func (cs *taskSuite) TestNewTaskSet(c *C) {
ts0 := state.NewTaskSet()
c.Check(ts0.Tasks(), HasLen, 0)
st := state.New(nil)
st.Lock()
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("install", "2...")
ts2 := state.NewTaskSet(t1, t2)
st.Unlock()
c.Assert(ts2.Tasks(), DeepEquals, []*state.Task{t1, t2})
}
func (ts *taskSuite) TestTaskSetWaitAll(c *C) {
st := state.New(nil)
st.Lock()
defer st.Unlock()
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("check", "2...")
t3 := st.NewTask("setup", "3...")
t4 := st.NewTask("link", "4...")
ts12 := state.NewTaskSet(t1, t2)
ts34 := state.NewTaskSet(t3, t4)
ts34.WaitAll(ts12)
c.Assert(t3.WaitTasks(), DeepEquals, []*state.Task{t1, t2})
c.Assert(t4.WaitTasks(), DeepEquals, []*state.Task{t1, t2})
c.Assert(t1.HaltTasks(), HasLen, 2)
c.Assert(t2.HaltTasks(), HasLen, 2)
}
// Disconnect returns a set of tasks for disconnecting an interface.
func Disconnect(s *state.State, plugSnap, plugName, slotSnap, slotName string) (*state.TaskSet, error) {
// TODO: Remove the intent-to-connect from the state so that we no longer
// automatically try to reconnect on reboot.
summary := fmt.Sprintf(i18n.G("Disconnect %s:%s from %s:%s"),
plugSnap, plugName, slotSnap, slotName)
task := s.NewTask("disconnect", summary)
task.Set("slot", interfaces.SlotRef{Snap: slotSnap, Name: slotName})
task.Set("plug", interfaces.PlugRef{Snap: plugSnap, Name: plugName})
return state.NewTaskSet(task), nil
}
func (s *interfaceManagerSuite) addSetupSnapSecurityChange(c *C, ss *snapstate.SnapSetup) *state.Change {
s.state.Lock()
defer s.state.Unlock()
task := s.state.NewTask("setup-profiles", "")
task.Set("snap-setup", ss)
taskset := state.NewTaskSet(task)
change := s.state.NewChange("test", "")
change.AddAll(taskset)
return change
}
// Connect returns a set of tasks for connecting an interface.
//
func Connect(s *state.State, plugSnap, plugName, slotSnap, slotName string) (*state.TaskSet, error) {
// TODO: Store the intent-to-connect in the state so that we automatically
// try to reconnect on reboot (reconnection can fail or can connect with
// different parameters so we cannot store the actual connection details).
summary := fmt.Sprintf(i18n.G("Connect %s:%s to %s:%s"),
plugSnap, plugName, slotSnap, slotName)
task := s.NewTask("connect", summary)
task.Set("slot", interfaces.SlotRef{Snap: slotSnap, Name: slotName})
task.Set("plug", interfaces.PlugRef{Snap: plugSnap, Name: plugName})
return state.NewTaskSet(task), nil
}
func (s *interfaceManagerSuite) addDiscardConnsChange(c *C, snapName string) *state.Change {
s.state.Lock()
defer s.state.Unlock()
task := s.state.NewTask("discard-conns", "")
ss := snapstate.SnapSetup{Name: snapName}
task.Set("snap-setup", ss)
taskset := state.NewTaskSet(task)
change := s.state.NewChange("test", "")
change.AddAll(taskset)
return change
}
func (s *interfaceManagerSuite) addRemoveSnapSecurityChange(c *C, snapName string) *state.Change {
s.state.Lock()
defer s.state.Unlock()
task := s.state.NewTask("remove-profiles", "")
ss := snapstate.SnapSetup{Name: snapName}
task.Set("snap-setup", ss)
taskset := state.NewTaskSet(task)
change := s.state.NewChange("test", "")
change.AddAll(taskset)
return change
}
func (ts *taskSuite) TestTaskSetAddTaskAndAddAll(c *C) {
st := state.New(nil)
st.Lock()
defer st.Unlock()
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("check", "2...")
t3 := st.NewTask("setup", "3...")
t4 := st.NewTask("link", "4...")
ts0 := state.NewTaskSet(t1)
ts0.AddTask(t2)
ts0.AddAll(state.NewTaskSet(t3, t4))
// these do nothing
ts0.AddTask(t2)
ts0.AddAll(state.NewTaskSet(t3, t4))
c.Check(ts0.Tasks(), DeepEquals, []*state.Task{t1, t2, t3, t4})
}
func (ts *taskSuite) TestTaskWaitAll(c *C) {
st := state.New(nil)
st.Lock()
defer st.Unlock()
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("install", "2...")
t3 := st.NewTask("setup", "3...")
t3.WaitAll(state.NewTaskSet(t1, t2))
c.Assert(t3.WaitTasks(), HasLen, 2)
c.Assert(t1.HaltTasks(), DeepEquals, []*state.Task{t3})
c.Assert(t2.HaltTasks(), DeepEquals, []*state.Task{t3})
}
func (ts *taskSuite) TestTaskSetWaitFor(c *C) {
st := state.New(nil)
st.Lock()
defer st.Unlock()
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("install", "2...")
t3 := st.NewTask("setup", "3...")
ts23 := state.NewTaskSet(t2, t3)
ts23.WaitFor(t1)
c.Assert(t2.WaitTasks(), DeepEquals, []*state.Task{t1})
c.Assert(t3.WaitTasks(), DeepEquals, []*state.Task{t1})
c.Assert(t1.HaltTasks(), HasLen, 2)
}
func (cs *changeSuite) TestAddAll(c *C) {
st := state.New(nil)
st.Lock()
defer st.Unlock()
chg := st.NewChange("install", "...")
t1 := st.NewTask("download", "1...")
t2 := st.NewTask("verify", "2...")
chg.AddAll(state.NewTaskSet(t1, t2))
tasks := chg.Tasks()
c.Check(tasks, DeepEquals, []*state.Task{t1, t2})
c.Check(t1.Change(), Equals, chg)
c.Check(t2.Change(), Equals, chg)
}
func installSnap(chg *state.Change, name, channel string, userID int, flags snappy.InstallFlags) error {
st := chg.State()
ts, err := snapstateInstall(st, name, channel, userID, flags)
if err != nil {
return err
}
// ensure that each of our task runs after the existing tasks
chgts := state.NewTaskSet(chg.Tasks()...)
for _, t := range ts.Tasks() {
t.WaitAll(chgts)
}
chg.AddAll(ts)
return nil
}
func (ovs *overlordSuite) TestSettleChain(c *C) {
restoreIntv := overlord.MockEnsureInterval(1 * time.Minute)
defer restoreIntv()
o, err := overlord.New()
c.Assert(err, IsNil)
se := o.Engine()
s := se.State()
rm1 := newRunnerManager(s)
se.AddManager(rm1)
defer o.Engine().Stop()
s.Lock()
defer s.Unlock()
chg := s.NewChange("chg", "...")
t1 := s.NewTask("runMgr1", "1...")
t2 := s.NewTask("runMgr2", "2...")
t2.WaitFor(t1)
chg.AddAll(state.NewTaskSet(t1, t2))
s.Unlock()
o.Settle()
s.Lock()
c.Check(t1.Status(), Equals, state.DoneStatus)
c.Check(t2.Status(), Equals, state.DoneStatus)
var v int
err = s.Get("runMgr1Mark", &v)
c.Check(err, IsNil)
err = s.Get("runMgr2Mark", &v)
c.Check(err, IsNil)
}
func doInstall(s *state.State, curActive bool, snapName, snapPath, channel string, userID int, flags snappy.InstallFlags) (*state.TaskSet, error) {
if err := checkChangeConflict(s, snapName); err != nil {
return nil, err
}
if snapPath == "" && channel == "" {
channel = "stable"
}
var prepare *state.Task
ss := SnapSetup{
Channel: channel,
UserID: userID,
Flags: int(flags),
}
ss.Name = snapName
ss.SnapPath = snapPath
if snapPath != "" {
prepare = s.NewTask("prepare-snap", fmt.Sprintf(i18n.G("Prepare snap %q"), snapPath))
} else {
prepare = s.NewTask("download-snap", fmt.Sprintf(i18n.G("Download snap %q from channel %q"), snapName, channel))
}
prepare.Set("snap-setup", ss)
tasks := []*state.Task{prepare}
addTask := func(t *state.Task) {
t.Set("snap-setup-task", prepare.ID())
tasks = append(tasks, t)
}
// mount
mount := s.NewTask("mount-snap", fmt.Sprintf(i18n.G("Mount snap %q"), snapName))
addTask(mount)
mount.WaitFor(prepare)
precopy := mount
if curActive {
// unlink-current-snap (will stop services for copy-data)
unlink := s.NewTask("unlink-current-snap", fmt.Sprintf(i18n.G("Make current revision for snap %q unavailable"), snapName))
addTask(unlink)
unlink.WaitFor(mount)
precopy = unlink
}
// copy-data (needs stopped services by unlink)
copyData := s.NewTask("copy-snap-data", fmt.Sprintf(i18n.G("Copy snap %q data"), snapName))
addTask(copyData)
copyData.WaitFor(precopy)
// security
setupSecurity := s.NewTask("setup-profiles", fmt.Sprintf(i18n.G("Setup snap %q security profiles"), snapName))
addTask(setupSecurity)
setupSecurity.WaitFor(copyData)
// finalize (wrappers+current symlink)
linkSnap := s.NewTask("link-snap", fmt.Sprintf(i18n.G("Make snap %q available to the system"), snapName))
addTask(linkSnap)
linkSnap.WaitFor(setupSecurity)
return state.NewTaskSet(tasks...), nil
}
// Remove returns a set of tasks for removing snap.
// Note that the state must be locked by the caller.
func Remove(s *state.State, name string, flags snappy.RemoveFlags) (*state.TaskSet, error) {
if err := checkChangeConflict(s, name); err != nil {
return nil, err
}
var snapst SnapState
err := Get(s, name, &snapst)
if err != nil && err != state.ErrNoState {
return nil, err
}
cur := snapst.Current()
if cur == nil {
return nil, fmt.Errorf("cannot find snap %q", name)
}
revision := snapst.Current().Revision
active := snapst.Active
info, err := Info(s, name, revision)
if err != nil {
return nil, err
}
ss := SnapSetup{
Name: name,
Revision: revision,
Flags: int(flags),
}
// check if this is something that can be removed
if !backend.CanRemove(info, active) {
return nil, fmt.Errorf("snap %q is not removable", ss.Name)
}
// trigger remove
discardSnap := s.NewTask("discard-snap", fmt.Sprintf(i18n.G("Remove snap %q from the system"), name))
discardSnap.Set("snap-setup", ss)
discardSnapID := discardSnap.ID()
tasks := ([]*state.Task)(nil)
var chain *state.Task
addNext := func(t *state.Task) {
if chain != nil {
t.WaitFor(chain)
}
if t.ID() != discardSnapID {
t.Set("snap-setup-task", discardSnapID)
}
tasks = append(tasks, t)
chain = t
}
if active {
unlink := s.NewTask("unlink-snap", fmt.Sprintf(i18n.G("Make snap %q unavailable to the system"), name))
addNext(unlink)
}
removeSecurity := s.NewTask("remove-profiles", fmt.Sprintf(i18n.G("Remove security profile for snap %q"), name))
addNext(removeSecurity)
clearData := s.NewTask("clear-snap", fmt.Sprintf(i18n.G("Remove data for snap %q"), name))
addNext(clearData)
addNext(discardSnap)
if len(snapst.Sequence) == 1 {
discardConns := s.NewTask("discard-conns", fmt.Sprintf(i18n.G("Discard interface connections for snap %q"), name))
addNext(discardConns)
}
return state.NewTaskSet(tasks...), nil
}
