ducky/devices

Paddy 2016-01-02 Parent:1ae5bae472c1

ducky/devices/memstore.go

Update trout to fix routing bug. Update to tip on trout to fix the routing bug that was causing us such issues. See the commit message of trout at 3df515f0cec5 for more details.

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1 package devices

3 import (

4 "sync"

6 "code.secondbit.org/uuid.hg"

7 "golang.org/x/net/context"

8 )

10 // Memstore is an in-memory implementation of Storer, and should

11 // only be used for testing or for temporary local servers.

12 type Memstore struct {

13 devices map[string]Device

14 lock sync.RWMutex

15 }

17 // NewMemstore returns a Memstore that is ready to be used as a

18 // Storer implementation.

19 func NewMemstore() *Memstore {

20 return &Memstore{

21 devices: map[string]Device{},

22 }

23 }

25 // GetDevices returns any Devices in the Memstore that match the

26 // passed IDs. If an ID cannot be matched to a Device in the

27 // Memstore, it is ignored. The result is a map, with the values

28 // being the Devices that could be found, and the keys being the

29 // result of the String() method for each Device's ID.

30 //

31 // An empty map is a possible response, if none of the IDs could

32 // be found.

33 func (m *Memstore) GetDevices(ids []uuid.ID, c context.Context) (map[string]Device, error) {

34 m.lock.RLock()

35 defer m.lock.RUnlock()

37 results := map[string]Device{}

39 for _, id := range ids {

40 device, ok := m.devices[id.String()]

41 if !ok {

42 continue

43 }

44 results[id.String()] = device

45 }

46 return results, nil

47 }

49 // UpdateDevice applies the passed DeviceChange to the Device

50 // in the Memstore specified by the DeviceChange's DeviceID

51 // property. If no Device in the Memstore matches the DeviceChange's

52 // DeviceID property, then an ErrDeviceNotFound error will be

53 // returned.

54 func (m *Memstore) UpdateDevice(change DeviceChange, c context.Context) error {

55 m.lock.Lock()

56 defer m.lock.Unlock()

58 device, ok := m.devices[change.DeviceID.String()]

59 if !ok {

60 return ErrDeviceNotFound

61 }

63 device = ApplyChange(device, change)

64 m.devices[change.DeviceID.String()] = device

66 return nil

67 }

69 // DeleteDevices will remove any Devices from the Memstore that match

70 // the IDs passed in. If an ID can't be matched to a Device in the

71 // Memstore, then it is ignored.

72 func (m *Memstore) DeleteDevices(ids []uuid.ID, c context.Context) error {

73 m.lock.Lock()

74 defer m.lock.Unlock()

76 for _, id := range ids {

77 delete(m.devices, id.String())

78 }

80 return nil

81 }

83 // CreateDevices stores the passed devices in the Memstore as a single

84 // transaction. If a Device's ID already exists in the Memstore, an

85 // ErrDeviceAlreadyExists error with that Device's ID is returned, and

86 // none of the passed Devices are stored.

87 func (m *Memstore) CreateDevices(devices []Device, c context.Context) error {

88 m.lock.Lock()

89 defer m.lock.Unlock()

91 for _, device := range devices {

92 if _, ok := m.devices[device.ID.String()]; ok {

93 return ErrDeviceAlreadyExists(device.ID)

94 }

95 }

97 for _, device := range devices {

98 m.devices[device.ID.String()] = device

99 }

100 return nil

101 }

102

103 // ListDevicesByOwner returns all the Devices in the Memstore that have an

104 // Owner property that matches the passed ID. If no Devices have an Owner

105 // property matching the passed ID, an empty slice is returned.

106 //

107 // ListDevicesByOwner does not guarantee any sort order for the Devices.

108 func (m *Memstore) ListDevicesByOwner(user uuid.ID, c context.Context) ([]Device, error) {

109 var devices []Device

110 for _, device := range m.devices {

111 if !device.Owner.Equal(user) {

112 continue

113 }

114 devices = append(devices, device)

115 }

116 return devices, nil

117 }