lnd/channeldb/graph_cache_test.go

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package channeldb
import (
"encoding/hex"
"testing"
"github.com/lightningnetwork/lnd/kvdb"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/routing/route"
"github.com/stretchr/testify/require"
)
var (
pubKey1Bytes, _ = hex.DecodeString(
"0248f5cba4c6da2e4c9e01e81d1404dfac0cbaf3ee934a4fc117d2ea9a64" +
"22c91d",
)
pubKey2Bytes, _ = hex.DecodeString(
"038155ba86a8d3b23c806c855097ca5c9fa0f87621f1e7a7d2835ad057f6" +
"f4484f",
)
pubKey1, _ = route.NewVertexFromBytes(pubKey1Bytes)
pubKey2, _ = route.NewVertexFromBytes(pubKey2Bytes)
)
type node struct {
pubKey route.Vertex
features *lnwire.FeatureVector
edgeInfos []*ChannelEdgeInfo
outPolicies []*ChannelEdgePolicy
inPolicies []*ChannelEdgePolicy
}
func (n *node) PubKey() route.Vertex {
return n.pubKey
}
func (n *node) Features() *lnwire.FeatureVector {
return n.features
}
func (n *node) ForEachChannel(tx kvdb.RTx,
cb func(kvdb.RTx, *ChannelEdgeInfo, *ChannelEdgePolicy,
*ChannelEdgePolicy) error) error {
for idx := range n.edgeInfos {
err := cb(
tx, n.edgeInfos[idx], n.outPolicies[idx],
n.inPolicies[idx],
)
if err != nil {
return err
}
}
return nil
}
// TestGraphCacheAddNode tests that a channel going from node A to node B can be
// cached correctly, independent of the direction we add the channel as.
func TestGraphCacheAddNode(t *testing.T) {
runTest := func(nodeA, nodeB route.Vertex) {
t.Helper()
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channelFlagA, channelFlagB := 0, 1
if nodeA == pubKey2 {
channelFlagA, channelFlagB = 1, 0
}
outPolicy1 := &ChannelEdgePolicy{
ChannelID: 1000,
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ChannelFlags: lnwire.ChanUpdateChanFlags(channelFlagA),
Node: &LightningNode{
PubKeyBytes: nodeB,
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Features: lnwire.EmptyFeatureVector(),
},
}
inPolicy1 := &ChannelEdgePolicy{
ChannelID: 1000,
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ChannelFlags: lnwire.ChanUpdateChanFlags(channelFlagB),
Node: &LightningNode{
PubKeyBytes: nodeA,
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Features: lnwire.EmptyFeatureVector(),
},
}
node := &node{
pubKey: nodeA,
features: lnwire.EmptyFeatureVector(),
edgeInfos: []*ChannelEdgeInfo{{
ChannelID: 1000,
// Those are direction independent!
NodeKey1Bytes: pubKey1,
NodeKey2Bytes: pubKey2,
Capacity: 500,
}},
outPolicies: []*ChannelEdgePolicy{outPolicy1},
inPolicies: []*ChannelEdgePolicy{inPolicy1},
}
cache := NewGraphCache()
require.NoError(t, cache.AddNode(nil, node))
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var fromChannels, toChannels []*DirectedChannel
_ = cache.ForEachChannel(nodeA, func(c *DirectedChannel) error {
fromChannels = append(fromChannels, c)
return nil
})
_ = cache.ForEachChannel(nodeB, func(c *DirectedChannel) error {
toChannels = append(toChannels, c)
return nil
})
require.Len(t, fromChannels, 1)
require.Len(t, toChannels, 1)
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require.Equal(t, outPolicy1 != nil, fromChannels[0].OutPolicySet)
assertCachedPolicyEqual(t, inPolicy1, fromChannels[0].InPolicy)
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require.Equal(t, inPolicy1 != nil, toChannels[0].OutPolicySet)
assertCachedPolicyEqual(t, outPolicy1, toChannels[0].InPolicy)
}
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runTest(pubKey1, pubKey2)
runTest(pubKey2, pubKey1)
}
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func assertCachedPolicyEqual(t *testing.T, original *ChannelEdgePolicy,
cached *CachedEdgePolicy) {
require.Equal(t, original.ChannelID, cached.ChannelID)
require.Equal(t, original.MessageFlags, cached.MessageFlags)
require.Equal(t, original.ChannelFlags, cached.ChannelFlags)
require.Equal(t, original.TimeLockDelta, cached.TimeLockDelta)
require.Equal(t, original.MinHTLC, cached.MinHTLC)
require.Equal(t, original.MaxHTLC, cached.MaxHTLC)
require.Equal(t, original.FeeBaseMSat, cached.FeeBaseMSat)
require.Equal(
t, original.FeeProportionalMillionths,
cached.FeeProportionalMillionths,
)
require.Equal(
t,
route.Vertex(original.Node.PubKeyBytes),
cached.ToNodePubKey(),
)
require.Equal(t, original.Node.Features, cached.ToNodeFeatures)
}