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327768f4ad
lnd.xprv/routing/rt/rt_test.go
BitfuryLightning 327768f4ad routing: Move tools inside lnd. Refactor and delete unneeded stuff 
Use [33]byte for graph vertex representation.
Delete unneeded stuff:
1. DeepEqual for graph comparison
2. EdgePath
3. 2-thread BFS
4. Table transfer messages and neighborhood radius
5. Beacons

Refactor:
1. Change ID to Vertex
2. Test use table driven approach
3. Add comments
4. Make graph internal representation private
5. Use wire.OutPoint as  EdgeId
6. Decouple routing messages from routing implementation
7. Delete Async methods
8. Delete unneeded channels and priority buffer from manager
9. Delete unneeded interfaces in internal graph realisation
10. Renamed ID to Vertex
2016-11-23 20:37:43 -06:00

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// Copyright (c) 2016 Bitfury Group Limited
// Distributed under the MIT software license, see the accompanying
// file LICENSE or http://www.opensource.org/licenses/mit-license.php
package rt
import (
"github.com/lightningnetwork/lnd/routing/rt/graph"
"testing"
)
var (
NewID = vertexFromString
)
func vertexFromString(s string) graph.Vertex {
return graph.NewVertex([]byte(s))
}
func edgeIdFromString(s string) graph.EdgeID {
e := graph.EdgeID{}
copy(e.Hash[:], []byte(s))
return e
}
func TestRT(t *testing.T) {
r := NewRoutingTable()
r.AddNodes(vertexFromString("1"), vertexFromString("2"))
r.AddChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID"), nil)
if !r.HasChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(1, 2) == false, want true`)
}
if !r.HasChannel(vertexFromString("2"), vertexFromString("1"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(2, 1) == false, want true`)
}
}
func TestDiff(t *testing.T) {
r := NewRoutingTable()
buff := r.NewDiffBuff()
// Add 2 channels
r.AddNodes(vertexFromString("1"), vertexFromString("2"), vertexFromString("3"))
r.AddChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID"), nil)
r.AddChannel(vertexFromString("2"), vertexFromString("3"), edgeIdFromString("EdgeID"), nil)
r1 := NewRoutingTable()
r1.ApplyDiffBuff(buff)
if !r.HasChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(1, 2) == false, want true`)
}
if !r.HasChannel(vertexFromString("2"), vertexFromString("3"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(2, 3) == false, want true`)
}
// Remove channel
r.RemoveChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID"))
r1.ApplyDiffBuff(buff)
if r.HasChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(1, 2) == true, want false`)
}
if r.HasChannel(vertexFromString("2"), vertexFromString("1"), edgeIdFromString("EdgeID")) {
t.Error(`r.HasChannel(2, 1) == true, want false`)
}
}
func TestRTChannels(t *testing.T) {
rt := NewRoutingTable()
rt.AddNodes(vertexFromString("1"), vertexFromString("2"), vertexFromString("3"))
rt.AddChannel(vertexFromString("1"), vertexFromString("2"), edgeIdFromString("EdgeID"), nil)
rt.AddChannel(NewID("2"), NewID("3"), edgeIdFromString("EdgeID"), nil)
channels := rt.AllChannels()
if len(channels) != 2 {
t.Errorf(`rt.AllChannels == %v, want %v`, len(channels), 2)
}
}
func TestRTAddTable(t *testing.T) {
rt1 := NewRoutingTable()
rt1.AddNodes(NewID("0"), NewID("1"), NewID("2"), NewID("3"), NewID("5"), NewID("6"))
rt1.AddChannel(NewID("0"), NewID("1"), edgeIdFromString("EdgeID"), nil)
rt1.AddChannel(NewID("1"), NewID("2"), edgeIdFromString("EdgeID"), nil)
rt2 := NewRoutingTable()
rt2.AddNodes(NewID("0"), NewID("1"), NewID("2"), NewID("3"), NewID("5"), NewID("6"))
rt2.AddChannel(NewID("2"), NewID("3"), edgeIdFromString("EdgeID"), nil)
rt2.AddChannel(NewID("5"), NewID("6"), edgeIdFromString("EdgeID"), nil)
rt1.AddTable(rt2)
expectedChannels := [][]graph.Vertex{
[]graph.Vertex{NewID("0"), NewID("1")},
[]graph.Vertex{NewID("1"), NewID("2")},
[]graph.Vertex{NewID("2"), NewID("3")},
[]graph.Vertex{NewID("5"), NewID("6")},
}
for _, c := range expectedChannels {
if !rt1.HasChannel(c[0], c[1], edgeIdFromString("EdgeID")) {
t.Errorf("After addition, channel between %v and %v is absent", c[0], c[1])
}
}
}
func TestChannelInfoCopy(t *testing.T) {
c := &graph.ChannelInfo{Cpt: 10, Wgt: 10}
c1 := c.Copy()
if *c != *c1 {
t.Errorf("*c.Copy() != *c, *c=%v, *c.Copy()=%v", *c, *c1)
}
c2 := (*graph.ChannelInfo)(nil)
c2ans := c2.Copy()
if c2ans != nil {
t.Errorf("c.Copy()=%v, for c=nil, want nil", c2ans)
}
}
func TestRTCopy(t *testing.T) {
r := NewRoutingTable()
// Add 2 channels
r.AddNodes(NewID("1"), NewID("2"), NewID("3"))
r.AddChannel(NewID("1"), NewID("2"), edgeIdFromString("EdgeID"), &graph.ChannelInfo{10, 11})
r.AddChannel(NewID("2"), NewID("3"), edgeIdFromString("EdgeID"), &graph.ChannelInfo{20, 21})
// Create copy of this rt and make sure they are equal
rCopy := r.Copy()
channelsExp := []struct {
id1, id2 graph.Vertex
edgeID graph.EdgeID
info *graph.ChannelInfo
isErrNil bool
}{
{NewID("1"), NewID("2"), edgeIdFromString("EdgeID"), &graph.ChannelInfo{10, 11}, true},
{NewID("2"), NewID("3"), edgeIdFromString("EdgeID"), &graph.ChannelInfo{20, 21}, true},
// Channel do not exist
{NewID("3"), NewID("4"), edgeIdFromString("EdgeID"), nil, false},
}
for _, c := range channelsExp {
info, err := rCopy.GetChannelInfo(c.id1, c.id2, c.edgeID)
if (err != nil) && (info != nil) {
t.Errorf("rCopy.GetChannelInfo give not nil result and err")
continue
}
if (err == nil) != c.isErrNil {
t.Errorf("err == nil: %v, want: %v, err: %v", err == nil, c.isErrNil, err)
continue
}
if info == nil && c.info != nil {
t.Errorf("rCopy.GetChannelInfo(%v, %v, %v)==nil, nil. want <not nil>", c.id1, c.id2, c.edgeID)
continue
}
if info != nil && c.info == nil {
t.Errorf("rCopy.GetChannelInfo(%v, %v, %v)==<not nil>, nil. want nil", c.id1, c.id2, c.edgeID)
continue
}
if (info != nil) && c.info != nil && *info != *c.info {
t.Errorf("*rCopy.GetChannelInfo(%v, %v, %v)==%v, nil. want %v", c.id1, c.id2, c.edgeID, *info, c.info)
}
}
}
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