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Scott Bakereee8dd82019-09-24 12:52:34 -07001/*
2 * Copyright 2018-present Open Networking Foundation
3
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7
8 * http://www.apache.org/licenses/LICENSE-2.0
9
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16package adaptercore
17
18import (
19 "context"
20 "fmt"
21 "github.com/gogo/protobuf/proto"
Scott Bakerd5057192019-10-24 14:03:35 -070022 com "github.com/opencord/voltha-lib-go/v2/pkg/adapters/common"
23 "github.com/opencord/voltha-lib-go/v2/pkg/log"
Scott Baker91ad57c2019-11-04 09:28:14 -080024 ic "github.com/opencord/voltha-protos/v2/go/inter_container"
25 of "github.com/opencord/voltha-protos/v2/go/openflow_13"
26 "github.com/opencord/voltha-protos/v2/go/voltha"
Scott Bakereee8dd82019-09-24 12:52:34 -070027 "strconv"
28 "strings"
29 "sync"
30 "time"
31)
32
33// A set of pm names to create the initial pm config. This is used only for testing in this simulated adapter
34var pmNames = []string{
35 "tx_64_pkts",
36 "tx_65_127_pkts",
37 "tx_128_255_pkts",
38 "tx_1024_1518_pkts",
39 "tx_1519_9k_pkts",
40 "rx_64_pkts",
41 "rx_64_pkts",
42 "rx_65_127_pkts",
43 "rx_128_255_pkts",
44 "rx_1024_1518_pkts",
45 "rx_1519_9k_pkts",
46}
47
48//DeviceHandler follows the same patterns as ponsim_olt. The only difference is that it does not
49// interact with an OLT device.
50type DeviceHandler struct {
51 deviceId string
52 deviceType string
53 device *voltha.Device
54 coreProxy *com.CoreProxy
55 simulatedOLT *SimulatedONU
56 uniPort *voltha.Port
57 ponPort *voltha.Port
58 exitChannel chan int
59 lockDevice sync.RWMutex
60 metrics *com.PmMetrics
61}
62
63//NewDeviceHandler creates a new device handler
64func NewDeviceHandler(cp *com.CoreProxy, device *voltha.Device, adapter *SimulatedONU) *DeviceHandler {
65 var dh DeviceHandler
66 dh.coreProxy = cp
67 cloned := (proto.Clone(device)).(*voltha.Device)
68 dh.deviceId = cloned.Id
69 dh.deviceType = cloned.Type
70 dh.device = cloned
71 dh.simulatedOLT = adapter
72 dh.exitChannel = make(chan int, 1)
73 dh.lockDevice = sync.RWMutex{}
74 dh.metrics = com.NewPmMetrics(
75 cloned.Id,
76 com.Frequency(150),
77 com.Grouped(false),
78 com.FrequencyOverride(false),
79 com.Metrics(pmNames),
80 )
81 return &dh
82}
83
84// start save the device to the data model
85func (dh *DeviceHandler) start(ctx context.Context) {
86 dh.lockDevice.Lock()
87 defer dh.lockDevice.Unlock()
88 log.Debugw("starting-device-agent", log.Fields{"device": dh.device})
89 // Add the initial device to the local model
90 log.Debug("device-agent-started")
91}
92
93// stop stops the device dh. Not much to do for now
94func (dh *DeviceHandler) stop(ctx context.Context) {
95 dh.lockDevice.Lock()
96 defer dh.lockDevice.Unlock()
97 log.Debug("stopping-device-agent")
98 dh.exitChannel <- 1
99 log.Debug("device-agent-stopped")
100}
101
102func macAddressToUint32Array(mac string) []uint32 {
103 slist := strings.Split(mac, ":")
104 result := make([]uint32, len(slist))
105 var err error
106 var tmp int64
107 for index, val := range slist {
108 if tmp, err = strconv.ParseInt(val, 16, 32); err != nil {
109 return []uint32{1, 2, 3, 4, 5, 6}
110 }
111 result[index] = uint32(tmp)
112 }
113 return result
114}
115
116func (dh *DeviceHandler) AdoptDevice(device *voltha.Device) {
117 log.Debugw("AdoptDevice", log.Fields{"deviceId": device.Id})
118
119 // Update the device info
120 cloned := proto.Clone(device).(*voltha.Device)
121 cloned.Root = false
122 cloned.Vendor = "simulators"
123 cloned.Model = "go-simulators"
124 //cloned.SerialNumber = com.GetRandomSerialNumber()
125 cloned.MacAddress = strings.ToUpper(com.GetRandomMacAddress())
126
127 // Synchronous call to update device - this method is run in its own go routine
128 if err := dh.coreProxy.DeviceUpdate(nil, cloned); err != nil {
129 log.Errorw("error-updating-device", log.Fields{"deviceId": device.Id, "error": err})
130 }
131
132 // Update the device state to DISCOVERED
133 cloned.ConnectStatus = voltha.ConnectStatus_REACHABLE
134 cloned.OperStatus = voltha.OperStatus_DISCOVERED
135 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
136 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
137 }
138
139 // Now, set the initial PM configuration for that device
140 if err := dh.coreProxy.DevicePMConfigUpdate(nil, dh.metrics.ToPmConfigs()); err != nil {
141 log.Errorw("error-updating-PMs", log.Fields{"deviceId": device.Id, "error": err})
142 }
143
144 // Sleep to mimic the omci management channel creation with the OLT
145 time.Sleep(10 * time.Millisecond)
146
147 // Update the device state to ACTIVATING
148 cloned.ConnectStatus = voltha.ConnectStatus_REACHABLE
149 cloned.OperStatus = voltha.OperStatus_ACTIVATING
150 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
151 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
152 }
153
154 // Sleep to mimic the omci discovery ( usually takes a few seconds but for ease of simulated environment we are
155 // setting it to 100ms only.
156 time.Sleep(100 * time.Millisecond)
157
158 // Use the channel Id, assigned by the parent device to me, as the port number
159 uni_port := uint32(2)
160 if device.ProxyAddress != nil {
161 if device.ProxyAddress.ChannelId != 0 {
162 uni_port = device.ProxyAddress.ChannelId
163 }
164 }
165
166 // Now create the UNI Port
167 dh.uniPort = &voltha.Port{
168 PortNo: uni_port,
169 Label: fmt.Sprintf("uni-%d", uni_port),
170 Type: voltha.Port_ETHERNET_UNI,
171 AdminState: voltha.AdminState_ENABLED,
172 OperStatus: voltha.OperStatus_ACTIVE,
173 }
174
175 // Synchronous call to update device - this method is run in its own go routine
176 if err := dh.coreProxy.PortCreated(nil, cloned.Id, dh.uniPort); err != nil {
177 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
178 }
179 // use Pon port number on which this ONU has been detected
180 ponPortNo := uint32(1)
181 if device.ParentPortNo != 0 {
182 ponPortNo = device.ParentPortNo
183 }
184 // Now create the PON Port
185 dh.ponPort = &voltha.Port{
186 PortNo: ponPortNo,
187 Label: fmt.Sprintf("pon-%d", ponPortNo),
188 Type: voltha.Port_PON_ONU,
189 AdminState: voltha.AdminState_ENABLED,
190 OperStatus: voltha.OperStatus_ACTIVE,
191 Peers: []*voltha.Port_PeerPort{{DeviceId: cloned.ParentId, // Peer device is OLT
192 PortNo: uni_port}}, // Peer port is UNI port
193 }
194
195 // Synchronous call to update device - this method is run in its own go routine
196 if err := dh.coreProxy.PortCreated(nil, cloned.Id, dh.ponPort); err != nil {
197 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
198 }
199
200 cloned.ConnectStatus = voltha.ConnectStatus_REACHABLE
201 cloned.OperStatus = voltha.OperStatus_ACTIVE
202
203 // Update the device state
204 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
205 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
206 }
207
208 dh.device = cloned
209}
210
211func (dh *DeviceHandler) GetOfpPortInfo(device *voltha.Device, portNo int64) (*ic.PortCapability, error) {
212 cap := uint32(of.OfpPortFeatures_OFPPF_1GB_FD | of.OfpPortFeatures_OFPPF_FIBER)
213 return &ic.PortCapability{
214 Port: &voltha.LogicalPort{
215 OfpPort: &of.OfpPort{
216 HwAddr: macAddressToUint32Array(dh.device.MacAddress),
217 Config: 0,
218 State: uint32(of.OfpPortState_OFPPS_LIVE),
219 Curr: cap,
220 Advertised: cap,
221 Peer: cap,
222 CurrSpeed: uint32(of.OfpPortFeatures_OFPPF_1GB_FD),
223 MaxSpeed: uint32(of.OfpPortFeatures_OFPPF_1GB_FD),
224 },
225 DeviceId: dh.device.Id,
226 DevicePortNo: uint32(portNo),
227 },
228 }, nil
229}
230
231func (dh *DeviceHandler) Process_inter_adapter_message(msg *ic.InterAdapterMessage) error {
232 log.Debugw("Process_inter_adapter_message", log.Fields{"msgId": msg.Header.Id})
233 return nil
234}
235
236func (dh *DeviceHandler) DisableDevice(device *voltha.Device) {
237 cloned := proto.Clone(device).(*voltha.Device)
238 // Update the all ports state on that device to disable
239 if err := dh.coreProxy.PortsStateUpdate(nil, cloned.Id, voltha.OperStatus_UNKNOWN); err != nil {
240 log.Errorw("updating-ports-failed", log.Fields{"deviceId": device.Id, "error": err})
241 return
242 }
243
244 //Update the device state
245 cloned.ConnectStatus = voltha.ConnectStatus_UNREACHABLE
246 cloned.OperStatus = voltha.OperStatus_UNKNOWN
247 dh.device = cloned
248
249 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
250 log.Errorw("device-state-update-failed", log.Fields{"deviceId": device.Id, "error": err})
251 return
252 }
253 log.Debugw("DisableDevice-end", log.Fields{"deviceId": device.Id})
254}
255
256func (dh *DeviceHandler) ReEnableDevice(device *voltha.Device) {
257
258 cloned := proto.Clone(device).(*voltha.Device)
259 // Update the all ports state on that device to enable
260 if err := dh.coreProxy.PortsStateUpdate(nil, cloned.Id, voltha.OperStatus_ACTIVE); err != nil {
261 log.Errorw("updating-ports-failed", log.Fields{"deviceId": device.Id, "error": err})
262 return
263 }
264
265 //Update the device state
266 cloned.ConnectStatus = voltha.ConnectStatus_REACHABLE
267 cloned.OperStatus = voltha.OperStatus_ACTIVE
268 dh.device = cloned
269
270 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
271 log.Errorw("device-state-update-failed", log.Fields{"deviceId": device.Id, "error": err})
272 return
273 }
274 log.Debugw("ReEnableDevice-end", log.Fields{"deviceId": device.Id})
275}
276
277func (dh *DeviceHandler) DeleteDevice(device *voltha.Device) {
278 cloned := proto.Clone(device).(*voltha.Device)
279 // Update the all ports state on that device to disable
280 if err := dh.coreProxy.DeleteAllPorts(nil, cloned.Id); err != nil {
281 log.Errorw("delete-ports-failed", log.Fields{"deviceId": device.Id, "error": err})
282 return
283 }
284
285 log.Debugw("DeleteDevice-end", log.Fields{"deviceId": device.Id})
286}
287
288func (dh *DeviceHandler) UpdateFlowsBulk(device *voltha.Device, flows *voltha.Flows, groups *voltha.FlowGroups, metadata *voltha.FlowMetadata) {
289 log.Debugw("UpdateFlowsBulk", log.Fields{"deviceId": device.Id, "flows": flows, "groups": groups})
290 // For now we do nothing with it
291 return
292}
293
294func (dh *DeviceHandler) UpdateFlowsIncremental(device *voltha.Device, flowChanges *of.FlowChanges, groupChanges *of.FlowGroupChanges, metadata *voltha.FlowMetadata) {
295 log.Debugw("UpdateFlowsIncremental", log.Fields{"deviceId": device.Id, "flowChanges": flowChanges, "groupChanges": groupChanges})
296 // For now we do nothing with it
297 return
298}
299
300func (dh *DeviceHandler) UpdatePmConfigs(device *voltha.Device, pmConfigs *voltha.PmConfigs) {
301 log.Debugw("UpdatePmConfigs", log.Fields{"deviceId": device.Id, "pmConfigs": pmConfigs})
302 // For now we do nothing with it
303 return
304}
305
306func (dh *DeviceHandler) ReconcileDevice(device *voltha.Device) {
307 // Update the device info
308 cloned := proto.Clone(device).(*voltha.Device)
309 cloned.ConnectStatus = voltha.ConnectStatus_REACHABLE
310 cloned.OperStatus = voltha.OperStatus_ACTIVE
311
312 dh.device = cloned
313
314 // Update the device state
315 if err := dh.coreProxy.DeviceStateUpdate(nil, cloned.Id, cloned.ConnectStatus, cloned.OperStatus); err != nil {
316 log.Errorw("error-creating-nni-port", log.Fields{"deviceId": device.Id, "error": err})
317 }
318}