func (s *ManifoldSuite) TestStartMissingAPICaller(c *gc.C) {
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
})
getResource := dt.StubGetResource(dt.StubResources{
"api-caller": dt.StubResource{Error: dependency.ErrMissing},
})
worker, err := manifold.Start(getResource)
c.Check(errors.Cause(err), gc.Equals, dependency.ErrMissing)
c.Check(worker, gc.IsNil)
}
func (s *ManifoldSuite) TestStartMissingAPICaller(c *gc.C) {
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
})
context := dt.StubContext(nil, map[string]interface{}{
"api-caller": dependency.ErrMissing,
})
worker, err := manifold.Start(context)
c.Check(errors.Cause(err), gc.Equals, dependency.ErrMissing)
c.Check(worker, gc.IsNil)
}
func (s *ManifoldSuite) TestStartFacadeError(c *gc.C) {
expectCaller := &fakeCaller{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(apiCaller base.APICaller) (servicescaler.Facade, error) {
c.Check(apiCaller, gc.Equals, expectCaller)
return nil, errors.New("blort")
},
})
context := dt.StubContext(nil, map[string]interface{}{
"api-caller": expectCaller,
})
worker, err := manifold.Start(context)
c.Check(err, gc.ErrorMatches, "blort")
c.Check(worker, gc.IsNil)
}
func (s *ManifoldSuite) TestStartFacadeError(c *gc.C) {
expectCaller := &fakeCaller{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(apiCaller base.APICaller) (servicescaler.Facade, error) {
c.Check(apiCaller, gc.Equals, expectCaller)
return nil, errors.New("blort")
},
})
getResource := dt.StubGetResource(dt.StubResources{
"api-caller": dt.StubResource{Output: expectCaller},
})
worker, err := manifold.Start(getResource)
c.Check(err, gc.ErrorMatches, "blort")
c.Check(worker, gc.IsNil)
}
func (s *ManifoldSuite) TestSuccess(c *gc.C) {
expectWorker := &fakeWorker{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(_ base.APICaller) (servicescaler.Facade, error) {
return &fakeFacade{}, nil
},
NewWorker: func(_ servicescaler.Config) (worker.Worker, error) {
return expectWorker, nil
},
})
context := dt.StubContext(nil, map[string]interface{}{
"api-caller": &fakeCaller{},
})
worker, err := manifold.Start(context)
c.Check(err, jc.ErrorIsNil)
c.Check(worker, gc.Equals, expectWorker)
}
func (s *ManifoldSuite) TestSuccess(c *gc.C) {
expectWorker := &fakeWorker{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(_ base.APICaller) (servicescaler.Facade, error) {
return &fakeFacade{}, nil
},
NewWorker: func(_ servicescaler.Config) (worker.Worker, error) {
return expectWorker, nil
},
})
getResource := dt.StubGetResource(dt.StubResources{
"api-caller": dt.StubResource{Output: &fakeCaller{}},
})
worker, err := manifold.Start(getResource)
c.Check(err, jc.ErrorIsNil)
c.Check(worker, gc.Equals, expectWorker)
}
func (s *ManifoldSuite) TestStartWorkerError(c *gc.C) {
expectFacade := &fakeFacade{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(_ base.APICaller) (servicescaler.Facade, error) {
return expectFacade, nil
},
NewWorker: func(config servicescaler.Config) (worker.Worker, error) {
c.Check(config.Validate(), jc.ErrorIsNil)
c.Check(config.Facade, gc.Equals, expectFacade)
return nil, errors.New("splot")
},
})
context := dt.StubContext(nil, map[string]interface{}{
"api-caller": &fakeCaller{},
})
worker, err := manifold.Start(context)
c.Check(err, gc.ErrorMatches, "splot")
c.Check(worker, gc.IsNil)
}
func (s *ManifoldSuite) TestStartWorkerError(c *gc.C) {
expectFacade := &fakeFacade{}
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "api-caller",
NewFacade: func(_ base.APICaller) (servicescaler.Facade, error) {
return expectFacade, nil
},
NewWorker: func(config servicescaler.Config) (worker.Worker, error) {
c.Check(config.Validate(), jc.ErrorIsNil)
c.Check(config.Facade, gc.Equals, expectFacade)
return nil, errors.New("splot")
},
})
getResource := dt.StubGetResource(dt.StubResources{
"api-caller": dt.StubResource{Output: &fakeCaller{}},
})
worker, err := manifold.Start(getResource)
c.Check(err, gc.ErrorMatches, "splot")
c.Check(worker, gc.IsNil)
}
// Manifolds returns a set of interdependent dependency manifolds that will
// run together to administer a model, as configured.
func Manifolds(config ManifoldsConfig) dependency.Manifolds {
modelTag := config.Agent.CurrentConfig().Model()
return dependency.Manifolds{
// The first group are foundational; the agent and clock
// which wrap those supplied in config, and the api-caller
// through everything else communicates with the apiserver.
agentName: agent.Manifold(config.Agent),
clockName: clockManifold(config.Clock),
apiCallerName: apicaller.Manifold(apicaller.ManifoldConfig{
AgentName: agentName,
APIOpen: apicaller.APIOpen,
NewConnection: apicaller.OnlyConnect,
}),
// The discover spaces gate is used to coordinate workers which
// shouldn't do anything until the discoverspaces worker has completed
// its first discovery attempt.
discovertSpacesCheckGateName: gate.ManifoldEx(config.DiscoverSpacesCheckLock),
// All other manifolds should depend on at least one of these
// three, which handle all the tasks that are safe and sane
// to run in *all* controller machines.
notDeadFlagName: lifeflag.Manifold(lifeflag.ManifoldConfig{
APICallerName: apiCallerName,
Entity: modelTag,
Result: life.IsNotDead,
Filter: lifeFilter,
NewFacade: lifeflag.NewFacade,
NewWorker: lifeflag.NewWorker,
}),
notAliveFlagName: lifeflag.Manifold(lifeflag.ManifoldConfig{
APICallerName: apiCallerName,
Entity: modelTag,
Result: life.IsNotAlive,
Filter: lifeFilter,
NewFacade: lifeflag.NewFacade,
NewWorker: lifeflag.NewWorker,
}),
isResponsibleFlagName: singular.Manifold(singular.ManifoldConfig{
ClockName: clockName,
AgentName: agentName,
APICallerName: apiCallerName,
Duration: config.RunFlagDuration,
NewFacade: singular.NewFacade,
NewWorker: singular.NewWorker,
}),
// Everything else should be wrapped in ifResponsible,
// ifNotAlive, or ifNotDead, to ensure that only a single
// controller is administering this model at a time.
//
// NOTE: not perfectly reliable at this stage? i.e. a worker
// that ignores its stop signal for "too long" might continue
// to take admin actions after the window of responsibility
// closes. This *is* a pre-existing problem, but demands some
// thought/care: e.g. should we make sure the apiserver also
// closes any connections that lose responsibility..? can we
// make sure all possible environ operations are either time-
// bounded or interruptible? etc
//
// On the other hand, all workers *should* be written in the
// expectation of dealing with a sucky infrastructure running
// things in parallel unexpectedly, just because the universe
// hates us and will engineer matters such that it happens
// sometimes, even when we try to avoid it.
// The environ tracker could/should be used by several other
// workers (firewaller, provisioners, address-cleaner?).
environTrackerName: ifResponsible(environ.Manifold(environ.ManifoldConfig{
APICallerName: apiCallerName,
NewEnvironFunc: environs.New,
})),
// The undertaker is currently the only ifNotAlive worker.
undertakerName: ifNotAlive(undertaker.Manifold(undertaker.ManifoldConfig{
APICallerName: apiCallerName,
EnvironName: environTrackerName,
ClockName: clockName,
RemoveDelay: config.ModelRemoveDelay,
NewFacade: undertaker.NewFacade,
NewWorker: undertaker.NewWorker,
})),
// All the rest depend on ifNotDead.
discoverSpacesName: ifNotDead(discoverspaces.Manifold(discoverspaces.ManifoldConfig{
EnvironName: environTrackerName,
APICallerName: apiCallerName,
UnlockerName: discovertSpacesCheckGateName,
NewFacade: discoverspaces.NewFacade,
NewWorker: discoverspaces.NewWorker,
})),
computeProvisionerName: ifNotDead(provisioner.Manifold(provisioner.ManifoldConfig{
AgentName: agentName,
APICallerName: apiCallerName,
})),
storageProvisionerName: ifNotDead(storageprovisioner.ModelManifold(storageprovisioner.ModelManifoldConfig{
APICallerName: apiCallerName,
ClockName: clockName,
Scope: modelTag,
})),
firewallerName: ifNotDead(firewaller.Manifold(firewaller.ManifoldConfig{
APICallerName: apiCallerName,
})),
unitAssignerName: ifNotDead(unitassigner.Manifold(unitassigner.ManifoldConfig{
APICallerName: apiCallerName,
})),
serviceScalerName: ifNotDead(servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: apiCallerName,
NewFacade: servicescaler.NewFacade,
NewWorker: servicescaler.New,
})),
instancePollerName: ifNotDead(instancepoller.Manifold(instancepoller.ManifoldConfig{
APICallerName: apiCallerName,
EnvironName: environTrackerName,
})),
charmRevisionUpdaterName: ifNotDead(charmrevisionmanifold.Manifold(charmrevisionmanifold.ManifoldConfig{
APICallerName: apiCallerName,
ClockName: clockName,
Period: config.CharmRevisionUpdateInterval,
NewFacade: charmrevisionmanifold.NewAPIFacade,
NewWorker: charmrevision.NewWorker,
})),
metricWorkerName: ifNotDead(metricworker.Manifold(metricworker.ManifoldConfig{
APICallerName: apiCallerName,
})),
stateCleanerName: ifNotDead(cleaner.Manifold(cleaner.ManifoldConfig{
APICallerName: apiCallerName,
})),
addressCleanerName: ifNotDead(addresser.Manifold(addresser.ManifoldConfig{
APICallerName: apiCallerName,
})),
statusHistoryPrunerName: ifNotDead(statushistorypruner.Manifold(statushistorypruner.ManifoldConfig{
APICallerName: apiCallerName,
MaxLogsPerEntity: config.EntityStatusHistoryCount,
PruneInterval: config.EntityStatusHistoryInterval,
// TODO(fwereade): 2016-03-17 lp:1558657
NewTimer: worker.NewTimer,
})),
}
}
func (s *ManifoldSuite) TestOutput(c *gc.C) {
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{})
c.Check(manifold.Output, gc.IsNil)
}
func (s *ManifoldSuite) TestInputs(c *gc.C) {
manifold := servicescaler.Manifold(servicescaler.ManifoldConfig{
APICallerName: "washington the terrible",
})
c.Check(manifold.Inputs, jc.DeepEquals, []string{"washington the terrible"})
}
