go-ethereum/swarm/network/kademlia_test.go
holisticode 2af24724dd swarm/network: Saturation check for healthy networks (#19071)
* swarm/network: new saturation for  implementation

* swarm/network: re-added saturation func in Kademlia as it is used elsewhere

* swarm/network: saturation with higher MinBinSize

* swarm/network: PeersPerBin with depth check

* swarm/network: edited tests to pass new saturated check

* swarm/network: minor fix saturated check

* swarm/network/simulations/discovery: fixed renamed RPC call

* swarm/network: renamed to isSaturated and returns bool

* swarm/network: early depth check
2019-02-14 19:01:50 +01:00

563 lines
15 KiB
Go

// Copyright 2018 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 network
import (
"fmt"
"os"
"testing"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/p2p"
"github.com/ethereum/go-ethereum/p2p/enode"
"github.com/ethereum/go-ethereum/p2p/protocols"
"github.com/ethereum/go-ethereum/swarm/pot"
)
func init() {
h := log.LvlFilterHandler(log.LvlWarn, log.StreamHandler(os.Stderr, log.TerminalFormat(true)))
log.Root().SetHandler(h)
}
func testKadPeerAddr(s string) *BzzAddr {
a := pot.NewAddressFromString(s)
return &BzzAddr{OAddr: a, UAddr: a}
}
func newTestKademliaParams() *KadParams {
params := NewKadParams()
params.MinBinSize = 2
params.NeighbourhoodSize = 2
return params
}
type testKademlia struct {
*Kademlia
t *testing.T
}
func newTestKademlia(t *testing.T, b string) *testKademlia {
base := pot.NewAddressFromString(b)
return &testKademlia{
Kademlia: NewKademlia(base, newTestKademliaParams()),
t: t,
}
}
func (tk *testKademlia) newTestKadPeer(s string, lightNode bool) *Peer {
return NewPeer(&BzzPeer{BzzAddr: testKadPeerAddr(s), LightNode: lightNode}, tk.Kademlia)
}
func (tk *testKademlia) On(ons ...string) {
for _, s := range ons {
tk.Kademlia.On(tk.newTestKadPeer(s, false))
}
}
func (tk *testKademlia) Off(offs ...string) {
for _, s := range offs {
tk.Kademlia.Off(tk.newTestKadPeer(s, false))
}
}
func (tk *testKademlia) Register(regs ...string) {
var as []*BzzAddr
for _, s := range regs {
as = append(as, testKadPeerAddr(s))
}
err := tk.Kademlia.Register(as...)
if err != nil {
panic(err.Error())
}
}
// tests the validity of neighborhood depth calculations
//
// in particular, it tests that if there are one or more consecutive
// empty bins above the farthest "nearest neighbor-peer" then
// the depth should be set at the farthest of those empty bins
//
// TODO: Make test adapt to change in NeighbourhoodSize
func TestNeighbourhoodDepth(t *testing.T) {
baseAddressBytes := RandomAddr().OAddr
kad := NewKademlia(baseAddressBytes, NewKadParams())
baseAddress := pot.NewAddressFromBytes(baseAddressBytes)
// generate the peers
var peers []*Peer
for i := 0; i < 7; i++ {
addr := pot.RandomAddressAt(baseAddress, i)
peers = append(peers, newTestDiscoveryPeer(addr, kad))
}
var sevenPeers []*Peer
for i := 0; i < 2; i++ {
addr := pot.RandomAddressAt(baseAddress, 7)
sevenPeers = append(sevenPeers, newTestDiscoveryPeer(addr, kad))
}
testNum := 0
// first try with empty kademlia
depth := kad.NeighbourhoodDepth()
if depth != 0 {
t.Fatalf("%d expected depth 0, was %d", testNum, depth)
}
testNum++
// add one peer on 7
kad.On(sevenPeers[0])
depth = kad.NeighbourhoodDepth()
if depth != 0 {
t.Fatalf("%d expected depth 0, was %d", testNum, depth)
}
testNum++
// add a second on 7
kad.On(sevenPeers[1])
depth = kad.NeighbourhoodDepth()
if depth != 0 {
t.Fatalf("%d expected depth 0, was %d", testNum, depth)
}
testNum++
// add from 0 to 6
for i, p := range peers {
kad.On(p)
depth = kad.NeighbourhoodDepth()
if depth != i+1 {
t.Fatalf("%d.%d expected depth %d, was %d", i+1, testNum, i, depth)
}
}
testNum++
kad.Off(sevenPeers[1])
depth = kad.NeighbourhoodDepth()
if depth != 6 {
t.Fatalf("%d expected depth 6, was %d", testNum, depth)
}
testNum++
kad.Off(peers[4])
depth = kad.NeighbourhoodDepth()
if depth != 4 {
t.Fatalf("%d expected depth 4, was %d", testNum, depth)
}
testNum++
kad.Off(peers[3])
depth = kad.NeighbourhoodDepth()
if depth != 3 {
t.Fatalf("%d expected depth 3, was %d", testNum, depth)
}
testNum++
}
// TestHighMinBinSize tests that the saturation function also works
// if MinBinSize is > 2, the connection count is < k.MinBinSize
// and there are more peers available than connected
func TestHighMinBinSize(t *testing.T) {
// a function to test for different MinBinSize values
testKad := func(minBinSize int) {
// create a test kademlia
tk := newTestKademlia(t, "11111111")
// set its MinBinSize to desired value
tk.KadParams.MinBinSize = minBinSize
// add a couple of peers (so we have NN and depth)
tk.On("00000000") // bin 0
tk.On("11100000") // bin 3
tk.On("11110000") // bin 4
first := "10000000" // add a first peer at bin 1
tk.Register(first) // register it
// we now have one registered peer at bin 1;
// iterate and connect one peer at each iteration;
// should be unhealthy until at minBinSize - 1
// we connect the unconnected but registered peer
for i := 1; i < minBinSize; i++ {
peer := fmt.Sprintf("1000%b", 8|i)
tk.On(peer)
if i == minBinSize-1 {
tk.On(first)
tk.checkHealth(true)
return
}
tk.checkHealth(false)
}
}
// test MinBinSizes of 3 to 5
testMinBinSizes := []int{3, 4, 5}
for _, k := range testMinBinSizes {
testKad(k)
}
}
// TestHealthStrict tests the simplest definition of health
// Which means whether we are connected to all neighbors we know of
func TestHealthStrict(t *testing.T) {
// base address is all zeros
// no peers
// unhealthy (and lonely)
tk := newTestKademlia(t, "11111111")
tk.checkHealth(false)
// know one peer but not connected
// unhealthy
tk.Register("11100000")
tk.checkHealth(false)
// know one peer and connected
// unhealthy: not saturated
tk.On("11100000")
tk.checkHealth(true)
// know two peers, only one connected
// unhealthy
tk.Register("11111100")
tk.checkHealth(false)
// know two peers and connected to both
// healthy
tk.On("11111100")
tk.checkHealth(true)
// know three peers, connected to the two deepest
// healthy
tk.Register("00000000")
tk.checkHealth(false)
// know three peers, connected to all three
// healthy
tk.On("00000000")
tk.checkHealth(true)
// add fourth peer deeper than current depth
// unhealthy
tk.Register("11110000")
tk.checkHealth(false)
// connected to three deepest peers
// healthy
tk.On("11110000")
tk.checkHealth(true)
// add additional peer in same bin as deepest peer
// unhealthy
tk.Register("11111101")
tk.checkHealth(false)
// four deepest of five peers connected
// healthy
tk.On("11111101")
tk.checkHealth(true)
// add additional peer in bin 0
// unhealthy: unsaturated bin 0, 2 known but 1 connected
tk.Register("00000001")
tk.checkHealth(false)
// Connect second in bin 0
// healthy
tk.On("00000001")
tk.checkHealth(true)
// add peer in bin 1
// unhealthy, as it is known but not connected
tk.Register("10000000")
tk.checkHealth(false)
// connect peer in bin 1
// depth change, is now 1
// healthy, 1 peer in bin 1 known and connected
tk.On("10000000")
tk.checkHealth(true)
// add second peer in bin 1
// unhealthy, as it is known but not connected
tk.Register("10000001")
tk.checkHealth(false)
// connect second peer in bin 1
// healthy,
tk.On("10000001")
tk.checkHealth(true)
// connect third peer in bin 1
// healthy,
tk.On("10000011")
tk.checkHealth(true)
// add peer in bin 2
// unhealthy, no depth change
tk.Register("11000000")
tk.checkHealth(false)
// connect peer in bin 2
// depth change - as we already have peers in bin 3 and 4,
// we have contiguous bins, no bin < po 5 is empty -> depth 5
// healthy, every bin < depth has the max available peers,
// even if they are < MinBinSize
tk.On("11000000")
tk.checkHealth(true)
// add peer in bin 2
// unhealthy, peer bin is below depth 5 but
// has more available peers (2) than connected ones (1)
// --> unsaturated
tk.Register("11000011")
tk.checkHealth(false)
}
func (tk *testKademlia) checkHealth(expectHealthy bool) {
tk.t.Helper()
kid := common.Bytes2Hex(tk.BaseAddr())
addrs := [][]byte{tk.BaseAddr()}
tk.EachAddr(nil, 255, func(addr *BzzAddr, po int) bool {
addrs = append(addrs, addr.Address())
return true
})
pp := NewPeerPotMap(tk.NeighbourhoodSize, addrs)
healthParams := tk.GetHealthInfo(pp[kid])
// definition of health, all conditions but be true:
// - we at least know one peer
// - we know all neighbors
// - we are connected to all known neighbors
health := healthParams.Healthy()
if expectHealthy != health {
tk.t.Fatalf("expected kademlia health %v, is %v\n%v", expectHealthy, health, tk.String())
}
}
func (tk *testKademlia) checkSuggestPeer(expAddr string, expDepth int, expChanged bool) {
tk.t.Helper()
addr, depth, changed := tk.SuggestPeer()
log.Trace("suggestPeer return", "addr", addr, "depth", depth, "changed", changed)
if binStr(addr) != expAddr {
tk.t.Fatalf("incorrect peer address suggested. expected %v, got %v", expAddr, binStr(addr))
}
if depth != expDepth {
tk.t.Fatalf("incorrect saturation depth suggested. expected %v, got %v", expDepth, depth)
}
if changed != expChanged {
tk.t.Fatalf("expected depth change = %v, got %v", expChanged, changed)
}
}
func binStr(a *BzzAddr) string {
if a == nil {
return "<nil>"
}
return pot.ToBin(a.Address())[:8]
}
func TestSuggestPeerFindPeers(t *testing.T) {
tk := newTestKademlia(t, "00000000")
tk.On("00100000")
tk.checkSuggestPeer("<nil>", 0, false)
tk.On("00010000")
tk.checkSuggestPeer("<nil>", 0, false)
tk.On("10000000", "10000001")
tk.checkSuggestPeer("<nil>", 0, false)
tk.On("01000000")
tk.Off("10000001")
tk.checkSuggestPeer("10000001", 0, true)
tk.On("00100001")
tk.Off("01000000")
tk.checkSuggestPeer("01000000", 0, false)
// second time disconnected peer not callable
// with reasonably set Interval
tk.checkSuggestPeer("<nil>", 0, false)
// on and off again, peer callable again
tk.On("01000000")
tk.Off("01000000")
tk.checkSuggestPeer("01000000", 0, false)
tk.On("01000000", "10000001")
tk.checkSuggestPeer("<nil>", 0, false)
tk.Register("00010001")
tk.checkSuggestPeer("00010001", 0, false)
tk.On("00010001")
tk.Off("01000000")
tk.checkSuggestPeer("01000000", 0, false)
tk.On("01000000")
tk.checkSuggestPeer("<nil>", 0, false)
tk.Register("01000001")
tk.checkSuggestPeer("01000001", 0, false)
tk.On("01000001")
tk.checkSuggestPeer("<nil>", 0, false)
tk.Register("10000010", "01000010", "00100010")
tk.checkSuggestPeer("<nil>", 0, false)
tk.Register("00010010")
tk.checkSuggestPeer("00010010", 0, false)
tk.Off("00100001")
tk.checkSuggestPeer("00100010", 2, true)
tk.Off("01000001")
tk.checkSuggestPeer("01000010", 1, true)
tk.checkSuggestPeer("01000001", 0, false)
tk.checkSuggestPeer("00100001", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
tk.On("01000001", "00100001")
tk.Register("10000100", "01000100", "00100100")
tk.Register("00000100", "00000101", "00000110")
tk.Register("00000010", "00000011", "00000001")
tk.checkSuggestPeer("00000110", 0, false)
tk.checkSuggestPeer("00000101", 0, false)
tk.checkSuggestPeer("00000100", 0, false)
tk.checkSuggestPeer("00000011", 0, false)
tk.checkSuggestPeer("00000010", 0, false)
tk.checkSuggestPeer("00000001", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
}
// a node should stay in the address book if it's removed from the kademlia
func TestOffEffectingAddressBookNormalNode(t *testing.T) {
tk := newTestKademlia(t, "00000000")
// peer added to kademlia
tk.On("01000000")
// peer should be in the address book
if tk.addrs.Size() != 1 {
t.Fatal("known peer addresses should contain 1 entry")
}
// peer should be among live connections
if tk.conns.Size() != 1 {
t.Fatal("live peers should contain 1 entry")
}
// remove peer from kademlia
tk.Off("01000000")
// peer should be in the address book
if tk.addrs.Size() != 1 {
t.Fatal("known peer addresses should contain 1 entry")
}
// peer should not be among live connections
if tk.conns.Size() != 0 {
t.Fatal("live peers should contain 0 entry")
}
}
// a light node should not be in the address book
func TestOffEffectingAddressBookLightNode(t *testing.T) {
tk := newTestKademlia(t, "00000000")
// light node peer added to kademlia
tk.Kademlia.On(tk.newTestKadPeer("01000000", true))
// peer should not be in the address book
if tk.addrs.Size() != 0 {
t.Fatal("known peer addresses should contain 0 entry")
}
// peer should be among live connections
if tk.conns.Size() != 1 {
t.Fatal("live peers should contain 1 entry")
}
// remove peer from kademlia
tk.Kademlia.Off(tk.newTestKadPeer("01000000", true))
// peer should not be in the address book
if tk.addrs.Size() != 0 {
t.Fatal("known peer addresses should contain 0 entry")
}
// peer should not be among live connections
if tk.conns.Size() != 0 {
t.Fatal("live peers should contain 0 entry")
}
}
func TestSuggestPeerRetries(t *testing.T) {
tk := newTestKademlia(t, "00000000")
tk.RetryInterval = int64(300 * time.Millisecond) // cycle
tk.MaxRetries = 50
tk.RetryExponent = 2
sleep := func(n int) {
ts := tk.RetryInterval
for i := 1; i < n; i++ {
ts *= int64(tk.RetryExponent)
}
time.Sleep(time.Duration(ts))
}
tk.Register("01000000")
tk.On("00000001", "00000010")
tk.checkSuggestPeer("01000000", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
sleep(1)
tk.checkSuggestPeer("01000000", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
sleep(1)
tk.checkSuggestPeer("01000000", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
sleep(2)
tk.checkSuggestPeer("01000000", 0, false)
tk.checkSuggestPeer("<nil>", 0, false)
sleep(2)
tk.checkSuggestPeer("<nil>", 0, false)
}
func TestKademliaHiveString(t *testing.T) {
tk := newTestKademlia(t, "00000000")
tk.On("01000000", "00100000")
tk.Register("10000000", "10000001")
tk.MaxProxDisplay = 8
h := tk.String()
expH := "\n=========================================================================\nMon Feb 27 12:10:28 UTC 2017 KΛÐΞMLIΛ hive: queen's address: 000000\npopulation: 2 (4), NeighbourhoodSize: 2, MinBinSize: 2, MaxBinSize: 4\n============ DEPTH: 0 ==========================================\n000 0 | 2 8100 (0) 8000 (0)\n001 1 4000 | 1 4000 (0)\n002 1 2000 | 1 2000 (0)\n003 0 | 0\n004 0 | 0\n005 0 | 0\n006 0 | 0\n007 0 | 0\n========================================================================="
if expH[104:] != h[104:] {
t.Fatalf("incorrect hive output. expected %v, got %v", expH, h)
}
}
func newTestDiscoveryPeer(addr pot.Address, kad *Kademlia) *Peer {
rw := &p2p.MsgPipeRW{}
p := p2p.NewPeer(enode.ID{}, "foo", []p2p.Cap{})
pp := protocols.NewPeer(p, rw, &protocols.Spec{})
bp := &BzzPeer{
Peer: pp,
BzzAddr: &BzzAddr{
OAddr: addr.Bytes(),
UAddr: []byte(fmt.Sprintf("%x", addr[:])),
},
}
return NewPeer(bp, kad)
}