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gerrit.opencord.org / voltha-openolt-adapter / 3d2a8f96b00d554236ed094c1d8f7eff2afb9c50 / . / adaptercore / openolt_flowmgr_test.go
blob: a3dd06243706c434b41891c4c9405fd8c5171caf [file] [log] [blame]
/*
* 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 adaptercore provides the utility for olt devices, flows and statistics
package adaptercore
import (
"context"
"fmt"
"testing"
"time"
"github.com/opencord/voltha-protos/v3/go/voltha"
"github.com/opencord/voltha-lib-go/v3/pkg/db"
fu "github.com/opencord/voltha-lib-go/v3/pkg/flows"
"github.com/opencord/voltha-lib-go/v3/pkg/log"
tp "github.com/opencord/voltha-lib-go/v3/pkg/techprofile"
"github.com/opencord/voltha-openolt-adapter/adaptercore/resourcemanager"
rsrcMgr "github.com/opencord/voltha-openolt-adapter/adaptercore/resourcemanager"
"github.com/opencord/voltha-openolt-adapter/mocks"
ofp "github.com/opencord/voltha-protos/v3/go/openflow_13"
"github.com/opencord/voltha-protos/v3/go/openolt"
openoltpb2 "github.com/opencord/voltha-protos/v3/go/openolt"
tp_pb "github.com/opencord/voltha-protos/v3/go/tech_profile"
)
var flowMgr *OpenOltFlowMgr
func init() {
log.SetDefaultLogger(log.JSON, log.DebugLevel, nil)
flowMgr = newMockFlowmgr()
}
func newMockResourceMgr() *resourcemanager.OpenOltResourceMgr {
ranges := []*openolt.DeviceInfo_DeviceResourceRanges{
{IntfIds: []uint32{0, 1, 2}}}
deviceinfo := &openolt.DeviceInfo{Vendor: "openolt", Model: "openolt", HardwareVersion: "1.0", FirmwareVersion: "1.0",
DeviceId: "olt", DeviceSerialNumber: "openolt", PonPorts: 3, Technology: "Default",
OnuIdStart: 1, OnuIdEnd: 1, AllocIdStart: 1, AllocIdEnd: 1,
GemportIdStart: 1, GemportIdEnd: 1, FlowIdStart: 1, FlowIdEnd: 1,
Ranges: ranges,
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
rsrMgr := resourcemanager.NewResourceMgr(ctx, "olt", "127.0.0.1:2379", "etcd", "olt", deviceinfo)
for key := range rsrMgr.ResourceMgrs {
rsrMgr.ResourceMgrs[key].KVStore = &db.Backend{}
rsrMgr.ResourceMgrs[key].KVStore.Client = &mocks.MockKVClient{}
rsrMgr.ResourceMgrs[key].TechProfileMgr = mocks.MockTechProfile{TpID: key}
}
return rsrMgr
}
func newMockFlowmgr() *OpenOltFlowMgr {
rMgr := newMockResourceMgr()
dh := newMockDeviceHandler()
rMgr.KVStore = &db.Backend{}
rMgr.KVStore.Client = &mocks.MockKVClient{}
dh.resourceMgr = rMgr
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
flwMgr := NewFlowManager(ctx, dh, rMgr)
onuGemInfo1 := make([]rsrcMgr.OnuGemInfo, 2)
onuGemInfo2 := make([]rsrcMgr.OnuGemInfo, 2)
onuGemInfo1[0] = rsrcMgr.OnuGemInfo{OnuID: 1, SerialNumber: "1", IntfID: 1, GemPorts: []uint32{1}}
onuGemInfo2[1] = rsrcMgr.OnuGemInfo{OnuID: 2, SerialNumber: "2", IntfID: 2, GemPorts: []uint32{2}}
flwMgr.onuGemInfo[1] = onuGemInfo1
flwMgr.onuGemInfo[2] = onuGemInfo2
packetInGemPort := make(map[rsrcMgr.PacketInInfoKey]uint32)
packetInGemPort[rsrcMgr.PacketInInfoKey{IntfID: 1, OnuID: 1, LogicalPort: 1}] = 1
packetInGemPort[rsrcMgr.PacketInInfoKey{IntfID: 2, OnuID: 2, LogicalPort: 2}] = 2
flwMgr.packetInGemPort = packetInGemPort
tps := make(map[uint32]tp.TechProfileIf)
for key := range rMgr.ResourceMgrs {
tps[key] = mocks.MockTechProfile{TpID: key}
}
flwMgr.techprofile = tps
interface2mcastQeueuMap := make(map[uint32]*queueInfoBrief)
interface2mcastQeueuMap[0] = &queueInfoBrief{
gemPortID: 4000,
servicePriority: 3,
}
flwMgr.interfaceToMcastQueueMap = interface2mcastQeueuMap
return flwMgr
}
func TestOpenOltFlowMgr_CreateSchedulerQueues(t *testing.T) {
// flowMgr := newMockFlowmgr()
tprofile := &tp.TechProfile{Name: "tp1", SubscriberIdentifier: "subscriber1",
ProfileType: "pt1", NumGemPorts: 1, Version: 1,
InstanceCtrl: tp.InstanceControl{Onu: "1", Uni: "1", MaxGemPayloadSize: "1"},
}
tprofile.UsScheduler.Direction = "UPSTREAM"
tprofile.UsScheduler.AdditionalBw = "AdditionalBW_None"
tprofile.UsScheduler.QSchedPolicy = "WRR"
tprofile2 := tprofile
tprofile2.DsScheduler.Direction = "DOWNSTREAM"
tprofile2.DsScheduler.AdditionalBw = "AdditionalBW_None"
tprofile2.DsScheduler.QSchedPolicy = "WRR"
bands := make([]*ofp.OfpMeterBandHeader, 2)
bands[0] = &ofp.OfpMeterBandHeader{Type: ofp.OfpMeterBandType_OFPMBT_DROP, Rate: 1000, BurstSize: 5000, Data: &ofp.OfpMeterBandHeader_Drop{}}
bands[1] = &ofp.OfpMeterBandHeader{Type: ofp.OfpMeterBandType_OFPMBT_DROP, Rate: 2000, BurstSize: 5000, Data: &ofp.OfpMeterBandHeader_Drop{}}
ofpMeterConfig := &ofp.OfpMeterConfig{Flags: 1, MeterId: 1, Bands: bands}
flowmetadata := &voltha.FlowMetadata{
Meters: []*ofp.OfpMeterConfig{ofpMeterConfig},
}
type args struct {
Dir tp_pb.Direction
IntfID uint32
OnuID uint32
UniID uint32
UniPort uint32
TpInst *tp.TechProfile
MeterID uint32
flowMetadata *voltha.FlowMetadata
}
tests := []struct {
name string
schedQueue schedQueue
wantErr bool
}{
// TODO: Add test cases.
{"CreateSchedulerQueues-1", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 1, flowmetadata}, false},
{"CreateSchedulerQueues-2", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 1, flowmetadata}, false},
{"CreateSchedulerQueues-3", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 2, flowmetadata}, true},
{"CreateSchedulerQueues-4", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 2, flowmetadata}, true},
{"CreateSchedulerQueues-5", schedQueue{tp_pb.Direction_UPSTREAM, 2, 2, 2, 64, 2, tprofile, 2, flowmetadata}, true},
{"CreateSchedulerQueues-6", schedQueue{tp_pb.Direction_DOWNSTREAM, 2, 2, 2, 65, 2, tprofile2, 2, flowmetadata}, true},
{"CreateSchedulerQueues-13", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 1, flowmetadata}, false},
//Negative testcases
{"CreateSchedulerQueues-7", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 1, &voltha.FlowMetadata{}}, true},
{"CreateSchedulerQueues-8", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 0, &voltha.FlowMetadata{}}, true},
{"CreateSchedulerQueues-9", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 1, &voltha.FlowMetadata{}}, true},
{"CreateSchedulerQueues-10", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 2, &voltha.FlowMetadata{}}, true},
{"CreateSchedulerQueues-11", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 2, &voltha.FlowMetadata{}}, true},
{"CreateSchedulerQueues-12", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 2, nil}, true},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if err := flowMgr.CreateSchedulerQueues(ctx, tt.schedQueue); (err != nil) != tt.wantErr {
t.Errorf("OpenOltFlowMgr.CreateSchedulerQueues() error = %v, wantErr %v", err, tt.wantErr)
}
})
}
}
func TestOpenOltFlowMgr_RemoveSchedulerQueues(t *testing.T) {
// flowMgr := newMockFlowmgr()
tprofile := &tp.TechProfile{Name: "tp1", SubscriberIdentifier: "subscriber1",
ProfileType: "pt1", NumGemPorts: 1, Version: 1,
InstanceCtrl: tp.InstanceControl{Onu: "1", Uni: "1", MaxGemPayloadSize: "1"},
}
tprofile.UsScheduler.Direction = "UPSTREAM"
tprofile.UsScheduler.AdditionalBw = "AdditionalBW_None"
tprofile.UsScheduler.QSchedPolicy = "WRR"
tprofile2 := tprofile
tprofile2.DsScheduler.Direction = "DOWNSTREAM"
tprofile2.DsScheduler.AdditionalBw = "AdditionalBW_None"
tprofile2.DsScheduler.QSchedPolicy = "WRR"
//defTprofile := &tp.DefaultTechProfile{}
type args struct {
Dir tp_pb.Direction
IntfID uint32
OnuID uint32
UniID uint32
UniPort uint32
TpInst *tp.TechProfile
}
tests := []struct {
name string
schedQueue schedQueue
wantErr bool
}{
// TODO: Add test cases.
{"RemoveSchedulerQueues", schedQueue{tp_pb.Direction_UPSTREAM, 1, 1, 1, 64, 1, tprofile, 0, nil}, false},
{"RemoveSchedulerQueues", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 0, nil}, false},
// negative test cases
{"RemoveSchedulerQueues", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 0, nil}, false},
{"RemoveSchedulerQueues", schedQueue{tp_pb.Direction_DOWNSTREAM, 1, 1, 1, 65, 1, tprofile2, 0, nil}, false},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if err := flowMgr.RemoveSchedulerQueues(ctx, tt.schedQueue); (err != nil) != tt.wantErr {
t.Errorf("OpenOltFlowMgr.RemoveSchedulerQueues() error = %v, wantErr %v", err, tt.wantErr)
}
})
}
}
func TestOpenOltFlowMgr_RemoveFlow(t *testing.T) {
// flowMgr := newMockFlowmgr()
log.Debug("Info Warning Error: Starting RemoveFlow() test")
fa := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(2),
fu.Metadata_ofp(2),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 101)),
fu.Output(1),
},
}
ofpstats := fu.MkFlowStat(fa)
ofpstats.Cookie = ofpstats.Id
lldpFa := &fu.FlowArgs{
KV: fu.OfpFlowModArgs{"priority": 1000, "cookie": 48132224281636694},
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1),
fu.EthType(0x88CC),
fu.TunnelId(536870912),
},
Actions: []*ofp.OfpAction{
fu.Output(uint32(ofp.OfpPortNo_OFPP_CONTROLLER)),
},
}
lldpofpstats := fu.MkFlowStat(lldpFa)
//lldpofpstats.Cookie = lldpofpstats.Id
dhcpFa := &fu.FlowArgs{
KV: fu.OfpFlowModArgs{"priority": 1000, "cookie": 48132224281636694},
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1),
fu.UdpSrc(67),
//fu.TunnelId(536870912),
fu.IpProto(17),
},
Actions: []*ofp.OfpAction{
fu.Output(uint32(ofp.OfpPortNo_OFPP_CONTROLLER)),
},
}
dhcpofpstats := fu.MkFlowStat(dhcpFa)
//dhcpofpstats.Cookie = dhcpofpstats.Id
//multicast flow
multicastFa := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65536),
fu.VlanVid(660), //vlan
fu.Metadata_ofp(uint64(66)), //inner vlan
fu.EthType(0x800), //ipv4
fu.Ipv4Dst(3809869825), //227.22.0.1
},
Actions: []*ofp.OfpAction{
fu.Group(1),
},
}
multicastOfpStats := fu.MkFlowStat(multicastFa)
multicastOfpStats.Id = 1
type args struct {
flow *ofp.OfpFlowStats
}
tests := []struct {
name string
args args
}{
// TODO: Add test cases.
{"RemoveFlow", args{flow: ofpstats}},
{"RemoveFlow", args{flow: lldpofpstats}},
{"RemoveFlow", args{flow: dhcpofpstats}},
{"RemoveFlow", args{flow: multicastOfpStats}},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
flowMgr.RemoveFlow(ctx, tt.args.flow)
})
}
// t.Error("=====")
}
func TestOpenOltFlowMgr_AddFlow(t *testing.T) {
// flowMgr := newMockFlowmgr()
kw := make(map[string]uint64)
kw["table_id"] = 1
kw["meter_id"] = 1
kw["write_metadata"] = 0x4000000000 // Tech-Profile-ID 64
// Upstream flow
fa := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65536),
fu.PushVlan(0x8100),
},
KV: kw,
}
// Downstream flow
fa3 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65536),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
//fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 101)),
fu.PopVlan(),
fu.Output(536870912),
},
KV: kw,
}
fa2 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1000),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 101)),
fu.Output(65533),
},
KV: kw,
}
// TODO Add LLDP flow
// TODO Add DHCP flow
// Flows for negative scenarios
// Failure in formulateActionInfoFromFlow()
fa4 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1000),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
fu.Experimenter(257, []byte{1, 2, 3, 4}),
},
KV: kw,
}
// Invalid Output
fa5 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1000),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
fu.Output(0),
},
KV: kw,
}
// Tech-Profile-ID update (not supported)
kw6 := make(map[string]uint64)
kw6["table_id"] = 1
kw6["meter_id"] = 1
kw6["write_metadata"] = 0x4100000000 // TpID Other than the stored one
fa6 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.TunnelId(16),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65535),
},
KV: kw6,
}
lldpFa := &fu.FlowArgs{
KV: fu.OfpFlowModArgs{"priority": 1000, "cookie": 48132224281636694},
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1),
fu.EthType(0x88CC),
fu.TunnelId(536870912),
},
Actions: []*ofp.OfpAction{
fu.Output(uint32(ofp.OfpPortNo_OFPP_CONTROLLER)),
},
}
dhcpFa := &fu.FlowArgs{
KV: fu.OfpFlowModArgs{"priority": 1000, "cookie": 48132224281636694},
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1),
fu.UdpSrc(67),
//fu.TunnelId(536870912),
fu.IpProto(17),
},
Actions: []*ofp.OfpAction{
fu.Output(uint32(ofp.OfpPortNo_OFPP_CONTROLLER)),
},
}
igmpFa := &fu.FlowArgs{
KV: fu.OfpFlowModArgs{"priority": 1000, "cookie": 48132224281636694},
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(1),
fu.UdpSrc(67),
//fu.TunnelId(536870912),
fu.IpProto(2),
},
Actions: []*ofp.OfpAction{
fu.Output(uint32(ofp.OfpPortNo_OFPP_CONTROLLER)),
},
}
fa9 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.TunnelId(16),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
fu.VlanPcp(1000),
fu.UdpDst(65535),
fu.UdpSrc(536870912),
fu.Ipv4Dst(65535),
fu.Ipv4Src(536870912),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65535),
},
KV: kw6,
}
fa10 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65533),
// fu.TunnelId(16),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
fu.VlanPcp(1000),
fu.UdpDst(65535),
fu.UdpSrc(536870912),
fu.Ipv4Dst(65535),
fu.Ipv4Src(536870912),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65535),
},
KV: kw6,
}
//multicast flow
fa11 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65536),
fu.VlanVid(660), //vlan
fu.Metadata_ofp(uint64(66)), //inner vlan
fu.EthType(0x800), //ipv4
fu.Ipv4Dst(3809869825), //227.22.0.1
},
Actions: []*ofp.OfpAction{
fu.Group(1),
},
KV: kw6,
}
ofpstats := fu.MkFlowStat(fa)
ofpstats2 := fu.MkFlowStat(fa2)
ofpstats3 := fu.MkFlowStat(fa3)
ofpstats4 := fu.MkFlowStat(fa4)
ofpstats5 := fu.MkFlowStat(fa5)
ofpstats6 := fu.MkFlowStat(fa6)
ofpstats7 := fu.MkFlowStat(lldpFa)
ofpstats8 := fu.MkFlowStat(dhcpFa)
ofpstats9 := fu.MkFlowStat(fa9)
ofpstats10 := fu.MkFlowStat(fa10)
igmpstats := fu.MkFlowStat(igmpFa)
ofpstats11 := fu.MkFlowStat(fa11)
fmt.Println(ofpstats6, ofpstats9, ofpstats10)
ofpMeterConfig := &ofp.OfpMeterConfig{Flags: 1, MeterId: 1}
flowMetadata := &voltha.FlowMetadata{
Meters: []*ofp.OfpMeterConfig{ofpMeterConfig},
}
type args struct {
flow *ofp.OfpFlowStats
flowMetadata *voltha.FlowMetadata
}
tests := []struct {
name string
args args
}{
// TODO: Add test cases.
{"AddFlow", args{flow: ofpstats, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats2, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats3, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats4, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats5, flowMetadata: flowMetadata}},
//{"AddFlow", args{flow: ofpstats6, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats7, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: ofpstats8, flowMetadata: flowMetadata}},
//{"AddFlow", args{flow: ofpstats9, flowMetadata: flowMetadata}},
{"AddFlow", args{flow: igmpstats, flowMetadata: flowMetadata}},
//{"AddFlow", args{flow: ofpstats10, flowMetadata: flowMetadata}},
//ofpstats10
{"AddFlow", args{flow: ofpstats11, flowMetadata: flowMetadata}},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
flowMgr.AddFlow(ctx, tt.args.flow, tt.args.flowMetadata)
})
}
}
func TestOpenOltFlowMgr_UpdateOnuInfo(t *testing.T) {
// flowMgr := newMockFlowmgr()
type args struct {
intfID uint32
onuID uint32
serialNum string
}
tests := []struct {
name string
args args
}{
// TODO: Add test cases.
{"UpdateOnuInfo", args{1, 1, "onu1"}},
{"UpdateOnuInfo", args{2, 3, "onu1"}},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
flowMgr.UpdateOnuInfo(ctx, tt.args.intfID, tt.args.onuID, tt.args.serialNum)
})
}
}
func TestOpenOltFlowMgr_GetLogicalPortFromPacketIn(t *testing.T) {
// flowMgr := newMockFlowmgr()
type args struct {
packetIn *openoltpb2.PacketIndication
}
tests := []struct {
name string
args args
want uint32
wantErr bool
}{
// TODO: Add test cases.
{"GetLogicalPortFromPacketIn", args{packetIn: &openoltpb2.PacketIndication{IntfType: "pon", IntfId: 1, GemportId: 1, FlowId: 100, PortNo: 1, Cookie: 100, Pkt: []byte("GetLogicalPortFromPacketIn")}}, 1, false},
{"GetLogicalPortFromPacketIn", args{packetIn: &openoltpb2.PacketIndication{IntfType: "nni", IntfId: 1, GemportId: 1, FlowId: 100, PortNo: 1, Cookie: 100, Pkt: []byte("GetLogicalPortFromPacketIn")}}, 1048577, false},
// Negative Test cases.
{"GetLogicalPortFromPacketIn", args{packetIn: &openoltpb2.PacketIndication{IntfType: "pon", IntfId: 2, GemportId: 1, FlowId: 100, PortNo: 1, Cookie: 100, Pkt: []byte("GetLogicalPortFromPacketIn")}}, 0, true},
{"GetLogicalPortFromPacketIn", args{packetIn: &openoltpb2.PacketIndication{IntfType: "pon", IntfId: 1, GemportId: 1, FlowId: 100, PortNo: 0, Cookie: 100, Pkt: []byte("GetLogicalPortFromPacketIn")}}, 4112, false},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, err := flowMgr.GetLogicalPortFromPacketIn(ctx, tt.args.packetIn)
if (err != nil) != tt.wantErr {
t.Errorf("OpenOltFlowMgr.GetLogicalPortFromPacketIn() error = %v, wantErr %v", err, tt.wantErr)
return
}
if got != tt.want {
t.Errorf("OpenOltFlowMgr.GetLogicalPortFromPacketIn() = %v, want %v", got, tt.want)
}
})
}
}
func TestOpenOltFlowMgr_GetPacketOutGemPortID(t *testing.T) {
// flwMgr := newMockFlowmgr()
type args struct {
intfID uint32
onuID uint32
portNum uint32
}
tests := []struct {
name string
args args
want uint32
wantErr bool
}{
// TODO: Add test cases.
{"GetPacketOutGemPortID", args{intfID: 1, onuID: 1, portNum: 1}, 1, false},
{"GetPacketOutGemPortID", args{intfID: 2, onuID: 2, portNum: 2}, 2, false},
{"GetPacketOutGemPortID", args{intfID: 1, onuID: 2, portNum: 2}, 0, true},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, err := flowMgr.GetPacketOutGemPortID(ctx, tt.args.intfID, tt.args.onuID, tt.args.portNum)
if (err != nil) != tt.wantErr {
t.Errorf("OpenOltFlowMgr.GetPacketOutGemPortID() error = %v, wantErr %v", err, tt.wantErr)
return
}
if got != tt.want {
t.Errorf("OpenOltFlowMgr.GetPacketOutGemPortID() = %v, want %v", got, tt.want)
}
})
}
}
func TestOpenOltFlowMgr_DeleteTechProfileInstance(t *testing.T) {
// flwMgr := newMockFlowmgr()
type args struct {
intfID uint32
onuID uint32
uniID uint32
sn string
tpID uint32
}
tests := []struct {
name string
args args
wantErr bool
}{
// TODO: Add test cases.
{"DeleteTechProfileInstance", args{intfID: 0, onuID: 1, uniID: 1, sn: "", tpID: 64}, false},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if err := flowMgr.DeleteTechProfileInstance(ctx, tt.args.intfID, tt.args.onuID, tt.args.uniID, tt.args.sn, tt.args.tpID); (err != nil) != tt.wantErr {
t.Errorf("OpenOltFlowMgr.DeleteTechProfileInstance() error = %v, wantErr %v", err, tt.wantErr)
}
})
}
}
func TestOpenOltFlowMgr_checkAndAddFlow(t *testing.T) {
// flowMgr := newMockFlowmgr()
kw := make(map[string]uint64)
kw["table_id"] = 1
kw["meter_id"] = 1
kw["write_metadata"] = 0x4000000000 // Tech-Profile-ID 64
// Upstream flow
fa := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.Metadata_ofp(1),
fu.IpProto(17), // dhcp
fu.VlanPcp(0),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65536),
fu.PushVlan(0x8100),
},
KV: kw,
}
// EAPOL
fa2 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.Metadata_ofp(1),
fu.EthType(0x888E),
fu.VlanPcp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 257)),
fu.Output(65536),
fu.PushVlan(0x8100),
},
KV: kw,
}
// HSIA
fa3 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(536870912),
fu.Metadata_ofp(1),
//fu.EthType(0x8100),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0)),
fu.Output(65536),
fu.PushVlan(0x8100),
},
KV: kw,
}
fa4 := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65535),
fu.Metadata_ofp(1),
fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0),
fu.VlanPcp(1),
},
Actions: []*ofp.OfpAction{
//fu.SetField(fu.Metadata_ofp(uint64(ofp.OfpInstructionType_OFPIT_WRITE_METADATA | 2))),
fu.SetField(fu.VlanVid(uint32(ofp.OfpVlanId_OFPVID_PRESENT) | 0)),
fu.Output(536870912),
fu.PopVlan(),
},
KV: kw,
}
classifierInfo := make(map[string]interface{})
actionInfo := make(map[string]interface{})
classifierInfo2 := make(map[string]interface{})
actionInfo2 := make(map[string]interface{})
classifierInfo3 := make(map[string]interface{})
actionInfo3 := make(map[string]interface{})
classifierInfo4 := make(map[string]interface{})
actionInfo4 := make(map[string]interface{})
flowState := fu.MkFlowStat(fa)
flowState2 := fu.MkFlowStat(fa2)
flowState3 := fu.MkFlowStat(fa3)
flowState4 := fu.MkFlowStat(fa4)
formulateClassifierInfoFromFlow(classifierInfo, flowState)
formulateClassifierInfoFromFlow(classifierInfo2, flowState2)
formulateClassifierInfoFromFlow(classifierInfo3, flowState3)
formulateClassifierInfoFromFlow(classifierInfo4, flowState4)
err := formulateActionInfoFromFlow(actionInfo, classifierInfo, flowState)
if err != nil {
// Error logging is already done in the called function
// So just return in case of error
return
}
err = formulateActionInfoFromFlow(actionInfo2, classifierInfo2, flowState2)
if err != nil {
// Error logging is already done in the called function
// So just return in case of error
return
}
err = formulateActionInfoFromFlow(actionInfo3, classifierInfo3, flowState3)
if err != nil {
// Error logging is already done in the called function
// So just return in case of error
return
}
err = formulateActionInfoFromFlow(actionInfo4, classifierInfo4, flowState4)
if err != nil {
// Error logging is already done in the called function
// So just return in case of error
return
}
//ofpMeterConfig := &ofp.OfpMeterConfig{Flags: 1, MeterId: 1}
//flowMetadata := &voltha.FlowMetadata{
// Meters: []*ofp.OfpMeterConfig{ofpMeterConfig},
//}
TpInst := &tp.TechProfile{
Name: "Test-Tech-Profile",
SubscriberIdentifier: "257",
ProfileType: "Mock",
Version: 1,
NumGemPorts: 4,
InstanceCtrl: tp.InstanceControl{
Onu: "1",
Uni: "16",
},
}
type fields struct {
techprofile []tp.TechProfileIf
deviceHandler *DeviceHandler
resourceMgr *rsrcMgr.OpenOltResourceMgr
}
type args struct {
args map[string]uint32
classifierInfo map[string]interface{}
actionInfo map[string]interface{}
flow *ofp.OfpFlowStats
gemPort uint32
intfID uint32
onuID uint32
uniID uint32
portNo uint32
TpInst *tp.TechProfile
allocID []uint32
gemPorts []uint32
TpID uint32
uni string
}
tests := []struct {
name string
fields fields
args args
}{
{
name: "checkAndAddFlow-1",
args: args{
args: nil,
classifierInfo: classifierInfo,
actionInfo: actionInfo,
flow: flowState,
gemPort: 1,
intfID: 1,
onuID: 1,
uniID: 16,
portNo: 1,
TpInst: TpInst,
allocID: []uint32{0x8001, 0x8002, 0x8003, 0x8004},
gemPorts: []uint32{1, 2, 3, 4},
TpID: 64,
uni: "16",
},
},
{
name: "checkAndAddFlow-2",
args: args{
args: nil,
classifierInfo: classifierInfo2,
actionInfo: actionInfo2,
flow: flowState2,
gemPort: 1,
intfID: 1,
onuID: 1,
uniID: 16,
portNo: 1,
TpInst: TpInst,
allocID: []uint32{0x8001, 0x8002, 0x8003, 0x8004},
gemPorts: []uint32{1, 2, 3, 4},
TpID: 64,
uni: "16",
},
},
{
name: "checkAndAddFlow-3",
args: args{
args: nil,
classifierInfo: classifierInfo3,
actionInfo: actionInfo3,
flow: flowState3,
gemPort: 1,
intfID: 1,
onuID: 1,
uniID: 16,
portNo: 1,
TpInst: TpInst,
allocID: []uint32{0x8001, 0x8002, 0x8003, 0x8004},
gemPorts: []uint32{1, 2, 3, 4},
TpID: 64,
uni: "16",
},
},
{
name: "checkAndAddFlow-4",
args: args{
args: nil,
classifierInfo: classifierInfo4,
actionInfo: actionInfo4,
flow: flowState4,
gemPort: 1,
intfID: 1,
onuID: 1,
uniID: 16,
portNo: 1,
TpInst: TpInst,
allocID: []uint32{0x8001, 0x8002, 0x8003, 0x8004},
gemPorts: []uint32{1, 2, 3, 4},
TpID: 64,
uni: "16",
},
},
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
flowMgr.checkAndAddFlow(ctx, tt.args.args, tt.args.classifierInfo, tt.args.actionInfo, tt.args.flow,
tt.args.TpInst, tt.args.gemPorts, tt.args.TpID, tt.args.uni)
})
}
}
func TestOpenOltFlowMgr_TestMulticastFlow(t *testing.T) {
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
//create group
group := newGroup(2, []uint32{1})
flowMgr.AddGroup(ctx, group)
//create multicast flow
multicastFlowArgs := &fu.FlowArgs{
MatchFields: []*ofp.OfpOxmOfbField{
fu.InPort(65536),
fu.VlanVid(660), //vlan
fu.Metadata_ofp(uint64(66)), //inner vlan
fu.EthType(0x800), //ipv4
fu.Ipv4Dst(3809869825), //227.22.0.1
},
Actions: []*ofp.OfpAction{
fu.Group(1),
},
}
ofpStats := fu.MkFlowStat(multicastFlowArgs)
flowMgr.AddFlow(ctx, ofpStats, &voltha.FlowMetadata{})
//add bucket to the group
group = newGroup(2, []uint32{1, 2})
flowMgr.ModifyGroup(ctx, group)
}