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/*
* Copyright 2018-present Open Networking Foundation
* 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 model
import (
"encoding/hex"
"encoding/json"
"fmt"
"github.com/google/uuid"
"github.com/opencord/voltha-go/common/log"
"github.com/opencord/voltha-go/protos/voltha"
"reflect"
"strconv"
"testing"
)
type proxyTest struct {
Root *Root
Backend *Backend
Proxy *Proxy
DbPrefix string
DbType string
DbHost string
DbPort int
DbTimeout int
}
var (
pt = &proxyTest{
DbPrefix: "service/voltha/data/core/0001",
DbType: "etcd",
//DbHost: "10.102.58.0",
DbHost: "localhost",
DbPort: 2379,
DbTimeout: 5,
}
devId string
targetDeviceId string
)
func init() {
log.AddPackage(log.JSON, log.ErrorLevel, nil)
log.UpdateAllLoggers(log.Fields{"instanceId": "proxy_test"})
defer log.CleanUp()
pt.Backend = NewBackend(pt.DbType, pt.DbHost, pt.DbPort, pt.DbTimeout, pt.DbPrefix)
msgClass := &voltha.Voltha{}
root := NewRoot(msgClass, pt.Backend, nil)
pt.Root = root.Load(msgClass)
GetProfiling().Report()
pt.Proxy = pt.Root.Node.GetProxy("/", false)
}
//func Test_Proxy_0_GetRootProxy(t *testing.T) {
// pt.Backend = NewBackend(pt.DbType, pt.DbHost, pt.DbPort, pt.DbTimeout, pt.DbPrefix)
//
// msgClass := &voltha.Voltha{}
// root := NewRoot(msgClass, pt.Backend, nil)
// pt.Root = root.Load(msgClass)
//
// GetProfiling().Report()
//
// pt.Proxy = pt.Root.Node.GetProxy("/", false)
//}
func Test_Proxy_1_GetDevices(t *testing.T) {
devices := pt.Proxy.Get("/devices", 1, false, "")
if len(devices.([]interface{})) == 0 {
t.Error("there are no available devices to retrieve")
} else {
// Save the target device id for later tests
targetDeviceId = devices.([]interface{})[0].(*voltha.Device).Id
t.Logf("retrieved devices: %+v", devices)
}
}
func Test_Proxy_2_GetDevice(t *testing.T) {
basePath := "/devices/" + targetDeviceId
device1 := pt.Proxy.Get(basePath+"/ports", 1, false, "")
t.Logf("retrieved device with ports: %+v", device1)
device2 := pt.Proxy.Get(basePath, 0, false, "")
t.Logf("retrieved device: %+v", device2)
}
//func Test_Proxy_3_AddDevice(t *testing.T) {
// //ports := []*voltha.Port{
// // {
// // PortNo: 123,
// // Label: "test-port-0",
// // Type: voltha.Port_PON_OLT,
// // AdminState: common.AdminState_ENABLED,
// // OperStatus: common.OperStatus_ACTIVE,
// // DeviceId: "etcd_port-0-device-id",
// // Peers: []*voltha.Port_PeerPort{},
// // },
// //}
// devIdBin, _ := uuid.New().MarshalBinary()
// devId := hex.EncodeToString(devIdBin)[:12]
//
// device := &voltha.Device{
// Id: devId,
// Type: "simulated_olt",
// //Root: true,
// //ParentId: "",
// //ParentPortNo: 0,
// //Vendor: "voltha-test",
// //Model: "latest-voltha-simulated-olt",
// //HardwareVersion: "1.0.0",
// //FirmwareVersion: "1.0.0",
// //Images: &voltha.Images{},
// //SerialNumber: "abcdef-123456",
// //VendorId: "DEADBEEF-INC",
// //Adapter: "simulated_olt",
// //Vlan: 1234,
// Address: &voltha.Device_HostAndPort{HostAndPort: "1.2.3.4:5555"},
// //ExtraArgs: "",
// //ProxyAddress: &voltha.Device_ProxyAddress{},
// AdminState: voltha.AdminState_PREPROVISIONED,
// //OperStatus: common.OperStatus_ACTIVE,
// //Reason: "",
// //ConnectStatus: common.ConnectStatus_REACHABLE,
// //Custom: &any.Any{},
// //Ports: ports,
// //Flows: &openflow_13.Flows{},
// //FlowGroups: &openflow_13.FlowGroups{},
// //PmConfigs: &voltha.PmConfigs{},
// //ImageDownloads: []*voltha.ImageDownload{},
// }
//
// //if retrieved := pt.Proxy.Get("/devices/00019b09a90bbe17", 0, false, ""); retrieved == nil {
// // t.Error("Failed to get device")
// //} else {
// // devIdBin, _ := uuid.New().MarshalBinary()
// // devId = "0001" + hex.EncodeToString(devIdBin)[:12]
// // newDevice := Clone(de\).(*voltha.Device)
// // newDevice.Id = devId
//
// if added := pt.Proxy.Add("/devices", device, ""); added == nil {
// t.Error("Failed to add device")
// } else {
// t.Logf("Added device : %+v", added)
// }
// //}
//
//}
func Test_Proxy_3_AddDevice(t *testing.T) {
devIdBin, _ := uuid.New().MarshalBinary()
devId = "0001" + hex.EncodeToString(devIdBin)[:12]
device := &voltha.Device{
Id: devId,
Type: "simulated_olt",
Address: &voltha.Device_HostAndPort{HostAndPort: "1.2.3.4:5555"},
AdminState: voltha.AdminState_PREPROVISIONED,
}
if added := pt.Proxy.Add("/devices", device, ""); added == nil {
t.Error("Failed to add device")
} else {
t.Logf("Added device : %+v", added)
}
}
func Test_Proxy_4_CheckAddedDevice(t *testing.T) {
if d := pt.Proxy.Get("/devices/"+devId, 0, false, ""); !reflect.ValueOf(d).IsValid() {
t.Error("Failed to find added device")
} else {
djson, _ := json.Marshal(d)
t.Logf("Found device: count: %s", djson)
}
}
func Test_Proxy_5_UpdateDevice(t *testing.T) {
if retrieved := pt.Proxy.Get("/devices/"+targetDeviceId, 1, false, ""); retrieved == nil {
t.Error("Failed to get device")
} else {
var fwVersion int
if retrieved.(*voltha.Device).FirmwareVersion == "n/a" {
fwVersion = 0
} else {
fwVersion, _ = strconv.Atoi(retrieved.(*voltha.Device).FirmwareVersion)
fwVersion += 1
}
cloned := reflect.ValueOf(retrieved).Elem().Interface().(voltha.Device)
cloned.FirmwareVersion = strconv.Itoa(fwVersion)
t.Logf("Before update : %+v", cloned)
if afterUpdate := pt.Proxy.Update("/devices/"+targetDeviceId, &cloned, false, ""); afterUpdate == nil {
t.Error("Failed to update device")
} else {
t.Logf("Updated device : %+v", afterUpdate.(Revision).GetData())
}
}
}
func Test_Proxy_6_CheckUpdatedDevice(t *testing.T) {
device := pt.Proxy.Get("/devices/"+targetDeviceId, 0, false, "")
t.Logf("content of updated device: %+v", device)
}
func Test_Proxy_7_RemoveDevice(t *testing.T) {
if removed := pt.Proxy.Remove("/devices/"+devId, ""); removed == nil {
t.Error("Failed to remove device")
} else {
t.Logf("Removed device : %+v", removed)
}
}
func Test_Proxy_8_CheckRemovedDevice(t *testing.T) {
if d := pt.Proxy.Get("/devices/"+devId, 0, false, ""); reflect.ValueOf(d).IsValid() {
djson, _ := json.Marshal(d)
t.Errorf("Device was not removed - %s", djson)
} else {
t.Logf("Device was removed: %s", devId)
}
}
// -----------------------------
// Callback tests
// -----------------------------
func firstCallback(args ...interface{}) interface{} {
name := args[0]
id := args[1]
fmt.Printf("Running first callback - name: %s, id: %s\n", name, id)
return nil
}
func secondCallback(args ...interface{}) interface{} {
name := args[0].(map[string]string)
id := args[1]
fmt.Printf("Running second callback - name: %s, id: %f\n", name["name"], id)
panic("Generating a panic in second callback")
return nil
}
func thirdCallback(args ...interface{}) interface{} {
name := args[0]
id := args[1].(*voltha.Device)
fmt.Printf("Running third callback - name: %+v, id: %s\n", name, id.Id)
return nil
}
func Test_Proxy_Callbacks_1_Register(t *testing.T) {
pt.Proxy.RegisterCallback(PRE_ADD, firstCallback, "abcde", "12345")
m := make(map[string]string)
m["name"] = "fghij"
pt.Proxy.RegisterCallback(PRE_ADD, secondCallback, m, 1.2345)
d := &voltha.Device{Id: "12345"}
pt.Proxy.RegisterCallback(PRE_ADD, thirdCallback, "klmno", d)
}
func Test_Proxy_Callbacks_2_Invoke_WithNoInterruption(t *testing.T) {
pt.Proxy.InvokeCallbacks(PRE_ADD, nil, true)
}
func Test_Proxy_Callbacks_3_Invoke_WithInterruption(t *testing.T) {
pt.Proxy.InvokeCallbacks(PRE_ADD, nil, false)
}
func Test_Proxy_Callbacks_4_Unregister(t *testing.T) {
pt.Proxy.UnregisterCallback(PRE_ADD, firstCallback)
pt.Proxy.UnregisterCallback(PRE_ADD, secondCallback)
pt.Proxy.UnregisterCallback(PRE_ADD, thirdCallback)
}