/*
Copyright 2013 CoreOS Inc.

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

     http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/

package store

import (
	"testing"
	"time"

	etcdErr "github.com/coreos/etcd/error"
	"github.com/coreos/etcd/third_party/github.com/stretchr/testify/assert"
)

// Ensure that the store can retrieve an existing value.
func TestStoreGetValue(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.Get("/foo", false, false)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "get", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.Equal(t, *e.Node.Value, "bar", "")
}

// Ensure that the store can recrusively retrieve a directory listing.
// Note that hidden files should not be returned.
func TestStoreGetDirectory(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	s.Create("/foo/bar", false, "X", false, Permanent)
	s.Create("/foo/_hidden", false, "*", false, Permanent)
	s.Create("/foo/baz", true, "", false, Permanent)
	s.Create("/foo/baz/bat", false, "Y", false, Permanent)
	s.Create("/foo/baz/_hidden", false, "*", false, Permanent)
	s.Create("/foo/baz/ttl", false, "Y", false, time.Now().Add(time.Second*3))
	e, err := s.Get("/foo", true, false)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "get", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.Equal(t, len(e.Node.Nodes), 2, "")
	assert.Equal(t, e.Node.Nodes[0].Key, "/foo/bar", "")
	assert.Equal(t, *e.Node.Nodes[0].Value, "X", "")
	assert.Equal(t, e.Node.Nodes[0].Dir, false, "")
	assert.Equal(t, e.Node.Nodes[1].Key, "/foo/baz", "")
	assert.Equal(t, e.Node.Nodes[1].Dir, true, "")
	assert.Equal(t, len(e.Node.Nodes[1].Nodes), 2, "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[0].Key, "/foo/baz/bat", "")
	assert.Equal(t, *e.Node.Nodes[1].Nodes[0].Value, "Y", "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[0].Dir, false, "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[1].Key, "/foo/baz/ttl", "")
	assert.Equal(t, *e.Node.Nodes[1].Nodes[1].Value, "Y", "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[1].Dir, false, "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[1].TTL, 3, "")
}

// Ensure that the store can retrieve a directory in sorted order.
func TestStoreGetSorted(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	s.Create("/foo/x", false, "0", false, Permanent)
	s.Create("/foo/z", false, "0", false, Permanent)
	s.Create("/foo/y", true, "", false, Permanent)
	s.Create("/foo/y/a", false, "0", false, Permanent)
	s.Create("/foo/y/b", false, "0", false, Permanent)
	e, err := s.Get("/foo", true, true)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Node.Nodes[0].Key, "/foo/x", "")
	assert.Equal(t, e.Node.Nodes[1].Key, "/foo/y", "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[0].Key, "/foo/y/a", "")
	assert.Equal(t, e.Node.Nodes[1].Nodes[1].Key, "/foo/y/b", "")
	assert.Equal(t, e.Node.Nodes[2].Key, "/foo/z", "")
}

func TestSet(t *testing.T) {
	s := newStore()

	// Set /foo=""
	e, err := s.Set("/foo", false, "", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "set", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "", "")
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(1), "")

	// Set /foo="bar"
	e, err = s.Set("/foo", false, "bar", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "set", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "bar", "")
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(2), "")
	// check prevNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")
	// Set /foo="baz" (for testing prevNode)
	e, err = s.Set("/foo", false, "baz", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "set", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "baz", "")
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(3), "")
	// check prevNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(2), "")

	// Set /dir as a directory
	e, err = s.Set("/dir", true, "", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "set", "")
	assert.Equal(t, e.Node.Key, "/dir", "")
	assert.True(t, e.Node.Dir, "")
	assert.Nil(t, e.Node.Value)
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(4), "")
}

// Ensure that the store can create a new key if it doesn't already exist.
func TestStoreCreateValue(t *testing.T) {
	s := newStore()
	// Create /foo=bar
	e, err := s.Create("/foo", false, "bar", false, Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "bar", "")
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(1), "")

	// Create /empty=""
	e, err = s.Create("/empty", false, "", false, Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/empty", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "", "")
	assert.Nil(t, e.Node.Nodes, "")
	assert.Nil(t, e.Node.Expiration, "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(2), "")

}

// Ensure that the store can create a new directory if it doesn't already exist.
func TestStoreCreateDirectory(t *testing.T) {
	s := newStore()
	e, err := s.Create("/foo", true, "", false, Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.True(t, e.Node.Dir, "")
}

// Ensure that the store fails to create a key if it already exists.
func TestStoreCreateFailsIfExists(t *testing.T) {
	s := newStore()
	// create /foo as dir
	s.Create("/foo", true, "", false, Permanent)

	// create /foo as dir again
	e, _err := s.Create("/foo", true, "", false, Permanent)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeNodeExist, "")
	assert.Equal(t, err.Message, "Key already exists", "")
	assert.Equal(t, err.Cause, "/foo", "")
	assert.Equal(t, err.Index, uint64(1), "")
	assert.Nil(t, e, 0, "")
}

// Ensure that the store can update a key if it already exists.
func TestStoreUpdateValue(t *testing.T) {
	s := newStore()
	// create /foo=bar
	s.Create("/foo", false, "bar", false, Permanent)
	// update /foo="bzr"
	e, err := s.Update("/foo", "baz", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "baz", "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(2), "")
	// check prevNode
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.TTL, 0, "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")

	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "baz", "")

	// update /foo=""
	e, err = s.Update("/foo", "", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.False(t, e.Node.Dir, "")
	assert.Equal(t, *e.Node.Value, "", "")
	assert.Equal(t, e.Node.TTL, 0, "")
	assert.Equal(t, e.Node.ModifiedIndex, uint64(3), "")
	// check prevNode
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "baz", "")
	assert.Equal(t, e.PrevNode.TTL, 0, "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(2), "")

	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "", "")
}

// Ensure that the store cannot update a directory.
func TestStoreUpdateFailsIfDirectory(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	e, _err := s.Update("/foo", "baz", Permanent)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeNotFile, "")
	assert.Equal(t, err.Message, "Not a file", "")
	assert.Equal(t, err.Cause, "/foo", "")
	assert.Nil(t, e, "")
}

// Ensure that the store can update the TTL on a value.
func TestStoreUpdateValueTTL(t *testing.T) {
	s := newStore()

	c := make(chan bool)
	defer func() {
		c <- true
	}()
	go mockSyncService(s.DeleteExpiredKeys, c)

	s.Create("/foo", false, "bar", false, Permanent)
	_, err := s.Update("/foo", "baz", time.Now().Add(500*time.Millisecond))
	e, _ := s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "baz", "")

	time.Sleep(600 * time.Millisecond)
	e, err = s.Get("/foo", false, false)
	assert.Nil(t, e, "")
	assert.Equal(t, err.(*etcdErr.Error).ErrorCode, etcdErr.EcodeKeyNotFound, "")
}

// Ensure that the store can update the TTL on a directory.
func TestStoreUpdateDirTTL(t *testing.T) {
	s := newStore()

	c := make(chan bool)
	defer func() {
		c <- true
	}()
	go mockSyncService(s.DeleteExpiredKeys, c)

	s.Create("/foo", true, "", false, Permanent)
	s.Create("/foo/bar", false, "baz", false, Permanent)
	e, err := s.Update("/foo", "", time.Now().Add(500*time.Millisecond))
	assert.Equal(t, e.Node.Dir, true, "")
	e, _ = s.Get("/foo/bar", false, false)
	assert.Equal(t, *e.Node.Value, "baz", "")

	time.Sleep(600 * time.Millisecond)
	e, err = s.Get("/foo/bar", false, false)
	assert.Nil(t, e, "")
	assert.Equal(t, err.(*etcdErr.Error).ErrorCode, etcdErr.EcodeKeyNotFound, "")
}

// Ensure that the store can delete a value.
func TestStoreDeleteValue(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.Delete("/foo", false, false)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "delete", "")
	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
}

// Ensure that the store can delete a directory if recursive is specified.
func TestStoreDeleteDiretory(t *testing.T) {
	s := newStore()
	// create directory /foo
	s.Create("/foo", true, "", false, Permanent)
	// delete /foo with dir = true and recursive = false
	// this should succeed, since the directory is empty
	e, err := s.Delete("/foo", true, false)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "delete", "")
	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, e.PrevNode.Dir, true, "")

	// create directory /foo and directory /foo/bar
	s.Create("/foo/bar", true, "", false, Permanent)
	// delete /foo with dir = true and recursive = false
	// this should fail, since the directory is not empty
	_, err = s.Delete("/foo", true, false)
	assert.NotNil(t, err, "")

	// delete /foo with dir=false and recursive = true
	// this should succeed, since recursive implies dir=true
	// and recursively delete should be able to delete all
	// items under the given directory
	e, err = s.Delete("/foo", false, true)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "delete", "")

}

// Ensure that the store cannot delete a directory if both of recursive
// and dir are not specified.
func TestStoreDeleteDiretoryFailsIfNonRecursiveAndDir(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	e, _err := s.Delete("/foo", false, false)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeNotFile, "")
	assert.Equal(t, err.Message, "Not a file", "")
	assert.Nil(t, e, "")
}

func TestRootRdOnly(t *testing.T) {
	s := newStore()

	_, err := s.Set("/", true, "", Permanent)
	assert.NotNil(t, err, "")

	_, err = s.Delete("/", true, true)
	assert.NotNil(t, err, "")

	_, err = s.Create("/", true, "", false, Permanent)
	assert.NotNil(t, err, "")

	_, err = s.Update("/", "", Permanent)
	assert.NotNil(t, err, "")

	_, err = s.CompareAndSwap("/", "", 0, "", Permanent)
	assert.NotNil(t, err, "")
}

func TestStoreCompareAndDeletePrevValue(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.CompareAndDelete("/foo", "bar", 0)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "compareAndDelete", "")
	assert.Equal(t, e.Node.Key, "/foo", "")

	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")
	assert.Equal(t, e.PrevNode.CreatedIndex, uint64(1), "")
}

func TestStoreCompareAndDeletePrevValueFailsIfNotMatch(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, _err := s.CompareAndDelete("/foo", "baz", 0)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeTestFailed, "")
	assert.Equal(t, err.Message, "Compare failed", "")
	assert.Nil(t, e, "")
	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "bar", "")
}

func TestStoreCompareAndDeletePrevIndex(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.CompareAndDelete("/foo", "", 1)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "compareAndDelete", "")
	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")
	assert.Equal(t, e.PrevNode.CreatedIndex, uint64(1), "")
}

func TestStoreCompareAndDeletePrevIndexFailsIfNotMatch(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, _err := s.CompareAndDelete("/foo", "", 100)
	assert.NotNil(t, _err, "")
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeTestFailed, "")
	assert.Equal(t, err.Message, "Compare failed", "")
	assert.Nil(t, e, "")
	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "bar", "")
}

// Ensure that the store cannot delete a directory.
func TestStoreCompareAndDeleteDiretoryFail(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	_, _err := s.CompareAndDelete("/foo", "", 0)
	assert.NotNil(t, _err, "")
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeNotFile, "")
}

// Ensure that the store can conditionally update a key if it has a previous value.
func TestStoreCompareAndSwapPrevValue(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.CompareAndSwap("/foo", "bar", 0, "baz", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "compareAndSwap", "")
	assert.Equal(t, *e.Node.Value, "baz", "")
	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")
	assert.Equal(t, e.PrevNode.CreatedIndex, uint64(1), "")

	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "baz", "")
}

// Ensure that the store cannot conditionally update a key if it has the wrong previous value.
func TestStoreCompareAndSwapPrevValueFailsIfNotMatch(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, _err := s.CompareAndSwap("/foo", "wrong_value", 0, "baz", Permanent)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeTestFailed, "")
	assert.Equal(t, err.Message, "Compare failed", "")
	assert.Nil(t, e, "")
	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "bar", "")
}

// Ensure that the store can conditionally update a key if it has a previous index.
func TestStoreCompareAndSwapPrevIndex(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, err := s.CompareAndSwap("/foo", "", 1, "baz", Permanent)
	assert.Nil(t, err, "")
	assert.Equal(t, e.Action, "compareAndSwap", "")
	assert.Equal(t, *e.Node.Value, "baz", "")
	// check pervNode
	assert.NotNil(t, e.PrevNode, "")
	assert.Equal(t, e.PrevNode.Key, "/foo", "")
	assert.Equal(t, *e.PrevNode.Value, "bar", "")
	assert.Equal(t, e.PrevNode.ModifiedIndex, uint64(1), "")
	assert.Equal(t, e.PrevNode.CreatedIndex, uint64(1), "")

	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "baz", "")
}

// Ensure that the store cannot conditionally update a key if it has the wrong previous index.
func TestStoreCompareAndSwapPrevIndexFailsIfNotMatch(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	e, _err := s.CompareAndSwap("/foo", "", 100, "baz", Permanent)
	err := _err.(*etcdErr.Error)
	assert.Equal(t, err.ErrorCode, etcdErr.EcodeTestFailed, "")
	assert.Equal(t, err.Message, "Compare failed", "")
	assert.Nil(t, e, "")
	e, _ = s.Get("/foo", false, false)
	assert.Equal(t, *e.Node.Value, "bar", "")
}

// Ensure that the store can watch for key creation.
func TestStoreWatchCreate(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/foo", false, false, 0)
	c := w.EventChan
	s.Create("/foo", false, "bar", false, Permanent)
	e := nbselect(c)
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	e = nbselect(c)
	assert.Nil(t, e, "")
}

// Ensure that the store can watch for recursive key creation.
func TestStoreWatchRecursiveCreate(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/foo", true, false, 0)
	s.Create("/foo/bar", false, "baz", false, Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/foo/bar", "")
}

// Ensure that the store can watch for key updates.
func TestStoreWatchUpdate(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	w, _ := s.Watch("/foo", false, false, 0)
	s.Update("/foo", "baz", Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
}

// Ensure that the store can watch for recursive key updates.
func TestStoreWatchRecursiveUpdate(t *testing.T) {
	s := newStore()
	s.Create("/foo/bar", false, "baz", false, Permanent)
	w, _ := s.Watch("/foo", true, false, 0)
	s.Update("/foo/bar", "baz", Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/foo/bar", "")
}

// Ensure that the store can watch for key deletions.
func TestStoreWatchDelete(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	w, _ := s.Watch("/foo", false, false, 0)
	s.Delete("/foo", false, false)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "delete", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
}

// Ensure that the store can watch for recursive key deletions.
func TestStoreWatchRecursiveDelete(t *testing.T) {
	s := newStore()
	s.Create("/foo/bar", false, "baz", false, Permanent)
	w, _ := s.Watch("/foo", true, false, 0)
	s.Delete("/foo/bar", false, false)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "delete", "")
	assert.Equal(t, e.Node.Key, "/foo/bar", "")
}

// Ensure that the store can watch for CAS updates.
func TestStoreWatchCompareAndSwap(t *testing.T) {
	s := newStore()
	s.Create("/foo", false, "bar", false, Permanent)
	w, _ := s.Watch("/foo", false, false, 0)
	s.CompareAndSwap("/foo", "bar", 0, "baz", Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "compareAndSwap", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
}

// Ensure that the store can watch for recursive CAS updates.
func TestStoreWatchRecursiveCompareAndSwap(t *testing.T) {
	s := newStore()
	s.Create("/foo/bar", false, "baz", false, Permanent)
	w, _ := s.Watch("/foo", true, false, 0)
	s.CompareAndSwap("/foo/bar", "baz", 0, "bat", Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "compareAndSwap", "")
	assert.Equal(t, e.Node.Key, "/foo/bar", "")
}

// Ensure that the store can watch for key expiration.
func TestStoreWatchExpire(t *testing.T) {
	s := newStore()

	stopChan := make(chan bool)
	defer func() {
		stopChan <- true
	}()
	go mockSyncService(s.DeleteExpiredKeys, stopChan)

	s.Create("/foo", false, "bar", false, time.Now().Add(500*time.Millisecond))
	s.Create("/foofoo", false, "barbarbar", false, time.Now().Add(500*time.Millisecond))

	w, _ := s.Watch("/", true, false, 0)
	c := w.EventChan
	e := nbselect(c)
	assert.Nil(t, e, "")
	time.Sleep(600 * time.Millisecond)
	e = nbselect(c)
	assert.Equal(t, e.Action, "expire", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	w, _ = s.Watch("/", true, false, 4)
	e = nbselect(w.EventChan)
	assert.Equal(t, e.Action, "expire", "")
	assert.Equal(t, e.Node.Key, "/foofoo", "")
}

// Ensure that the store can watch in streaming mode.
func TestStoreWatchStream(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/foo", false, true, 0)
	// first modification
	s.Create("/foo", false, "bar", false, Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.Equal(t, *e.Node.Value, "bar", "")
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
	// second modification
	s.Update("/foo", "baz", Permanent)
	e = nbselect(w.EventChan)
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/foo", "")
	assert.Equal(t, *e.Node.Value, "baz", "")
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store can recover from a previously saved state.
func TestStoreRecover(t *testing.T) {
	s := newStore()
	s.Create("/foo", true, "", false, Permanent)
	s.Create("/foo/x", false, "bar", false, Permanent)
	s.Create("/foo/y", false, "baz", false, Permanent)
	b, err := s.Save()

	s2 := newStore()
	s2.Recovery(b)

	e, err := s.Get("/foo/x", false, false)
	assert.Nil(t, err, "")
	assert.Equal(t, *e.Node.Value, "bar", "")

	e, err = s.Get("/foo/y", false, false)
	assert.Nil(t, err, "")
	assert.Equal(t, *e.Node.Value, "baz", "")
}

// Ensure that the store can recover from a previously saved state that includes an expiring key.
func TestStoreRecoverWithExpiration(t *testing.T) {
	s := newStore()

	c := make(chan bool)
	defer func() {
		c <- true
	}()
	go mockSyncService(s.DeleteExpiredKeys, c)

	s.Create("/foo", true, "", false, Permanent)
	s.Create("/foo/x", false, "bar", false, Permanent)
	s.Create("/foo/y", false, "baz", false, time.Now().Add(5*time.Millisecond))
	b, err := s.Save()

	time.Sleep(10 * time.Millisecond)

	s2 := newStore()

	c2 := make(chan bool)
	defer func() {
		c2 <- true
	}()
	go mockSyncService(s2.DeleteExpiredKeys, c2)

	s2.Recovery(b)

	time.Sleep(600 * time.Millisecond)

	e, err := s.Get("/foo/x", false, false)
	assert.Nil(t, err, "")
	assert.Equal(t, *e.Node.Value, "bar", "")

	e, err = s.Get("/foo/y", false, false)
	assert.NotNil(t, err, "")
	assert.Nil(t, e, "")
}

// Ensure that the store can watch for hidden keys as long as it's an exact path match.
func TestStoreWatchCreateWithHiddenKey(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/_foo", false, false, 0)
	s.Create("/_foo", false, "bar", false, Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/_foo", "")
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store doesn't see hidden key creates without an exact path match in recursive mode.
func TestStoreWatchRecursiveCreateWithHiddenKey(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/foo", true, false, 0)
	s.Create("/foo/_bar", false, "baz", false, Permanent)
	e := nbselect(w.EventChan)
	assert.Nil(t, e, "")
	w, _ = s.Watch("/foo", true, false, 0)
	s.Create("/foo/_baz", true, "", false, Permanent)
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
	s.Create("/foo/_baz/quux", false, "quux", false, Permanent)
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store doesn't see hidden key updates.
func TestStoreWatchUpdateWithHiddenKey(t *testing.T) {
	s := newStore()
	s.Create("/_foo", false, "bar", false, Permanent)
	w, _ := s.Watch("/_foo", false, false, 0)
	s.Update("/_foo", "baz", Permanent)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "update", "")
	assert.Equal(t, e.Node.Key, "/_foo", "")
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store doesn't see hidden key updates without an exact path match in recursive mode.
func TestStoreWatchRecursiveUpdateWithHiddenKey(t *testing.T) {
	s := newStore()
	s.Create("/foo/_bar", false, "baz", false, Permanent)
	w, _ := s.Watch("/foo", true, false, 0)
	s.Update("/foo/_bar", "baz", Permanent)
	e := nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store can watch for key deletions.
func TestStoreWatchDeleteWithHiddenKey(t *testing.T) {
	s := newStore()
	s.Create("/_foo", false, "bar", false, Permanent)
	w, _ := s.Watch("/_foo", false, false, 0)
	s.Delete("/_foo", false, false)
	e := nbselect(w.EventChan)
	assert.Equal(t, e.Action, "delete", "")
	assert.Equal(t, e.Node.Key, "/_foo", "")
	e = nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store doesn't see hidden key deletes without an exact path match in recursive mode.
func TestStoreWatchRecursiveDeleteWithHiddenKey(t *testing.T) {
	s := newStore()
	s.Create("/foo/_bar", false, "baz", false, Permanent)
	w, _ := s.Watch("/foo", true, false, 0)
	s.Delete("/foo/_bar", false, false)
	e := nbselect(w.EventChan)
	assert.Nil(t, e, "")
}

// Ensure that the store doesn't see expirations of hidden keys.
func TestStoreWatchExpireWithHiddenKey(t *testing.T) {
	s := newStore()

	stopChan := make(chan bool)
	defer func() {
		stopChan <- true
	}()
	go mockSyncService(s.DeleteExpiredKeys, stopChan)

	s.Create("/_foo", false, "bar", false, time.Now().Add(500*time.Millisecond))
	s.Create("/foofoo", false, "barbarbar", false, time.Now().Add(1000*time.Millisecond))

	w, _ := s.Watch("/", true, false, 0)
	c := w.EventChan
	e := nbselect(c)
	assert.Nil(t, e, "")
	time.Sleep(600 * time.Millisecond)
	e = nbselect(c)
	assert.Nil(t, e, "")
	time.Sleep(600 * time.Millisecond)
	e = nbselect(c)
	assert.Equal(t, e.Action, "expire", "")
	assert.Equal(t, e.Node.Key, "/foofoo", "")
}

// Ensure that the store does see hidden key creates if watching deeper than a hidden key in recursive mode.
func TestStoreWatchRecursiveCreateDeeperThanHiddenKey(t *testing.T) {
	s := newStore()
	w, _ := s.Watch("/_foo/bar", true, false, 0)
	s.Create("/_foo/bar/baz", false, "baz", false, Permanent)

	e := nbselect(w.EventChan)
	assert.NotNil(t, e, "")
	assert.Equal(t, e.Action, "create", "")
	assert.Equal(t, e.Node.Key, "/_foo/bar/baz", "")
}

// Ensure that slow consumers are handled properly.
//
// Since Watcher.EventChan has a buffer of size 1 we can only queue 1
// event per watcher. If the consumer cannot consume the event on time and
// another event arrives, the channel is closed and event is discarded.
// This test ensures that after closing the channel, the store can continue
// to operate correctly.
func TestStoreWatchSlowConsumer(t *testing.T) {
	s := newStore()
	s.Watch("/foo", true, true, 0)       // stream must be true
	s.Set("/foo", false, "1", Permanent) // ok
	s.Set("/foo", false, "2", Permanent) // ok
	s.Set("/foo", false, "3", Permanent) // must not panic
}

// Performs a non-blocking select on an event channel.
func nbselect(c <-chan *Event) *Event {
	select {
	case e := <-c:
		return e
	default:
		return nil
	}
}

func mockSyncService(f func(now time.Time), c chan bool) {
	ticker := time.Tick(time.Millisecond * 500)
	for {
		select {
		case <-c:
			return
		case now := <-ticker:
			f(now)
		}
	}
}