing.T) { scs := map[resolver.Address]balancer.SubConn{} sc1 := &testSubConn{ addr: resolver.Address{ Addr: "test1", Metadata: wmeta.MD{ Weight: 8, }, }, } sc2 := &testSubConn{ addr: resolver.Address{ Addr: "test2", Metadata: wmeta.MD{ Weight: 4, Color: "red", }, }, } sc3 := &testSubConn{ addr: resolver.Address{ Addr: "test3", Metadata: wmeta.MD{ Weight: 2, Color: "red", }, }, } sc4 := &testSubConn{ addr: resolver.Address{ Addr: "test4", Metadata: wmeta.MD{ Weight: 2, Color: "purple", }, }, } scs[sc1.addr] = sc1 scs[sc2.addr] = sc2 scs[sc3.addr] = sc3 scs[sc4.addr] = sc4 b := &p2cPickerBuilder{} picker := b.Build(scs) res := []string{"test1", "test1", "test1", "test1"} for i := 0; i < 3; i++ { conn, _, err := picker.Pick(context.Background(), balancer.PickOptions{}) if err != nil { t.Fatalf("picker.Pick failed!idx:=%d", i) } sc := conn.(*testSubConn) if sc.addr.Addr != res[i] { t.Fatalf("the subconn picked(%s),but expected(%s)", sc.addr.Addr, res[i]) } } ctx := nmd.NewContext(context.Background(), nmd.New(map[string]interface{}{"color": "black"})) for i := 0; i < 4; i++ { conn, _, err := picker.Pick(ctx, balancer.PickOptions{}) if err != nil { t.Fatalf("picker.Pick failed!idx:=%d", i) } sc := conn.(*testSubConn) if sc.addr.Addr != res[i] { t.Fatalf("the (%d) subconn picked(%s),but expected(%s)", i, sc.addr.Addr, res[i]) } } env.Color = "purple" ctx2 := context.Background() for i := 0; i < 4; i++ { conn, _, err := picker.Pick(ctx2, balancer.PickOptions{}) if err != nil { t.Fatalf("picker.Pick failed!idx:=%d", i) } sc := conn.(*testSubConn) if sc.addr.Addr != "test4" { t.Fatalf("the (%d) subconn picked(%s),but expected(%s)", i, sc.addr.Addr, res[i]) } } } func Benchmark_Wrr(b *testing.B) { scs := map[resolver.Address]balancer.SubConn{} for i := 0; i < 50; i++ { addr := resolver.Address{ Addr: fmt.Sprintf("addr_%d", i), Metadata: wmeta.MD{Weight: 10}, } scs[addr] = &testSubConn{addr: addr} } wpb := &p2cPickerBuilder{} picker := wpb.Build(scs) opt := balancer.PickOptions{} ctx := context.Background() for idx := 0; idx < b.N; idx++ { _, done, err := picker.Pick(ctx, opt) if err != nil { done(balancer.DoneInfo{}) } } } func TestChaosPick(t *testing.T) { flag.Parse() fmt.Printf("start chaos test!svrNum:%d cliNum:%d concurrency:%d exLoad:%d exDelay:%d\n", serverNum, cliNum, concurrency, extraLoad, extraDelay) c := newController(serverNum, cliNum) c.launch(concurrency) go c.updateStatics() go c.control(extraLoad, extraDelay) time.Sleep(time.Second * 50) } func newController(svrNum int, cliNum int) *controller { //new servers servers := []*testSubConn{} var weight uint64 = 10 if extraWeight > 0 { weight = extraWeight } for i := 0; i < svrNum; i++ { weight += extraWeight sc := newTestSubConn(fmt.Sprintf("addr_%d", i), weight, "") servers = append(servers, sc) } //new clients var clients []balancer.Picker scs := map[resolver.Address]balancer.SubConn{} for _, v := range servers { scs[v.addr] = v } for i := 0; i < cliNum; i++ { wpb := &p2cPickerBuilder{} picker := wpb.Build(scs) clients = append(clients, picker) } c := &controller{ servers: servers, clients: clients, } return c } type controller struct { servers []*testSubConn clients []balancer.Picker } func (c *controller) launch(concurrency int) { opt := balancer.PickOptions{} bkg := context.Background() for i := range c.clients { for j := 0; j < concurrency; j++ { picker := c.clients[i] go func() { for { ctx, cancel := context.WithTimeout(bkg, time.Millisecond*250) sc, done, _ := picker.Pick(ctx, opt) server := sc.(*testSubConn) server.connect(ctx) var err error if ctx.Err() != nil { err = status.Errorf(codes.DeadlineExceeded, "dead") } cancel() cpu := atomic.LoadInt64(&server.cpu) md := make(map[string]string) md[wmeta.CPUUsage] = strconv.FormatInt(cpu, 10) done(balancer.DoneInfo{Trailer: metadata.New(md), Err: err}) time.Sleep(time.Millisecond * 10) } }() } } } func (c *controller) updateStatics() { for { time.Sleep(time.Millisecond * 500) for _, sc := range c.servers { usage := atomic.LoadInt64(&sc.usage) avgCpu := (usage - sc.prevUsage) * 2 atomic.StoreInt64(&sc.cpu, avgCpu) sc.prevUsage = usage } } } func (c *controller) control(extraLoad, extraDelay int64) { var chaos int for { fmt.Printf("\n") //make some chaos n := rand.Intn(3) chaos = n + 1 for i := 0; i < chaos; i++ { if extraLoad > 0 { degree := rand.Int63n(extraLoad) degree++ atomic.StoreInt64(&c.servers[i].loadJitter, degree) fmt.Printf("set addr_%d load:%d ", i, degree) } if extraDelay > 0 { degree := rand.Int63n(extraDelay) atomic.StoreInt64(&c.servers[i].delayJitter, degree) fmt.Printf("set addr_%d delay:%dms ", i, degree) } } fmt.Printf("\n") sleep := int64(5) time.Sleep(time.Second * time.Duration(sleep)) for _, sc := range c.servers { req := atomic.LoadInt64(&sc.reqs) qps := (req - sc.prevReq) / sleep wait := len(sc.wait) sc.prevReq = req fmt.Printf("%s qps:%d waits:%d\n", sc.addr.Addr, qps, wait) } for _, picker := range c.clients { p := picker.(*p2cPicker) p.printStats() } fmt.Printf("\n") //reset chaos for i := 0; i < chaos; i++ { atomic.StoreInt64(&c.servers[i].loadJitter, 0) atomic.StoreInt64(&c.servers[i].delayJitter, 0) } chaos = 0 } }