// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package context import ( "fmt" "math/rand" "runtime" "strings" "sync" "sync/atomic" "time" ) type testingT interface { Error(args ...interface{}) Errorf(format string, args ...interface{}) Fail() FailNow() Failed() bool Fatal(args ...interface{}) Fatalf(format string, args ...interface{}) Helper() Log(args ...interface{}) Logf(format string, args ...interface{}) Name() string Skip(args ...interface{}) SkipNow() Skipf(format string, args ...interface{}) Skipped() bool } // otherContext is a Context that's not one of the types defined in context.go. // This lets us test code paths that differ based on the underlying type of the // Context. type otherContext struct { Context } func XTestBackground(t testingT) { c := Background() if c == nil { t.Fatalf("Background returned nil") } select { case x := <-c.Done(): t.Errorf("<-c.Done() == %v want nothing (it should block)", x) default: } if got, want := fmt.Sprint(c), "context.Background"; got != want { t.Errorf("Background().String() = %q want %q", got, want) } } func XTestTODO(t testingT) { c := TODO() if c == nil { t.Fatalf("TODO returned nil") } select { case x := <-c.Done(): t.Errorf("<-c.Done() == %v want nothing (it should block)", x) default: } if got, want := fmt.Sprint(c), "context.TODO"; got != want { t.Errorf("TODO().String() = %q want %q", got, want) } } func XTestWithCancel(t testingT) { c1, cancel := WithCancel(Background()) if got, want := fmt.Sprint(c1), "context.Background.WithCancel"; got != want { t.Errorf("c1.String() = %q want %q", got, want) } o := otherContext{c1} c2, _ := WithCancel(o) contexts := []Context{c1, o, c2} for i, c := range contexts { if d := c.Done(); d == nil { t.Errorf("c[%d].Done() == %v want non-nil", i, d) } if e := c.Err(); e != nil { t.Errorf("c[%d].Err() == %v want nil", i, e) } select { case x := <-c.Done(): t.Errorf("<-c.Done() == %v want nothing (it should block)", x) default: } } cancel() time.Sleep(100 * time.Millisecond) // let cancellation propagate for i, c := range contexts { select { case <-c.Done(): default: t.Errorf("<-c[%d].Done() blocked, but shouldn't have", i) } if e := c.Err(); e != Canceled { t.Errorf("c[%d].Err() == %v want %v", i, e, Canceled) } } } func contains(m map[canceler]struct{}, key canceler) bool { _, ret := m[key] return ret } func XTestParentFinishesChild(t testingT) { // Context tree: // parent -> cancelChild // parent -> valueChild -> timerChild parent, cancel := WithCancel(Background()) cancelChild, stop := WithCancel(parent) defer stop() valueChild := WithValue(parent, "key", "value") timerChild, stop := WithTimeout(valueChild, 10000*time.Hour) defer stop() select { case x := <-parent.Done(): t.Errorf("<-parent.Done() == %v want nothing (it should block)", x) case x := <-cancelChild.Done(): t.Errorf("<-cancelChild.Done() == %v want nothing (it should block)", x) case x := <-timerChild.Done(): t.Errorf("<-timerChild.Done() == %v want nothing (it should block)", x) case x := <-valueChild.Done(): t.Errorf("<-valueChild.Done() == %v want nothing (it should block)", x) default: } // The parent's children should contain the two cancelable children. pc := parent.(*cancelCtx) cc := cancelChild.(*cancelCtx) tc := timerChild.(*timerCtx) pc.mu.Lock() if len(pc.children) != 2 || !contains(pc.children, cc) || !contains(pc.children, tc) { t.Errorf("bad linkage: pc.children = %v, want %v and %v", pc.children, cc, tc) } pc.mu.Unlock() if p, ok := parentCancelCtx(cc.Context); !ok || p != pc { t.Errorf("bad linkage: parentCancelCtx(cancelChild.Context) = %v, %v want %v, true", p, ok, pc) } if p, ok := parentCancelCtx(tc.Context); !ok || p != pc { t.Errorf("bad linkage: parentCancelCtx(timerChild.Context) = %v, %v want %v, true", p, ok, pc) } cancel() pc.mu.Lock() if len(pc.children) != 0 { t.Errorf("pc.cancel didn't clear pc.children = %v", pc.children) } pc.mu.Unlock() // parent and children should all be finished. check := func(ctx Context, name string) { select { case <-ctx.Done(): default: t.Errorf("<-%s.Done() blocked, but shouldn't have", name) } if e := ctx.Err(); e != Canceled { t.Errorf("%s.Err() == %v want %v", name, e, Canceled) } } check(parent, "parent") check(cancelChild, "cancelChild") check(valueChild, "valueChild") check(timerChild, "timerChild") // WithCancel should return a canceled context on a canceled parent. precanceledChild := WithValue(parent, "key", "value") select { case <-precanceledChild.Done(): default: t.Errorf("<-precanceledChild.Done() blocked, but shouldn't have") } if e := precanceledChild.Err(); e != Canceled { t.Errorf("precanceledChild.Err() == %v want %v", e, Canceled) } } func XTestChildFinishesFirst(t testingT) { cancelable, stop := WithCancel(Background()) defer stop() for _, parent := range []Context{Background(), cancelable} { child, cancel := WithCancel(parent) select { case x := <-parent.Done(): t.Errorf("<-parent.Done() == %v want nothing (it should block)", x) case x := <-child.Done(): t.Errorf("<-child.Done() == %v want nothing (it should block)", x) default: } cc := child.(*cancelCtx) pc, pcok := parent.(*cancelCtx) // pcok == false when parent == Background() if p, ok := parentCancelCtx(cc.Context); ok != pcok || (ok && pc != p) { t.Errorf("bad linkage: parentCancelCtx(cc.Context) = %v, %v want %v, %v", p, ok, pc, pcok) } if pcok { pc.mu.Lock() if len(pc.children) != 1 || !contains(pc.children, cc) { t.Errorf("bad linkage: pc.children = %v, cc = %v", pc.children, cc) } pc.mu.Unlock() } cancel() if pcok { pc.mu.Lock() if len(pc.children) != 0 { t.Errorf("child's cancel didn't remove self from pc.children = %v", pc.children) } pc.mu.Unlock() } // child should be finished. select { case <-child.Done(): default: t.Errorf("<-child.Done() blocked, but shouldn't have") } if e := child.Err(); e != Canceled { t.Errorf("child.Err() == %v want %v", e, Canceled) } // parent should not be finished. select { case x := <-parent.Done(): t.Errorf("<-parent.Done() == %v want nothing (it should block)", x) default: } if e := parent.Err(); e != nil { t.Errorf("parent.Err() == %v want nil", e) } } } func testDeadline(c Context, name string, failAfter time.Duration, t testingT) { t.Helper() select { case <-time.After(failAfter): t.Fatalf("%s: context should have timed out", name) case <-c.Done(): } if e := c.Err(); e != DeadlineExceeded { t.Errorf("%s: c.Err() == %v; want %v", name, e, DeadlineExceeded) } } func XTestDeadline(t testingT) { c, _ := WithDeadline(Background(), time.Now().Add(50*time.Millisecond)) if got, prefix := fmt.Sprint(c), "context.Background.WithDeadline("; !strings.HasPrefix(got, prefix) { t.Errorf("c.String() = %q want prefix %q", got, prefix) } testDeadline(c, "WithDeadline", time.Second, t) c, _ = WithDeadline(Background(), time.Now().Add(50*time.Millisecond)) o := otherContext{c} testDeadline(o, "WithDeadline+otherContext", time.Second, t) c, _ = WithDeadline(Background(), time.Now().Add(50*time.Millisecond)) o = otherContext{c} c, _ = WithDeadline(o, time.Now().Add(4*time.Second)) testDeadline(c, "WithDeadline+otherContext+WithDeadline", 2*time.Second, t) c, _ = WithDeadline(Background(), time.Now().Add(-time.Millisecond)) testDeadline(c, "WithDeadline+inthepast", time.Second, t) c, _ = WithDeadline(Background(), time.Now()) testDeadline(c, "WithDeadline+now", time.Second, t) } func XTestTimeout(t testingT) { c, _ := WithTimeout(Background(), 50*time.Millisecond) if got, prefix := fmt.Sprint(c), "context.Background.WithDeadline("; !strings.HasPrefix(got, prefix) { t.Errorf("c.String() = %q want prefix %q", got, prefix) } testDeadline(c, "WithTimeout", time.Second, t) c, _ = WithTimeout(Background(), 50*time.Millisecond) o := otherContext{c} testDeadline(o, "WithTimeout+otherContext", time.Second, t) c, _ = WithTimeout(Background(), 50*time.Millisecond) o = otherContext{c} c, _ = WithTimeout(o, 3*time.Second) testDeadline(c, "WithTimeout+otherContext+WithTimeout", 2*time.Second, t) } func XTestCanceledTimeout(t testingT) { c, _ := WithTimeout(Background(), time.Second) o := otherContext{c} c, cancel := WithTimeout(o, 2*time.Second) cancel() time.Sleep(100 * time.Millisecond) // let cancellation propagate select { case <-c.Done(): default: t.Errorf("<-c.Done() blocked, but shouldn't have") } if e := c.Err(); e != Canceled { t.Errorf("c.Err() == %v want %v", e, Canceled) } } type key1 int type key2 int var k1 = key1(1) var k2 = key2(1) // same int as k1, different type var k3 = key2(3) // same type as k2, different int func XTestValues(t testingT) { check := func(c Context, nm, v1, v2, v3 string) { if v, ok := c.Value(k1).(string); ok == (len(v1) == 0) || v != v1 { t.Errorf(`%s.Value(k1).(string) = %q, %t want %q, %t`, nm, v, ok, v1, len(v1) != 0) } if v, ok := c.Value(k2).(string); ok == (len(v2) == 0) || v != v2 { t.Errorf(`%s.Value(k2).(string) = %q, %t want %q, %t`, nm, v, ok, v2, len(v2) != 0) } if v, ok := c.Value(k3).(string); ok == (len(v3) == 0) || v != v3 { t.Errorf(`%s.Value(k3).(string) = %q, %t want %q, %t`, nm, v, ok, v3, len(v3) != 0) } } c0 := Background() check(c0, "c0", "", "", "") c1 := WithValue(Background(), k1, "c1k1") check(c1, "c1", "c1k1", "", "") if got, want := fmt.Sprint(c1), `context.Background.WithValue(type context.key1, val c1k1)`; got != want { t.Errorf("c.String() = %q want %q", got, want) } c2 := WithValue(c1, k2, "c2k2") check(c2, "c2", "c1k1", "c2k2", "") c3 := WithValue(c2, k3, "c3k3") check(c3, "c2", "c1k1", "c2k2", "c3k3") c4 := WithValue(c3, k1, nil) check(c4, "c4", "", "c2k2", "c3k3") o0 := otherContext{Background()} check(o0, "o0", "", "", "") o1 := otherContext{WithValue(Background(), k1, "c1k1")} check(o1, "o1", "c1k1", "", "") o2 := WithValue(o1, k2, "o2k2") check(o2, "o2", "c1k1", "o2k2", "") o3 := otherContext{c4} check(o3, "o3", "", "c2k2", "c3k3") o4 := WithValue(o3, k3, nil) check(o4, "o4", "", "c2k2", "") } func XTestAllocs(t testingT, testingShort func() bool, testingAllocsPerRun func(int, func()) float64) { bg := Background() for _, test := range []struct { desc string f func() limit float64 gccgoLimit float64 }{ { desc: "Background()", f: func() { Background() }, limit: 0, gccgoLimit: 0, }, { desc: fmt.Sprintf("WithValue(bg, %v, nil)", k1), f: func() { c := WithValue(bg, k1, nil) c.Value(k1) }, limit: 3, gccgoLimit: 3, }, { desc: "WithTimeout(bg, 15*time.Millisecond)", f: func() { c, _ := WithTimeout(bg, 15*time.Millisecond) <-c.Done() }, limit: 12, gccgoLimit: 15, }, { desc: "WithCancel(bg)", f: func() { c, cancel := WithCancel(bg) cancel() <-c.Done() }, limit: 5, gccgoLimit: 8, }, { desc: "WithTimeout(bg, 5*time.Millisecond)", f: func() { c, cancel := WithTimeout(bg, 5*time.Millisecond) cancel() <-c.Done() }, limit: 8, gccgoLimit: 25, }, } { limit := test.limit if runtime.Compiler == "gccgo" { // gccgo does not yet do escape analysis. // TODO(iant): Remove this when gccgo does do escape analysis. limit = test.gccgoLimit } numRuns := 100 if testingShort() { numRuns = 10 } if n := testingAllocsPerRun(numRuns, test.f); n > limit { t.Errorf("%s allocs = %f want %d", test.desc, n, int(limit)) } } } func XTestSimultaneousCancels(t testingT) { root, cancel := WithCancel(Background()) m := map[Context]CancelFunc{root: cancel} q := []Context{root} // Create a tree of contexts. for len(q) != 0 && len(m) < 100 { parent := q[0] q = q[1:] for i := 0; i < 4; i++ { ctx, cancel := WithCancel(parent) m[ctx] = cancel q = append(q, ctx) } } // Start all the cancels in a random order. var wg sync.WaitGroup wg.Add(len(m)) for _, cancel := range m { go func(cancel CancelFunc) { cancel() wg.Done() }(cancel) } // Wait on all the contexts in a random order. for ctx := range m { select { case <-ctx.Done(): case <-time.After(1 * time.Second): buf := make([]byte, 10<<10) n := runtime.Stack(buf, true) t.Fatalf("timed out waiting for <-ctx.Done(); stacks:\n%s", buf[:n]) } } // Wait for all the cancel functions to return. done := make(chan struct{}) go func() { wg.Wait() close(done) }() select { case <-done: case <-time.After(1 * time.Second): buf := make([]byte, 10<<10) n := runtime.Stack(buf, true) t.Fatalf("timed out waiting for cancel functions; stacks:\n%s", buf[:n]) } } func XTestInterlockedCancels(t testingT) { parent, cancelParent := WithCancel(Background()) child, cancelChild := WithCancel(parent) go func() { parent.Done() cancelChild() }() cancelParent() select { case <-child.Done(): case <-time.After(1 * time.Second): buf := make([]byte, 10<<10) n := runtime.Stack(buf, true) t.Fatalf("timed out waiting for child.Done(); stacks:\n%s", buf[:n]) } } func XTestLayersCancel(t testingT) { testLayers(t, time.Now().UnixNano(), false) } func XTestLayersTimeout(t testingT) { testLayers(t, time.Now().UnixNano(), true) } func testLayers(t testingT, seed int64, testTimeout bool) { rand.Seed(seed) errorf := func(format string, a ...interface{}) { t.Errorf(fmt.Sprintf("seed=%d: %s", seed, format), a...) } const ( timeout = 200 * time.Millisecond minLayers = 30 ) type value int var ( vals []*value cancels []CancelFunc numTimers int ctx = Background() ) for i := 0; i < minLayers || numTimers == 0 || len(cancels) == 0 || len(vals) == 0; i++ { switch rand.Intn(3) { case 0: v := new(value) ctx = WithValue(ctx, v, v) vals = append(vals, v) case 1: var cancel CancelFunc ctx, cancel = WithCancel(ctx) cancels = append(cancels, cancel) case 2: var cancel CancelFunc ctx, cancel = WithTimeout(ctx, timeout) cancels = append(cancels, cancel) numTimers++ } } checkValues := func(when string) { for _, key := range vals { if val := ctx.Value(key).(*value); key != val { errorf("%s: ctx.Value(%p) = %p want %p", when, key, val, key) } } } select { case <-ctx.Done(): errorf("ctx should not be canceled yet") default: } if s, prefix := fmt.Sprint(ctx), "context.Background."; !strings.HasPrefix(s, prefix) { t.Errorf("ctx.String() = %q want prefix %q", s, prefix) } t.Log(ctx) checkValues("before cancel") if testTimeout { select { case <-ctx.Done(): case <-time.After(timeout + time.Second): errorf("ctx should have timed out") } checkValues("after timeout") } else { cancel := cancels[rand.Intn(len(cancels))] cancel() select { case <-ctx.Done(): default: errorf("ctx should be canceled") } checkValues("after cancel") } } func XTestCancelRemoves(t testingT) { checkChildren := func(when string, ctx Context, want int) { if got := len(ctx.(*cancelCtx).children); got != want { t.Errorf("%s: context has %d children, want %d", when, got, want) } } ctx, _ := WithCancel(Background()) checkChildren("after creation", ctx, 0) _, cancel := WithCancel(ctx) checkChildren("with WithCancel child ", ctx, 1) cancel() checkChildren("after canceling WithCancel child", ctx, 0) ctx, _ = WithCancel(Background()) checkChildren("after creation", ctx, 0) _, cancel = WithTimeout(ctx, 60*time.Minute) checkChildren("with WithTimeout child ", ctx, 1) cancel() checkChildren("after canceling WithTimeout child", ctx, 0) } func XTestWithCancelCanceledParent(t testingT) { parent, pcancel := WithCancel(Background()) pcancel() c, _ := WithCancel(parent) select { case <-c.Done(): case <-time.After(5 * time.Second): t.Fatal("timeout waiting for Done") } if got, want := c.Err(), Canceled; got != want { t.Errorf("child not cancelled; got = %v, want = %v", got, want) } } func XTestWithValueChecksKey(t testingT) { panicVal := recoveredValue(func() { WithValue(Background(), []byte("foo"), "bar") }) if panicVal == nil { t.Error("expected panic") } panicVal = recoveredValue(func() { WithValue(Background(), nil, "bar") }) if got, want := fmt.Sprint(panicVal), "nil key"; got != want { t.Errorf("panic = %q; want %q", got, want) } } func recoveredValue(fn func()) (v interface{}) { defer func() { v = recover() }() fn() return } func XTestDeadlineExceededSupportsTimeout(t testingT) { i, ok := DeadlineExceeded.(interface { Timeout() bool }) if !ok { t.Fatal("DeadlineExceeded does not support Timeout interface") } if !i.Timeout() { t.Fatal("wrong value for timeout") } } type myCtx struct { Context } type myDoneCtx struct { Context } func (d *myDoneCtx) Done() <-chan struct{} { c := make(chan struct{}) return c } func XTestCustomContextGoroutines(t testingT) { g := atomic.LoadInt32(&goroutines) checkNoGoroutine := func() { t.Helper() now := atomic.LoadInt32(&goroutines) if now != g { t.Fatalf("%d goroutines created", now-g) } } checkCreatedGoroutine := func() { t.Helper() now := atomic.LoadInt32(&goroutines) if now != g+1 { t.Fatalf("%d goroutines created, want 1", now-g) } g = now } _, cancel0 := WithCancel(&myDoneCtx{Background()}) cancel0() checkCreatedGoroutine() _, cancel0 = WithTimeout(&myDoneCtx{Background()}, 1*time.Hour) cancel0() checkCreatedGoroutine() checkNoGoroutine() defer checkNoGoroutine() ctx1, cancel1 := WithCancel(Background()) defer cancel1() checkNoGoroutine() ctx2 := &myCtx{ctx1} ctx3, cancel3 := WithCancel(ctx2) defer cancel3() checkNoGoroutine() _, cancel3b := WithCancel(&myDoneCtx{ctx2}) defer cancel3b() checkCreatedGoroutine() // ctx1 is not providing Done, must not be used ctx4, cancel4 := WithTimeout(ctx3, 1*time.Hour) defer cancel4() checkNoGoroutine() ctx5, cancel5 := WithCancel(ctx4) defer cancel5() checkNoGoroutine() cancel5() checkNoGoroutine() _, cancel6 := WithTimeout(ctx5, 1*time.Hour) defer cancel6() checkNoGoroutine() // Check applied to cancelled context. cancel6() cancel1() _, cancel7 := WithCancel(ctx5) defer cancel7() checkNoGoroutine() }