func (*statusContext) processRelations(service *state.Service) (related map[string][]string, subord []string, err error) {
// TODO(mue) This way the same relation is read twice (for each service).
// Maybe add Relations() to state, read them only once and pass them to each
// call of this function.
relations, err := service.Relations()
if err != nil {
return nil, nil, err
}
var subordSet set.Strings
related = make(map[string][]string)
for _, relation := range relations {
ep, err := relation.Endpoint(service.Name())
if err != nil {
return nil, nil, err
}
relationName := ep.Relation.Name
eps, err := relation.RelatedEndpoints(service.Name())
if err != nil {
return nil, nil, err
}
for _, ep := range eps {
if ep.Scope == charm.ScopeContainer && !service.IsPrincipal() {
subordSet.Add(ep.ServiceName)
}
related[relationName] = append(related[relationName], ep.ServiceName)
}
}
for relationName, serviceNames := range related {
sn := set.NewStrings(serviceNames...)
related[relationName] = sn.SortedValues()
}
return related, subordSet.SortedValues(), nil
}
// collect calls f on all values in src and returns an alphabetically
// ordered list of the returned results without duplicates.
func (src List) collect(f func(*Tools) string) []string {
var seen set.Strings
for _, tools := range src {
seen.Add(f(tools))
}
return seen.SortedValues()
}
func (stringSetSuite) TestUninitialized(c *C) {
var uninitialized set.Strings
c.Assert(uninitialized.Size(), Equals, 0)
c.Assert(uninitialized.IsEmpty(), Equals, true)
// You can get values and sorted values from an unitialized set.
AssertValues(c, uninitialized)
// All contains checks are false
c.Assert(uninitialized.Contains("foo"), Equals, false)
// Remove works on an uninitialized Strings
uninitialized.Remove("foo")
var other set.Strings
// Union returns a new set that is empty but initialized.
c.Assert(uninitialized.Union(other), DeepEquals, set.NewStrings())
c.Assert(uninitialized.Intersection(other), DeepEquals, set.NewStrings())
c.Assert(uninitialized.Difference(other), DeepEquals, set.NewStrings())
other = set.NewStrings("foo", "bar")
c.Assert(uninitialized.Union(other), DeepEquals, other)
c.Assert(uninitialized.Intersection(other), DeepEquals, set.NewStrings())
c.Assert(uninitialized.Difference(other), DeepEquals, set.NewStrings())
c.Assert(other.Union(uninitialized), DeepEquals, other)
c.Assert(other.Intersection(uninitialized), DeepEquals, set.NewStrings())
c.Assert(other.Difference(uninitialized), DeepEquals, other)
// Once something is added, the set becomes initialized.
uninitialized.Add("foo")
AssertValues(c, uninitialized, "foo")
}
func (w *minUnitsWatcher) initial() (*set.Strings, error) {
serviceNames := new(set.Strings)
doc := &minUnitsDoc{}
iter := w.st.minUnits.Find(nil).Iter()
for iter.Next(doc) {
w.known[doc.ServiceName] = doc.Revno
serviceNames.Add(doc.ServiceName)
}
return serviceNames, iter.Err()
}
func (w *minUnitsWatcher) merge(serviceNames *set.Strings, change watcher.Change) error {
serviceName := change.Id.(string)
if change.Revno == -1 {
delete(w.known, serviceName)
serviceNames.Remove(serviceName)
return nil
}
doc := minUnitsDoc{}
if err := w.st.minUnits.FindId(serviceName).One(&doc); err != nil {
return err
}
revno, known := w.known[serviceName]
w.known[serviceName] = doc.Revno
if !known || doc.Revno > revno {
serviceNames.Add(serviceName)
}
return nil
}
func (w *lifecycleWatcher) merge(ids *set.Strings, updates map[string]bool) error {
// Separate ids into those thought to exist and those known to be removed.
changed := []string{}
latest := map[string]Life{}
for id, exists := range updates {
if exists {
changed = append(changed, id)
} else {
latest[id] = Dead
}
}
// Collect life states from ids thought to exist. Any that don't actually
// exist are ignored (we'll hear about them in the next set of updates --
// all that's actually happened in that situation is that the watcher
// events have lagged a little behind reality).
iter := w.coll.Find(D{{"_id", D{{"$in", changed}}}}).Select(lifeFields).Iter()
var doc lifeDoc
for iter.Next(&doc) {
latest[doc.Id] = doc.Life
}
if err := iter.Err(); err != nil {
return err
}
// Add to ids any whose life state is known to have changed.
for id, newLife := range latest {
gone := newLife == Dead
oldLife, known := w.life[id]
switch {
case known && gone:
delete(w.life, id)
case !known && !gone:
w.life[id] = newLife
case known && newLife != oldLife:
w.life[id] = newLife
default:
continue
}
ids.Add(id)
}
return nil
}
// fetchUnitMachineIds returns a set of IDs for machines that
// the specified units reside on, and those machines' ancestors.
func fetchUnitMachineIds(units map[string]map[string]*state.Unit) (*set.Strings, error) {
machineIds := new(set.Strings)
for _, svcUnitMap := range units {
for _, unit := range svcUnitMap {
if !unit.IsPrincipal() {
continue
}
mid, err := unit.AssignedMachineId()
if err != nil {
return nil, err
}
for mid != "" {
machineIds.Add(mid)
mid = state.ParentId(mid)
}
}
}
return machineIds, nil
}