mirror of
https://github.com/syncthing/syncthing.git
synced 2024-11-17 02:48:57 -07:00
65aaa607ab
Change made by: - running "gvt fetch" on each of the packages mentioned in Godeps/Godeps.json - `rm -rf Godeps` - tweaking the build scripts to not mention Godeps - tweaking the build scripts to test `./lib/...`, `./cmd/...` explicitly (to avoid testing vendor) - tweaking the build scripts to not juggle GOPATH for Godeps and instead set GO15VENDOREXPERIMENT. This also results in some updated packages at the same time I bet. Building with Go 1.3 and 1.4 still *works* but won't use our vendored dependencies - the user needs to have the actual packages in their GOPATH then, which they'll get with a normal "go get". Building with Go 1.6+ will get our vendored dependencies by default even when not using our build script, which is nice. By doing this we gain some freedom in that we can pick and choose manually what to include in vendor, as it's not based on just dependency analysis of our own code. This is also a risk as we might pick up dependencies we are unaware of, as the build may work locally with those packages present in GOPATH. On the other hand the build server will detect this as it has no packages in it's GOPATH beyond what is included in the repo. Recommended tool to manage dependencies is github.com/FiloSottile/gvt.
617 lines
13 KiB
Go
617 lines
13 KiB
Go
package suture
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import (
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"errors"
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"fmt"
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"reflect"
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"sync"
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"testing"
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"time"
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)
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const (
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Happy = iota
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Fail
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Panic
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Hang
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UseStopChan
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)
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var everMultistarted = false
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// Test that supervisors work perfectly when everything is hunky dory.
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func TestTheHappyCase(t *testing.T) {
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t.Parallel()
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s := NewSimple("A")
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if s.String() != "A" {
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t.Fatal("Can't get name from a supervisor")
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}
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service := NewService("B")
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s.Add(service)
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go s.Serve()
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<-service.started
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// If we stop the service, it just gets restarted
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service.Stop()
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<-service.started
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// And it is shut down when we stop the supervisor
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service.take <- UseStopChan
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s.Stop()
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<-service.stop
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}
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// Test that adding to a running supervisor does indeed start the service.
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func TestAddingToRunningSupervisor(t *testing.T) {
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t.Parallel()
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s := NewSimple("A1")
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s.ServeBackground()
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defer s.Stop()
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service := NewService("B1")
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s.Add(service)
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<-service.started
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services := s.Services()
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if !reflect.DeepEqual([]Service{service}, services) {
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t.Fatal("Can't get list of services as expected.")
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}
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}
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// Test what happens when services fail.
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func TestFailures(t *testing.T) {
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t.Parallel()
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s := NewSimple("A2")
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s.failureThreshold = 3.5
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go s.Serve()
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defer func() {
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// to avoid deadlocks during shutdown, we have to not try to send
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// things out on channels while we're shutting down (this undoes the
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// logFailure overide about 25 lines down)
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s.logFailure = func(*Supervisor, Service, float64, float64, bool, interface{}, []byte) {}
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s.Stop()
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}()
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s.sync()
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service1 := NewService("B2")
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service2 := NewService("C2")
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s.Add(service1)
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<-service1.started
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s.Add(service2)
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<-service2.started
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nowFeeder := NewNowFeeder()
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pastVal := time.Unix(1000000, 0)
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nowFeeder.appendTimes(pastVal)
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s.getNow = nowFeeder.getter
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resumeChan := make(chan time.Time)
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s.getAfterChan = func(d time.Duration) <-chan time.Time {
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return resumeChan
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}
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failNotify := make(chan bool)
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// use this to synchronize on here
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s.logFailure = func(supervisor *Supervisor, s Service, cf float64, ft float64, r bool, error interface{}, stacktrace []byte) {
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failNotify <- r
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}
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// All that setup was for this: Service1, please return now.
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service1.take <- Fail
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restarted := <-failNotify
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<-service1.started
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if !restarted || s.failures != 1 || s.lastFail != pastVal {
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t.Fatal("Did not fail in the expected manner")
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}
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// Getting past this means the service was restarted.
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service1.take <- Happy
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// Service2, your turn.
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service2.take <- Fail
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nowFeeder.appendTimes(pastVal)
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restarted = <-failNotify
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<-service2.started
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if !restarted || s.failures != 2 || s.lastFail != pastVal {
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t.Fatal("Did not fail in the expected manner")
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}
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// And you're back. (That is, the correct service was restarted.)
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service2.take <- Happy
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// Now, one failureDecay later, is everything working correctly?
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oneDecayLater := time.Unix(1000030, 0)
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nowFeeder.appendTimes(oneDecayLater)
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service2.take <- Fail
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restarted = <-failNotify
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<-service2.started
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// playing a bit fast and loose here with floating point, but...
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// we get 2 by taking the current failure value of 2, decaying it
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// by one interval, which cuts it in half to 1, then adding 1 again,
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// all of which "should" be precise
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if !restarted || s.failures != 2 || s.lastFail != oneDecayLater {
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t.Fatal("Did not decay properly", s.lastFail, oneDecayLater)
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}
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// For a change of pace, service1 would you be so kind as to panic?
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nowFeeder.appendTimes(oneDecayLater)
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service1.take <- Panic
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restarted = <-failNotify
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<-service1.started
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if !restarted || s.failures != 3 || s.lastFail != oneDecayLater {
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t.Fatal("Did not correctly recover from a panic")
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}
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nowFeeder.appendTimes(oneDecayLater)
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backingoff := make(chan bool)
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s.logBackoff = func(s *Supervisor, backingOff bool) {
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backingoff <- backingOff
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}
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// And with this failure, we trigger the backoff code.
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service1.take <- Fail
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backoff := <-backingoff
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restarted = <-failNotify
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if !backoff || restarted || s.failures != 4 {
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t.Fatal("Broke past the threshold but did not log correctly", s.failures)
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}
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if service1.existing != 0 {
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t.Fatal("service1 still exists according to itself?")
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}
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// service2 is still running, because we don't shut anything down in a
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// backoff, we just stop restarting.
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service2.take <- Happy
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var correct bool
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timer := time.NewTimer(time.Millisecond * 10)
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// verify the service has not been restarted
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// hard to get around race conditions here without simply using a timer...
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select {
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case service1.take <- Happy:
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correct = false
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case <-timer.C:
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correct = true
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}
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if !correct {
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t.Fatal("Restarted the service during the backoff interval")
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}
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// tell the supervisor the restart interval has passed
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resumeChan <- time.Time{}
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backoff = <-backingoff
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<-service1.started
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s.sync()
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if s.failures != 0 {
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t.Fatal("Did not reset failure count after coming back from timeout.")
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}
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nowFeeder.appendTimes(oneDecayLater)
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service1.take <- Fail
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restarted = <-failNotify
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<-service1.started
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if !restarted || backoff {
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t.Fatal("For some reason, got that we were backing off again.", restarted, backoff)
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}
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}
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func TestRunningAlreadyRunning(t *testing.T) {
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t.Parallel()
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s := NewSimple("A3")
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go s.Serve()
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defer s.Stop()
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// ensure the supervisor has made it to its main loop
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s.sync()
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var errored bool
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func() {
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defer func() {
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if r := recover(); r != nil {
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errored = true
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}
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}()
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s.Serve()
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}()
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if !errored {
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t.Fatal("Supervisor failed to prevent itself from double-running.")
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}
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}
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func TestFullConstruction(t *testing.T) {
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t.Parallel()
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s := New("Moo", Spec{
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Log: func(string) {},
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FailureDecay: 1,
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FailureThreshold: 2,
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FailureBackoff: 3,
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Timeout: time.Second * 29,
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})
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if s.String() != "Moo" || s.failureDecay != 1 || s.failureThreshold != 2 || s.failureBackoff != 3 || s.timeout != time.Second*29 {
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t.Fatal("Full construction failed somehow")
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}
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}
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// This is mostly for coverage testing.
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func TestDefaultLogging(t *testing.T) {
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t.Parallel()
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s := NewSimple("A4")
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service := NewService("B4")
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s.Add(service)
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s.failureThreshold = .5
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s.failureBackoff = time.Millisecond * 25
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go s.Serve()
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s.sync()
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<-service.started
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resumeChan := make(chan time.Time)
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s.getAfterChan = func(d time.Duration) <-chan time.Time {
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return resumeChan
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}
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service.take <- UseStopChan
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service.take <- Fail
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<-service.stop
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resumeChan <- time.Time{}
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<-service.started
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service.take <- Happy
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serviceName(&BarelyService{})
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s.logBadStop(s, service)
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s.logFailure(s, service, 1, 1, true, errors.New("test error"), []byte{})
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s.Stop()
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}
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func TestNestedSupervisors(t *testing.T) {
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t.Parallel()
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super1 := NewSimple("Top5")
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super2 := NewSimple("Nested5")
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service := NewService("Service5")
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super2.logBadStop = func(*Supervisor, Service) {
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panic("Failed to copy logBadStop")
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}
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super1.Add(super2)
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super2.Add(service)
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// test the functions got copied from super1; if this panics, it didn't
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// get copied
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super2.logBadStop(super2, service)
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go super1.Serve()
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super1.sync()
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<-service.started
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service.take <- Happy
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super1.Stop()
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}
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func TestStoppingSupervisorStopsServices(t *testing.T) {
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t.Parallel()
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s := NewSimple("Top6")
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service := NewService("Service 6")
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s.Add(service)
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go s.Serve()
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s.sync()
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<-service.started
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service.take <- UseStopChan
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s.Stop()
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<-service.stop
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}
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func TestStoppingStillWorksWithHungServices(t *testing.T) {
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t.Parallel()
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s := NewSimple("Top7")
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service := NewService("Service WillHang7")
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s.Add(service)
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go s.Serve()
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<-service.started
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service.take <- UseStopChan
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service.take <- Hang
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resumeChan := make(chan time.Time)
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s.getAfterChan = func(d time.Duration) <-chan time.Time {
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return resumeChan
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}
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failNotify := make(chan struct{})
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s.logBadStop = func(supervisor *Supervisor, s Service) {
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failNotify <- struct{}{}
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}
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s.Stop()
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resumeChan <- time.Time{}
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<-failNotify
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service.release <- true
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<-service.stop
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}
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func TestRemoveService(t *testing.T) {
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t.Parallel()
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s := NewSimple("Top")
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service := NewService("ServiceToRemove8")
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id := s.Add(service)
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go s.Serve()
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<-service.started
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service.take <- UseStopChan
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err := s.Remove(id)
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if err != nil {
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t.Fatal("Removing service somehow failed")
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}
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<-service.stop
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err = s.Remove(ServiceToken{1<<36 + 1})
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if err != ErrWrongSupervisor {
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t.Fatal("Did not detect that the ServiceToken was wrong")
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}
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}
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func TestFailureToConstruct(t *testing.T) {
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t.Parallel()
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var s *Supervisor
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panics(func() {
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s.Serve()
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})
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s = new(Supervisor)
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panics(func() {
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s.Serve()
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})
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}
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func TestFailingSupervisors(t *testing.T) {
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t.Parallel()
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// This is a bit of a complicated test, so let me explain what
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// all this is doing:
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// 1. Set up a top-level supervisor with a hair-trigger backoff.
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// 2. Add a supervisor to that.
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// 3. To that supervisor, add a service.
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// 4. Panic the supervisor in the middle, sending the top-level into
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// backoff.
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// 5. Kill the lower level service too.
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// 6. Verify that when the top-level service comes out of backoff,
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// the service ends up restarted as expected.
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// Ultimately, we can't have more than a best-effort recovery here.
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// A panic'ed supervisor can't really be trusted to have consistent state,
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// and without *that*, we can't trust it to do anything sensible with
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// the children it may have been running. So unlike Erlang, we can't
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// can't really expect to be able to safely restart them or anything.
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// Really, the "correct" answer is that the Supervisor must never panic,
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// but in the event that it does, this verifies that it at least tries
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// to get on with life.
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// This also tests that if a Supervisor itself panics, and one of its
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// monitored services goes down in the meantime, that the monitored
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// service also gets correctly restarted when the supervisor does.
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s1 := NewSimple("Top9")
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s2 := NewSimple("Nested9")
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service := NewService("Service9")
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s1.Add(s2)
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s2.Add(service)
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go s1.Serve()
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<-service.started
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s1.failureThreshold = .5
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// let us control precisely when s1 comes back
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resumeChan := make(chan time.Time)
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s1.getAfterChan = func(d time.Duration) <-chan time.Time {
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return resumeChan
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}
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failNotify := make(chan string)
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// use this to synchronize on here
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s1.logFailure = func(supervisor *Supervisor, s Service, cf float64, ft float64, r bool, error interface{}, stacktrace []byte) {
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failNotify <- fmt.Sprintf("%s", s)
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}
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s2.panic()
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failing := <-failNotify
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// that's enough sync to guarantee this:
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if failing != "Nested9" || s1.state != paused {
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t.Fatal("Top-level supervisor did not go into backoff as expected")
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}
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service.take <- Fail
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resumeChan <- time.Time{}
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<-service.started
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}
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func TestNilSupervisorAdd(t *testing.T) {
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t.Parallel()
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var s *Supervisor
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defer func() {
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if r := recover(); r == nil {
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t.Fatal("did not panic as expected on nil add")
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}
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}()
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s.Add(s)
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}
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// https://github.com/thejerf/suture/issues/11
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//
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// The purpose of this test is to verify that it does not cause data races,
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// so there are no obvious assertions.
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func TestIssue11(t *testing.T) {
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t.Parallel()
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s := NewSimple("main")
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s.ServeBackground()
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subsuper := NewSimple("sub")
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s.Add(subsuper)
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subsuper.Add(NewService("may cause data race"))
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}
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// http://golangtutorials.blogspot.com/2011/10/gotest-unit-testing-and-benchmarking-go.html
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// claims test function are run in the same order as the source file...
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// I'm not sure if this is part of the contract, though. Especially in the
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// face of "t.Parallel()"...
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func TestEverMultistarted(t *testing.T) {
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if everMultistarted {
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t.Fatal("Seem to have multistarted a service at some point, bummer.")
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}
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}
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// A test service that can be induced to fail, panic, or hang on demand.
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func NewService(name string) *FailableService {
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return &FailableService{name, make(chan bool), make(chan int),
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make(chan bool, 1), make(chan bool), make(chan bool), 0}
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}
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type FailableService struct {
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name string
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started chan bool
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take chan int
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shutdown chan bool
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release chan bool
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stop chan bool
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existing int
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}
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func (s *FailableService) Serve() {
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if s.existing != 0 {
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everMultistarted = true
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panic("Multi-started the same service! " + s.name)
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}
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s.existing++
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s.started <- true
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useStopChan := false
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for {
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select {
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case val := <-s.take:
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switch val {
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case Happy:
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// Do nothing on purpose. Life is good!
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case Fail:
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s.existing--
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if useStopChan {
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s.stop <- true
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}
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return
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case Panic:
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s.existing--
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panic("Panic!")
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case Hang:
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// or more specifically, "hang until I release you"
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<-s.release
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case UseStopChan:
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useStopChan = true
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}
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case <-s.shutdown:
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s.existing--
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if useStopChan {
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s.stop <- true
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}
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return
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}
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}
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}
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func (s *FailableService) String() string {
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return s.name
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}
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func (s *FailableService) Stop() {
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s.shutdown <- true
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}
|
|
|
|
type NowFeeder struct {
|
|
values []time.Time
|
|
getter func() time.Time
|
|
m sync.Mutex
|
|
}
|
|
|
|
// This is used to test serviceName; it's a service without a Stringer.
|
|
type BarelyService struct{}
|
|
|
|
func (bs *BarelyService) Serve() {}
|
|
func (bs *BarelyService) Stop() {}
|
|
|
|
func NewNowFeeder() (nf *NowFeeder) {
|
|
nf = new(NowFeeder)
|
|
nf.getter = func() time.Time {
|
|
nf.m.Lock()
|
|
defer nf.m.Unlock()
|
|
if len(nf.values) > 0 {
|
|
ret := nf.values[0]
|
|
nf.values = nf.values[1:]
|
|
return ret
|
|
}
|
|
panic("Ran out of values for NowFeeder")
|
|
}
|
|
return
|
|
}
|
|
|
|
func (nf *NowFeeder) appendTimes(t ...time.Time) {
|
|
nf.m.Lock()
|
|
defer nf.m.Unlock()
|
|
nf.values = append(nf.values, t...)
|
|
}
|
|
|
|
func panics(doesItPanic func()) (panics bool) {
|
|
defer func() {
|
|
if r := recover(); r != nil {
|
|
panics = true
|
|
}
|
|
}()
|
|
|
|
doesItPanic()
|
|
|
|
return
|
|
}
|