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Adds watch unit tests and does some related watch cleanup.

This commit is contained in:
James Phillips 2015-10-14 02:11:29 -07:00
parent d29673ead7
commit 6f7f163a76
3 changed files with 304 additions and 46 deletions
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42
consul/state/state_store_test.go
View File

@ -106,48 +106,6 @@ func testSetKey(t *testing.T, s *StateStore, idx uint64, key, value string) {
} }
} }
// verifyWatch will set up a watch channel, call the given function, and then
// make sure the watch fires.
func verifyWatch(t *testing.T, watch Watch, fn func()) {
ch := make(chan struct{})
watch.Wait(ch)
done := make(chan struct{})
go func() {
fn()
close(done)
}()
select {
case <-ch:
case <-done:
t.Fatalf("watch was not notified")
case <-time.After(1 * time.Second):
t.Fatalf("timeout")
}
}
// verifyNoWatch will set up a watch channel, call the given function, and then
// make sure the watch never fires.
func verifyNoWatch(t *testing.T, watch Watch, fn func()) {
ch := make(chan struct{})
watch.Wait(ch)
done := make(chan struct{})
go func() {
fn()
close(done)
}()
select {
case <-ch:
t.Fatalf("watch should not have been notified")
case <-done:
case <-time.After(1 * time.Second):
t.Fatalf("timeout")
}
}
func TestStateStore_maxIndex(t *testing.T) { func TestStateStore_maxIndex(t *testing.T) {
s := testStateStore(t) s := testStateStore(t)

29
consul/state/watch.go
View File

@ -1,6 +1,7 @@
package state package state
import ( import (
"fmt"
"sync" "sync"
"github.com/armon/go-radix" "github.com/armon/go-radix"
@ -42,10 +43,15 @@ func (w *FullTableWatch) Notify() {
} }
// DumbWatchManager is a wrapper that allows nested code to arm full table // DumbWatchManager is a wrapper that allows nested code to arm full table
// watches multiple times but fire them only once. // watches multiple times but fire them only once. This doesn't have any
// way to clear the state, and it's not thread-safe, so it should be used once
// and thrown away inside the context of a single thread.
type DumbWatchManager struct { type DumbWatchManager struct {
// tableWatches holds the full table watches.
tableWatches map[string]*FullTableWatch tableWatches map[string]*FullTableWatch
armed map[string]bool
// armed tracks whether the table should be notified.
armed map[string]bool
} }
// NewDumbWatchManager returns a new dumb watch manager. // NewDumbWatchManager returns a new dumb watch manager.
@ -58,6 +64,10 @@ func NewDumbWatchManager(tableWatches map[string]*FullTableWatch) *DumbWatchMana
// Arm arms the given table's watch. // Arm arms the given table's watch.
func (d *DumbWatchManager) Arm(table string) { func (d *DumbWatchManager) Arm(table string) {
if _, ok := d.tableWatches[table]; !ok {
panic(fmt.Sprintf("unknown table: %s", table))
}
if _, ok := d.armed[table]; !ok { if _, ok := d.armed[table]; !ok {
d.armed[table] = true d.armed[table] = true
} }
@ -82,7 +92,9 @@ type PrefixWatch struct {
// NewPrefixWatch returns a new prefix watch. // NewPrefixWatch returns a new prefix watch.
func NewPrefixWatch() *PrefixWatch { func NewPrefixWatch() *PrefixWatch {
return &PrefixWatch{watches: radix.New()} return &PrefixWatch{
watches: radix.New(),
}
} }
// GetSubwatch returns the notify group for the given prefix. // GetSubwatch returns the notify group for the given prefix.
@ -129,16 +141,25 @@ func (w *PrefixWatch) Notify(prefix string, subtree bool) {
for i := len(cleanup) - 1; i >= 0; i-- { for i := len(cleanup) - 1; i >= 0; i-- {
w.watches.Delete(cleanup[i]) w.watches.Delete(cleanup[i])
} }
// TODO (slackpad) If a watch never fires then we will never clear it
// out of the tree. The old state store had the same behavior, so this
// has been around for a while. We should probably add a prefix scan
// with a function that clears out any notify groups that are empty.
} }
// MultiWatch wraps several watches and allows any of them to trigger the // MultiWatch wraps several watches and allows any of them to trigger the
// caller. // caller.
type MultiWatch struct { type MultiWatch struct {
// watches holds the list of subordinate watches to forward events to.
watches []Watch watches []Watch
} }
// NewMultiWatch returns a new new multi watch over the given set of watches.
func NewMultiWatch(watches ...Watch) *MultiWatch { func NewMultiWatch(watches ...Watch) *MultiWatch {
return &MultiWatch{watches: watches} return &MultiWatch{
watches: watches,
}
} }
// See Watch. // See Watch.

279
consul/state/watch_test.go Normal file
View File

@ -0,0 +1,279 @@
package state
import (
"testing"
)
// verifyWatch will set up a watch channel, call the given function, and then
// make sure the watch fires.
func verifyWatch(t *testing.T, watch Watch, fn func()) {
ch := make(chan struct{}, 1)
watch.Wait(ch)
fn()
select {
case <-ch:
default:
t.Fatalf("watch should have been notified")
}
}
// verifyNoWatch will set up a watch channel, call the given function, and then
// make sure the watch never fires.
func verifyNoWatch(t *testing.T, watch Watch, fn func()) {
ch := make(chan struct{}, 1)
watch.Wait(ch)
fn()
select {
case <-ch:
t.Fatalf("watch should not been notified")
default:
}
}
func TestWatch_FullTableWatch(t *testing.T) {
w := NewFullTableWatch()
// Test the basic trigger with a single watcher.
verifyWatch(t, w, func() {
w.Notify()
})
// Run multiple watchers and make sure they both fire.
verifyWatch(t, w, func() {
verifyWatch(t, w, func() {
w.Notify()
})
})
// Make sure clear works.
ch := make(chan struct{}, 1)
w.Wait(ch)
w.Clear(ch)
w.Notify()
select {
case <-ch:
t.Fatalf("watch should not have been notified")
default:
}
// Make sure notify is a one shot.
w.Wait(ch)
w.Notify()
select {
case <-ch:
default:
t.Fatalf("watch should have been notified")
}
w.Notify()
select {
case <-ch:
t.Fatalf("watch should not have been notified")
default:
}
}
func TestWatch_DumbWatchManager(t *testing.T) {
watches := map[string]*FullTableWatch{
"alice": NewFullTableWatch(),
"bob": NewFullTableWatch(),
"carol": NewFullTableWatch(),
}
// Notify with nothing armed and make sure nothing triggers.
func() {
w := NewDumbWatchManager(watches)
verifyNoWatch(t, watches["alice"], func() {
verifyNoWatch(t, watches["bob"], func() {
verifyNoWatch(t, watches["carol"], func() {
w.Notify()
})
})
})
}()
// Trigger one watch.
func() {
w := NewDumbWatchManager(watches)
verifyWatch(t, watches["alice"], func() {
verifyNoWatch(t, watches["bob"], func() {
verifyNoWatch(t, watches["carol"], func() {
w.Arm("alice")
w.Notify()
})
})
})
}()
// Trigger two watches.
func() {
w := NewDumbWatchManager(watches)
verifyWatch(t, watches["alice"], func() {
verifyNoWatch(t, watches["bob"], func() {
verifyWatch(t, watches["carol"], func() {
w.Arm("alice")
w.Arm("carol")
w.Notify()
})
})
})
}()
// Trigger all three watches.
func() {
w := NewDumbWatchManager(watches)
verifyWatch(t, watches["alice"], func() {
verifyWatch(t, watches["bob"], func() {
verifyWatch(t, watches["carol"], func() {
w.Arm("alice")
w.Arm("bob")
w.Arm("carol")
w.Notify()
})
})
})
}()
// Trigger multiple times.
func() {
w := NewDumbWatchManager(watches)
verifyWatch(t, watches["alice"], func() {
verifyNoWatch(t, watches["bob"], func() {
verifyNoWatch(t, watches["carol"], func() {
w.Arm("alice")
w.Arm("alice")
w.Notify()
})
})
})
}()
// Make sure it panics when asked to arm an unknown table.
func() {
defer func() {
if r := recover(); r == nil {
t.Fatalf("didn't get expected panic")
}
}()
w := NewDumbWatchManager(watches)
w.Arm("nope")
}()
}
func TestWatch_PrefixWatch(t *testing.T) {
w := NewPrefixWatch()
// Hit a specific key.
verifyWatch(t, w.GetSubwatch(""), func() {
verifyWatch(t, w.GetSubwatch("foo/bar/baz"), func() {
verifyNoWatch(t, w.GetSubwatch("foo/bar/zoo"), func() {
verifyNoWatch(t, w.GetSubwatch("nope"), func() {
w.Notify("foo/bar/baz", false)
})
})
})
})
// Make sure cleanup is happening. All that should be left is the
// full-table watch and the un-fired watches.
fn := func(k string, v interface{}) bool {
if k != "" && k != "foo/bar/zoo" && k != "nope" {
t.Fatalf("unexpected watch: %s", k)
}
return false
}
w.watches.WalkPrefix("", fn)
// Delete a subtree.
verifyWatch(t, w.GetSubwatch(""), func() {
verifyWatch(t, w.GetSubwatch("foo/bar/baz"), func() {
verifyWatch(t, w.GetSubwatch("foo/bar/zoo"), func() {
verifyNoWatch(t, w.GetSubwatch("nope"), func() {
w.Notify("foo/", true)
})
})
})
})
// Hit an unknown key.
verifyWatch(t, w.GetSubwatch(""), func() {
verifyNoWatch(t, w.GetSubwatch("foo/bar/baz"), func() {
verifyNoWatch(t, w.GetSubwatch("foo/bar/zoo"), func() {
verifyNoWatch(t, w.GetSubwatch("nope"), func() {
w.Notify("not/in/there", false)
})
})
})
})
}
type MockWatch struct {
Waits map[chan struct{}] int
Clears map[chan struct{}] int
}
func NewMockWatch() *MockWatch {
return &MockWatch{
Waits: make(map[chan struct{}] int),
Clears: make(map[chan struct{}] int),
}
}
func (m *MockWatch) Wait(notifyCh chan struct{}) {
if _, ok := m.Waits[notifyCh]; ok {
m.Waits[notifyCh]++
} else {
m.Waits[notifyCh] = 1
}
}
func (m *MockWatch) Clear(notifyCh chan struct{}) {
if _, ok := m.Clears[notifyCh]; ok {
m.Clears[notifyCh]++
} else {
m.Clears[notifyCh] = 1
}
}
func TestWatch_MultiWatch(t *testing.T) {
w1, w2 := NewMockWatch(), NewMockWatch()
w := NewMultiWatch(w1, w2)
// Do some activity.
c1, c2 := make(chan struct{}), make(chan struct{})
w.Wait(c1)
w.Clear(c1)
w.Wait(c1)
w.Wait(c2)
w.Clear(c1)
w.Clear(c2)
// Make sure all the events were forwarded.
if cnt, ok := w1.Waits[c1]; !ok || cnt != 2 {
t.Fatalf("bad: %d", w1.Waits[c1])
}
if cnt, ok := w1.Clears[c1]; !ok || cnt != 2 {
t.Fatalf("bad: %d", w1.Clears[c1])
}
if cnt, ok := w1.Waits[c2]; !ok || cnt != 1 {
t.Fatalf("bad: %d", w1.Waits[c2])
}
if cnt, ok := w1.Clears[c2]; !ok || cnt != 1 {
t.Fatalf("bad: %d", w1.Clears[c2])
}
if cnt, ok := w2.Waits[c1]; !ok || cnt != 2 {
t.Fatalf("bad: %d", w2.Waits[c1])
}
if cnt, ok := w2.Clears[c1]; !ok || cnt != 2 {
t.Fatalf("bad: %d", w2.Clears[c1])
}
if cnt, ok := w2.Waits[c2]; !ok || cnt != 1 {
t.Fatalf("bad: %d", w2.Waits[c2])
}
if cnt, ok := w2.Clears[c2]; !ok || cnt != 1 {
t.Fatalf("bad: %d", w2.Clears[c2])
}
}