op-geth/cmd/geth/les_test.go

225 lines
6.6 KiB
Go

package main
import (
"context"
"fmt"
"os"
"path/filepath"
"runtime"
"strings"
"sync/atomic"
"testing"
"time"
"github.com/ethereum/go-ethereum/p2p"
"github.com/ethereum/go-ethereum/rpc"
)
type gethrpc struct {
name string
rpc *rpc.Client
geth *testgeth
nodeInfo *p2p.NodeInfo
}
func (g *gethrpc) killAndWait() {
g.geth.Kill()
g.geth.WaitExit()
}
func (g *gethrpc) callRPC(result interface{}, method string, args ...interface{}) {
if err := g.rpc.Call(&result, method, args...); err != nil {
g.geth.Fatalf("callRPC %v: %v", method, err)
}
}
func (g *gethrpc) addPeer(peer *gethrpc) {
g.geth.Logf("%v.addPeer(%v)", g.name, peer.name)
enode := peer.getNodeInfo().Enode
peerCh := make(chan *p2p.PeerEvent)
sub, err := g.rpc.Subscribe(context.Background(), "admin", peerCh, "peerEvents")
if err != nil {
g.geth.Fatalf("subscribe %v: %v", g.name, err)
}
defer sub.Unsubscribe()
g.callRPC(nil, "admin_addPeer", enode)
dur := 14 * time.Second
timeout := time.After(dur)
select {
case ev := <-peerCh:
g.geth.Logf("%v received event: type=%v, peer=%v", g.name, ev.Type, ev.Peer)
case err := <-sub.Err():
g.geth.Fatalf("%v sub error: %v", g.name, err)
case <-timeout:
g.geth.Error("timeout adding peer after", dur)
}
}
// Use this function instead of `g.nodeInfo` directly
func (g *gethrpc) getNodeInfo() *p2p.NodeInfo {
if g.nodeInfo != nil {
return g.nodeInfo
}
g.nodeInfo = &p2p.NodeInfo{}
g.callRPC(&g.nodeInfo, "admin_nodeInfo")
return g.nodeInfo
}
func (g *gethrpc) waitSynced() {
// Check if it's synced now
var result interface{}
g.callRPC(&result, "eth_syncing")
syncing, ok := result.(bool)
if ok && !syncing {
g.geth.Logf("%v already synced", g.name)
return
}
// Actually wait, subscribe to the event
ch := make(chan interface{})
sub, err := g.rpc.Subscribe(context.Background(), "eth", ch, "syncing")
if err != nil {
g.geth.Fatalf("%v syncing: %v", g.name, err)
}
defer sub.Unsubscribe()
timeout := time.After(4 * time.Second)
select {
case ev := <-ch:
g.geth.Log("'syncing' event", ev)
syncing, ok := ev.(bool)
if ok && !syncing {
break
}
g.geth.Log("Other 'syncing' event", ev)
case err := <-sub.Err():
g.geth.Fatalf("%v notification: %v", g.name, err)
break
case <-timeout:
g.geth.Fatalf("%v timeout syncing", g.name)
break
}
}
// ipcEndpoint resolves an IPC endpoint based on a configured value, taking into
// account the set data folders as well as the designated platform we're currently
// running on.
func ipcEndpoint(ipcPath, datadir string) string {
// On windows we can only use plain top-level pipes
if runtime.GOOS == "windows" {
if strings.HasPrefix(ipcPath, `\\.\pipe\`) {
return ipcPath
}
return `\\.\pipe\` + ipcPath
}
// Resolve names into the data directory full paths otherwise
if filepath.Base(ipcPath) == ipcPath {
if datadir == "" {
return filepath.Join(os.TempDir(), ipcPath)
}
return filepath.Join(datadir, ipcPath)
}
return ipcPath
}
// nextIPC ensures that each ipc pipe gets a unique name.
// On linux, it works well to use ipc pipes all over the filesystem (in datadirs),
// but windows require pipes to sit in "\\.\pipe\". Therefore, to run several
// nodes simultaneously, we need to distinguish between them, which we do by
// the pipe filename instead of folder.
var nextIPC = uint32(0)
func startGethWithIpc(t *testing.T, name string, args ...string) *gethrpc {
ipcName := fmt.Sprintf("geth-%d.ipc", atomic.AddUint32(&nextIPC, 1))
args = append([]string{"--networkid=42", "--port=0", "--ipcpath", ipcName}, args...)
t.Logf("Starting %v with rpc: %v", name, args)
g := &gethrpc{
name: name,
geth: runGeth(t, args...),
}
ipcpath := ipcEndpoint(ipcName, g.geth.Datadir)
// We can't know exactly how long geth will take to start, so we try 10
// times over a 5 second period.
var err error
for i := 0; i < 10; i++ {
time.Sleep(500 * time.Millisecond)
if g.rpc, err = rpc.Dial(ipcpath); err == nil {
return g
}
}
t.Fatalf("%v rpc connect to %v: %v", name, ipcpath, err)
return nil
}
func initGeth(t *testing.T) string {
args := []string{"--networkid=42", "init", "./testdata/clique.json"}
t.Logf("Initializing geth: %v ", args)
g := runGeth(t, args...)
datadir := g.Datadir
g.WaitExit()
return datadir
}
func startLightServer(t *testing.T) *gethrpc {
datadir := initGeth(t)
t.Logf("Importing keys to geth")
runGeth(t, "--datadir", datadir, "--password", "./testdata/password.txt", "account", "import", "./testdata/key.prv", "--lightkdf").WaitExit()
account := "0x02f0d131f1f97aef08aec6e3291b957d9efe7105"
server := startGethWithIpc(t, "lightserver", "--allow-insecure-unlock", "--datadir", datadir, "--password", "./testdata/password.txt", "--unlock", account, "--mine", "--light.serve=100", "--light.maxpeers=1", "--nodiscover", "--nat=extip:127.0.0.1", "--verbosity=4")
return server
}
func startClient(t *testing.T, name string) *gethrpc {
datadir := initGeth(t)
return startGethWithIpc(t, name, "--datadir", datadir, "--nodiscover", "--syncmode=light", "--nat=extip:127.0.0.1", "--verbosity=4")
}
func TestPriorityClient(t *testing.T) {
lightServer := startLightServer(t)
defer lightServer.killAndWait()
// Start client and add lightServer as peer
freeCli := startClient(t, "freeCli")
defer freeCli.killAndWait()
freeCli.addPeer(lightServer)
var peers []*p2p.PeerInfo
freeCli.callRPC(&peers, "admin_peers")
if len(peers) != 1 {
t.Errorf("Expected: # of client peers == 1, actual: %v", len(peers))
return
}
// Set up priority client, get its nodeID, increase its balance on the lightServer
prioCli := startClient(t, "prioCli")
defer prioCli.killAndWait()
// 3_000_000_000 once we move to Go 1.13
tokens := uint64(3000000000)
lightServer.callRPC(nil, "les_addBalance", prioCli.getNodeInfo().ID, tokens)
prioCli.addPeer(lightServer)
// Check if priority client is actually syncing and the regular client got kicked out
prioCli.callRPC(&peers, "admin_peers")
if len(peers) != 1 {
t.Errorf("Expected: # of prio peers == 1, actual: %v", len(peers))
}
nodes := map[string]*gethrpc{
lightServer.getNodeInfo().ID: lightServer,
freeCli.getNodeInfo().ID: freeCli,
prioCli.getNodeInfo().ID: prioCli,
}
time.Sleep(1 * time.Second)
lightServer.callRPC(&peers, "admin_peers")
peersWithNames := make(map[string]string)
for _, p := range peers {
peersWithNames[nodes[p.ID].name] = p.ID
}
if _, freeClientFound := peersWithNames[freeCli.name]; freeClientFound {
t.Error("client is still a peer of lightServer", peersWithNames)
}
if _, prioClientFound := peersWithNames[prioCli.name]; !prioClientFound {
t.Error("prio client is not among lightServer peers", peersWithNames)
}
}