bsc/p2p/discover/v4_lookup_test.go
Péter Szilágyi 811a674059 all: update golang/x/ext and fix slice sorting fallout (#27909)
The Go authors updated golang/x/ext to change the function signature of the slices sort method. 
It's an entire shitshow now because x/ext is not tagged, so everyone's codebase just 
picked a new version that some other dep depends on, causing our code to fail building.

This PR updates the dep on our code too and does all the refactorings to follow upstream...
2023-08-12 00:19:12 +02:00

348 lines
12 KiB
Go

// Copyright 2019 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package discover
import (
"crypto/ecdsa"
"fmt"
"net"
"testing"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/p2p/discover/v4wire"
"github.com/ethereum/go-ethereum/p2p/enode"
"github.com/ethereum/go-ethereum/p2p/enr"
"golang.org/x/exp/slices"
)
func TestUDPv4_Lookup(t *testing.T) {
t.Parallel()
test := newUDPTest(t)
// Lookup on empty table returns no nodes.
targetKey, _ := decodePubkey(crypto.S256(), lookupTestnet.target[:])
if results := test.udp.LookupPubkey(targetKey); len(results) > 0 {
t.Fatalf("lookup on empty table returned %d results: %#v", len(results), results)
}
// Seed table with initial node.
fillTable(test.table, []*node{wrapNode(lookupTestnet.node(256, 0))})
// Start the lookup.
resultC := make(chan []*enode.Node, 1)
go func() {
resultC <- test.udp.LookupPubkey(targetKey)
test.close()
}()
// Answer lookup packets.
serveTestnet(test, lookupTestnet)
// Verify result nodes.
results := <-resultC
t.Logf("results:")
for _, e := range results {
t.Logf(" ld=%d, %x", enode.LogDist(lookupTestnet.target.id(), e.ID()), e.ID().Bytes())
}
if len(results) != bucketSize {
t.Errorf("wrong number of results: got %d, want %d", len(results), bucketSize)
}
checkLookupResults(t, lookupTestnet, results)
}
func TestUDPv4_LookupIterator(t *testing.T) {
t.Parallel()
test := newUDPTest(t)
defer test.close()
// Seed table with initial nodes.
bootnodes := make([]*node, len(lookupTestnet.dists[256]))
for i := range lookupTestnet.dists[256] {
bootnodes[i] = wrapNode(lookupTestnet.node(256, i))
}
fillTable(test.table, bootnodes)
go serveTestnet(test, lookupTestnet)
// Create the iterator and collect the nodes it yields.
iter := test.udp.RandomNodes()
seen := make(map[enode.ID]*enode.Node)
for limit := lookupTestnet.len(); iter.Next() && len(seen) < limit; {
seen[iter.Node().ID()] = iter.Node()
}
iter.Close()
// Check that all nodes in lookupTestnet were seen by the iterator.
results := make([]*enode.Node, 0, len(seen))
for _, n := range seen {
results = append(results, n)
}
sortByID(results)
want := lookupTestnet.nodes()
if err := checkNodesEqual(results, want); err != nil {
t.Fatal(err)
}
}
// TestUDPv4_LookupIteratorClose checks that lookupIterator ends when its Close
// method is called.
func TestUDPv4_LookupIteratorClose(t *testing.T) {
t.Parallel()
test := newUDPTest(t)
defer test.close()
// Seed table with initial nodes.
bootnodes := make([]*node, len(lookupTestnet.dists[256]))
for i := range lookupTestnet.dists[256] {
bootnodes[i] = wrapNode(lookupTestnet.node(256, i))
}
fillTable(test.table, bootnodes)
go serveTestnet(test, lookupTestnet)
it := test.udp.RandomNodes()
if ok := it.Next(); !ok || it.Node() == nil {
t.Fatalf("iterator didn't return any node")
}
it.Close()
ncalls := 0
for ; ncalls < 100 && it.Next(); ncalls++ {
if it.Node() == nil {
t.Error("iterator returned Node() == nil node after Next() == true")
}
}
t.Logf("iterator returned %d nodes after close", ncalls)
if it.Next() {
t.Errorf("Next() == true after close and %d more calls", ncalls)
}
if n := it.Node(); n != nil {
t.Errorf("iterator returned non-nil node after close and %d more calls", ncalls)
}
}
func serveTestnet(test *udpTest, testnet *preminedTestnet) {
for done := false; !done; {
done = test.waitPacketOut(func(p v4wire.Packet, to *net.UDPAddr, hash []byte) {
n, key := testnet.nodeByAddr(to)
switch p.(type) {
case *v4wire.Ping:
test.packetInFrom(nil, key, to, &v4wire.Pong{Expiration: futureExp, ReplyTok: hash})
case *v4wire.Findnode:
dist := enode.LogDist(n.ID(), testnet.target.id())
nodes := testnet.nodesAtDistance(dist - 1)
test.packetInFrom(nil, key, to, &v4wire.Neighbors{Expiration: futureExp, Nodes: nodes})
}
})
}
}
// checkLookupResults verifies that the results of a lookup are the closest nodes to
// the testnet's target.
func checkLookupResults(t *testing.T, tn *preminedTestnet, results []*enode.Node) {
t.Helper()
t.Logf("results:")
for _, e := range results {
t.Logf(" ld=%d, %x", enode.LogDist(tn.target.id(), e.ID()), e.ID().Bytes())
}
if hasDuplicates(wrapNodes(results)) {
t.Errorf("result set contains duplicate entries")
}
if !sortedByDistanceTo(tn.target.id(), wrapNodes(results)) {
t.Errorf("result set not sorted by distance to target")
}
wantNodes := tn.closest(len(results))
if err := checkNodesEqual(results, wantNodes); err != nil {
t.Error(err)
}
}
// This is the test network for the Lookup test.
// The nodes were obtained by running lookupTestnet.mine with a random NodeID as target.
var lookupTestnet = &preminedTestnet{
target: hexEncPubkey("5d485bdcbe9bc89314a10ae9231e429d33853e3a8fa2af39f5f827370a2e4185e344ace5d16237491dad41f278f1d3785210d29ace76cd627b9147ee340b1125"),
dists: [257][]*ecdsa.PrivateKey{
251: {
hexEncPrivkey("29738ba0c1a4397d6a65f292eee07f02df8e58d41594ba2be3cf84ce0fc58169"),
hexEncPrivkey("511b1686e4e58a917f7f848e9bf5539d206a68f5ad6b54b552c2399fe7d174ae"),
hexEncPrivkey("d09e5eaeec0fd596236faed210e55ef45112409a5aa7f3276d26646080dcfaeb"),
hexEncPrivkey("c1e20dbbf0d530e50573bd0a260b32ec15eb9190032b4633d44834afc8afe578"),
hexEncPrivkey("ed5f38f5702d92d306143e5d9154fb21819777da39af325ea359f453d179e80b"),
},
252: {
hexEncPrivkey("1c9b1cafbec00848d2c174b858219914b42a7d5c9359b1ca03fd650e8239ae94"),
hexEncPrivkey("e0e1e8db4a6f13c1ffdd3e96b72fa7012293ced187c9dcdcb9ba2af37a46fa10"),
hexEncPrivkey("3d53823e0a0295cb09f3e11d16c1b44d07dd37cec6f739b8df3a590189fe9fb9"),
},
253: {
hexEncPrivkey("2d0511ae9bf590166597eeab86b6f27b1ab761761eaea8965487b162f8703847"),
hexEncPrivkey("6cfbd7b8503073fc3dbdb746a7c672571648d3bd15197ccf7f7fef3d904f53a2"),
hexEncPrivkey("a30599b12827b69120633f15b98a7f6bc9fc2e9a0fd6ae2ebb767c0e64d743ab"),
hexEncPrivkey("14a98db9b46a831d67eff29f3b85b1b485bb12ae9796aea98d91be3dc78d8a91"),
hexEncPrivkey("2369ff1fc1ff8ca7d20b17e2673adc3365c3674377f21c5d9dafaff21fe12e24"),
hexEncPrivkey("9ae91101d6b5048607f41ec0f690ef5d09507928aded2410aabd9237aa2727d7"),
hexEncPrivkey("05e3c59090a3fd1ae697c09c574a36fcf9bedd0afa8fe3946f21117319ca4973"),
hexEncPrivkey("06f31c5ea632658f718a91a1b1b9ae4b7549d7b3bc61cbc2be5f4a439039f3ad"),
},
254: {
hexEncPrivkey("dec742079ec00ff4ec1284d7905bc3de2366f67a0769431fd16f80fd68c58a7c"),
hexEncPrivkey("ff02c8861fa12fbd129d2a95ea663492ef9c1e51de19dcfbbfe1c59894a28d2b"),
hexEncPrivkey("4dded9e4eefcbce4262be4fd9e8a773670ab0b5f448f286ec97dfc8cf681444a"),
hexEncPrivkey("750d931e2a8baa2c9268cb46b7cd851f4198018bed22f4dceb09dd334a2395f6"),
hexEncPrivkey("ce1435a956a98ffec484cd11489c4f165cf1606819ab6b521cee440f0c677e9e"),
hexEncPrivkey("996e7f8d1638be92d7328b4770f47e5420fc4bafecb4324fd33b1f5d9f403a75"),
hexEncPrivkey("ebdc44e77a6cc0eb622e58cf3bb903c3da4c91ca75b447b0168505d8fc308b9c"),
hexEncPrivkey("46bd1eddcf6431bea66fc19ebc45df191c1c7d6ed552dcdc7392885009c322f0"),
},
255: {
hexEncPrivkey("da8645f90826e57228d9ea72aff84500060ad111a5d62e4af831ed8e4b5acfb8"),
hexEncPrivkey("3c944c5d9af51d4c1d43f5d0f3a1a7ef65d5e82744d669b58b5fed242941a566"),
hexEncPrivkey("5ebcde76f1d579eebf6e43b0ffe9157e65ffaa391175d5b9aa988f47df3e33da"),
hexEncPrivkey("97f78253a7d1d796e4eaabce721febcc4550dd68fb11cc818378ba807a2cb7de"),
hexEncPrivkey("a38cd7dc9b4079d1c0406afd0fdb1165c285f2c44f946eca96fc67772c988c7d"),
hexEncPrivkey("d64cbb3ffdf712c372b7a22a176308ef8f91861398d5dbaf326fd89c6eaeef1c"),
hexEncPrivkey("d269609743ef29d6446e3355ec647e38d919c82a4eb5837e442efd7f4218944f"),
hexEncPrivkey("d8f7bcc4a530efde1d143717007179e0d9ace405ddaaf151c4d863753b7fd64c"),
},
256: {
hexEncPrivkey("8c5b422155d33ea8e9d46f71d1ad3e7b24cb40051413ffa1a81cff613d243ba9"),
hexEncPrivkey("937b1af801def4e8f5a3a8bd225a8bcff1db764e41d3e177f2e9376e8dd87233"),
hexEncPrivkey("120260dce739b6f71f171da6f65bc361b5fad51db74cf02d3e973347819a6518"),
hexEncPrivkey("1fa56cf25d4b46c2bf94e82355aa631717b63190785ac6bae545a88aadc304a9"),
hexEncPrivkey("3c38c503c0376f9b4adcbe935d5f4b890391741c764f61b03cd4d0d42deae002"),
hexEncPrivkey("3a54af3e9fa162bc8623cdf3e5d9b70bf30ade1d54cc3abea8659aba6cff471f"),
hexEncPrivkey("6799a02ea1999aefdcbcc4d3ff9544478be7365a328d0d0f37c26bd95ade0cda"),
hexEncPrivkey("e24a7bc9051058f918646b0f6e3d16884b2a55a15553b89bab910d55ebc36116"),
},
},
}
type preminedTestnet struct {
target encPubkey
dists [hashBits + 1][]*ecdsa.PrivateKey
}
func (tn *preminedTestnet) len() int {
n := 0
for _, keys := range tn.dists {
n += len(keys)
}
return n
}
func (tn *preminedTestnet) nodes() []*enode.Node {
result := make([]*enode.Node, 0, tn.len())
for dist, keys := range tn.dists {
for index := range keys {
result = append(result, tn.node(dist, index))
}
}
sortByID(result)
return result
}
func (tn *preminedTestnet) node(dist, index int) *enode.Node {
key := tn.dists[dist][index]
rec := new(enr.Record)
rec.Set(enr.IP{127, byte(dist >> 8), byte(dist), byte(index)})
rec.Set(enr.UDP(5000))
enode.SignV4(rec, key)
n, _ := enode.New(enode.ValidSchemes, rec)
return n
}
func (tn *preminedTestnet) nodeByAddr(addr *net.UDPAddr) (*enode.Node, *ecdsa.PrivateKey) {
dist := int(addr.IP[1])<<8 + int(addr.IP[2])
index := int(addr.IP[3])
key := tn.dists[dist][index]
return tn.node(dist, index), key
}
func (tn *preminedTestnet) nodesAtDistance(dist int) []v4wire.Node {
result := make([]v4wire.Node, len(tn.dists[dist]))
for i := range result {
result[i] = nodeToRPC(wrapNode(tn.node(dist, i)))
}
return result
}
func (tn *preminedTestnet) neighborsAtDistances(base *enode.Node, distances []uint, elems int) []*enode.Node {
var result []*enode.Node
for d := range lookupTestnet.dists {
for i := range lookupTestnet.dists[d] {
n := lookupTestnet.node(d, i)
d := enode.LogDist(base.ID(), n.ID())
if containsUint(uint(d), distances) {
result = append(result, n)
if len(result) >= elems {
return result
}
}
}
}
return result
}
func (tn *preminedTestnet) closest(n int) (nodes []*enode.Node) {
for d := range tn.dists {
for i := range tn.dists[d] {
nodes = append(nodes, tn.node(d, i))
}
}
slices.SortFunc(nodes, func(a, b *enode.Node) int {
return enode.DistCmp(tn.target.id(), a.ID(), b.ID())
})
return nodes[:n]
}
var _ = (*preminedTestnet).mine // avoid linter warning about mine being dead code.
// mine generates a testnet struct literal with nodes at
// various distances to the network's target.
func (tn *preminedTestnet) mine() {
// Clear existing slices first (useful when re-mining).
for i := range tn.dists {
tn.dists[i] = nil
}
targetSha := tn.target.id()
found, need := 0, 40
for found < need {
k := newkey()
ld := enode.LogDist(targetSha, encodePubkey(&k.PublicKey).id())
if len(tn.dists[ld]) < 8 {
tn.dists[ld] = append(tn.dists[ld], k)
found++
fmt.Printf("found ID with ld %d (%d/%d)\n", ld, found, need)
}
}
fmt.Printf("&preminedTestnet{\n")
fmt.Printf(" target: hexEncPubkey(\"%x\"),\n", tn.target[:])
fmt.Printf(" dists: [%d][]*ecdsa.PrivateKey{\n", len(tn.dists))
for ld, ns := range tn.dists {
if len(ns) == 0 {
continue
}
fmt.Printf(" %d: {\n", ld)
for _, key := range ns {
fmt.Printf(" hexEncPrivkey(\"%x\"),\n", crypto.FromECDSA(key))
}
fmt.Printf(" },\n")
}
fmt.Printf(" },\n")
fmt.Printf("}\n")
}