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setup.go
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setup.go
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package op_e2e
import (
"context"
"crypto/ecdsa"
"crypto/rand"
"errors"
"fmt"
"math/big"
"net"
"os"
"path"
"sort"
"strings"
"sync/atomic"
"testing"
"time"
"github.com/ethereum-optimism/optimism/op-e2e/e2eutils/batcher"
ds "github.com/ipfs/go-datastore"
dsSync "github.com/ipfs/go-datastore/sync"
ic "github.com/libp2p/go-libp2p/core/crypto"
"github.com/libp2p/go-libp2p/core/host"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/peerstore"
"github.com/libp2p/go-libp2p/p2p/host/peerstore/pstoremem"
mocknet "github.com/libp2p/go-libp2p/p2p/net/mock"
ma "github.com/multiformats/go-multiaddr"
"github.com/stretchr/testify/require"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/ethereum/go-ethereum/core"
"github.com/ethereum/go-ethereum/core/types"
geth_eth "github.com/ethereum/go-ethereum/eth"
"github.com/ethereum/go-ethereum/ethclient"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/node"
"github.com/ethereum/go-ethereum/params"
"github.com/ethereum/go-ethereum/rpc"
bss "github.com/ethereum-optimism/optimism/op-batcher/batcher"
batcherFlags "github.com/ethereum-optimism/optimism/op-batcher/flags"
"github.com/ethereum-optimism/optimism/op-chain-ops/genesis"
"github.com/ethereum-optimism/optimism/op-e2e/config"
"github.com/ethereum-optimism/optimism/op-e2e/e2eutils"
"github.com/ethereum-optimism/optimism/op-e2e/e2eutils/fakebeacon"
"github.com/ethereum-optimism/optimism/op-e2e/e2eutils/geth"
"github.com/ethereum-optimism/optimism/op-node/chaincfg"
"github.com/ethereum-optimism/optimism/op-node/metrics"
rollupNode "github.com/ethereum-optimism/optimism/op-node/node"
"github.com/ethereum-optimism/optimism/op-node/p2p"
"github.com/ethereum-optimism/optimism/op-node/p2p/store"
"github.com/ethereum-optimism/optimism/op-node/rollup"
"github.com/ethereum-optimism/optimism/op-node/rollup/derive"
"github.com/ethereum-optimism/optimism/op-node/rollup/driver"
"github.com/ethereum-optimism/optimism/op-node/rollup/sync"
l2os "github.com/ethereum-optimism/optimism/op-proposer/proposer"
"github.com/ethereum-optimism/optimism/op-service/cliapp"
"github.com/ethereum-optimism/optimism/op-service/client"
"github.com/ethereum-optimism/optimism/op-service/clock"
"github.com/ethereum-optimism/optimism/op-service/dial"
"github.com/ethereum-optimism/optimism/op-service/eth"
oplog "github.com/ethereum-optimism/optimism/op-service/log"
"github.com/ethereum-optimism/optimism/op-service/predeploys"
"github.com/ethereum-optimism/optimism/op-service/sources"
"github.com/ethereum-optimism/optimism/op-service/testlog"
"github.com/ethereum-optimism/optimism/op-service/txmgr"
)
var testingJWTSecret = [32]byte{123}
func newTxMgrConfig(l1Addr string, privKey *ecdsa.PrivateKey) txmgr.CLIConfig {
return txmgr.CLIConfig{
L1RPCURL: l1Addr,
PrivateKey: hexPriv(privKey),
NumConfirmations: 1,
SafeAbortNonceTooLowCount: 3,
FeeLimitMultiplier: 5,
ResubmissionTimeout: 3 * time.Second,
ReceiptQueryInterval: 50 * time.Millisecond,
NetworkTimeout: 2 * time.Second,
TxNotInMempoolTimeout: 2 * time.Minute,
}
}
func DefaultSystemConfig(t testing.TB) SystemConfig {
config.ExternalL2TestParms.SkipIfNecessary(t)
secrets, err := e2eutils.DefaultMnemonicConfig.Secrets()
require.NoError(t, err)
deployConfig := config.DeployConfig.Copy()
deployConfig.L1GenesisBlockTimestamp = hexutil.Uint64(time.Now().Unix())
e2eutils.ApplyDeployConfigForks(deployConfig)
require.NoError(t, deployConfig.Check(), "Deploy config is invalid, do you need to run make devnet-allocs?")
l1Deployments := config.L1Deployments.Copy()
require.NoError(t, l1Deployments.Check(deployConfig))
require.Equal(t, secrets.Addresses().Batcher, deployConfig.BatchSenderAddress)
require.Equal(t, secrets.Addresses().SequencerP2P, deployConfig.P2PSequencerAddress)
require.Equal(t, secrets.Addresses().Proposer, deployConfig.L2OutputOracleProposer)
// Tests depend on premine being filled with secrets addresses
premine := make(map[common.Address]*big.Int)
for _, addr := range secrets.Addresses().All() {
premine[addr] = new(big.Int).Mul(big.NewInt(1000), big.NewInt(params.Ether))
}
return SystemConfig{
Secrets: secrets,
Premine: premine,
DeployConfig: deployConfig,
L1Deployments: config.L1Deployments,
L1InfoPredeployAddress: predeploys.L1BlockAddr,
JWTFilePath: writeDefaultJWT(t),
JWTSecret: testingJWTSecret,
BlobsPath: t.TempDir(),
Nodes: map[string]*rollupNode.Config{
"sequencer": {
Driver: driver.Config{
VerifierConfDepth: 0,
SequencerConfDepth: 0,
SequencerEnabled: true,
},
// Submitter PrivKey is set in system start for rollup nodes where sequencer = true
RPC: rollupNode.RPCConfig{
ListenAddr: "127.0.0.1",
ListenPort: 0,
EnableAdmin: true,
},
L1EpochPollInterval: time.Second * 2,
RuntimeConfigReloadInterval: time.Minute * 10,
ConfigPersistence: &rollupNode.DisabledConfigPersistence{},
Sync: sync.Config{SyncMode: sync.CLSync},
},
"verifier": {
Driver: driver.Config{
VerifierConfDepth: 0,
SequencerConfDepth: 0,
SequencerEnabled: false,
},
L1EpochPollInterval: time.Second * 4,
RuntimeConfigReloadInterval: time.Minute * 10,
ConfigPersistence: &rollupNode.DisabledConfigPersistence{},
Sync: sync.Config{SyncMode: sync.CLSync},
},
},
Loggers: map[string]log.Logger{
"verifier": testlog.Logger(t, log.LevelInfo).New("role", "verifier"),
"sequencer": testlog.Logger(t, log.LevelInfo).New("role", "sequencer"),
"batcher": testlog.Logger(t, log.LevelInfo).New("role", "batcher"),
"proposer": testlog.Logger(t, log.LevelCrit).New("role", "proposer"),
},
GethOptions: map[string][]geth.GethOption{},
P2PTopology: nil, // no P2P connectivity by default
NonFinalizedProposals: false,
ExternalL2Shim: config.ExternalL2Shim,
DataAvailabilityType: batcherFlags.CalldataType,
MaxPendingTransactions: 1,
BatcherTargetNumFrames: 1,
}
}
func writeDefaultJWT(t testing.TB) string {
// Sadly the geth node config cannot load JWT secret from memory, it has to be a file
jwtPath := path.Join(t.TempDir(), "jwt_secret")
if err := os.WriteFile(jwtPath, []byte(hexutil.Encode(testingJWTSecret[:])), 0o600); err != nil {
t.Fatalf("failed to prepare jwt file for geth: %v", err)
}
return jwtPath
}
type DepositContractConfig struct {
L2Oracle common.Address
FinalizationPeriod *big.Int
}
type SystemConfig struct {
Secrets *e2eutils.Secrets
L1InfoPredeployAddress common.Address
DeployConfig *genesis.DeployConfig
L1Deployments *genesis.L1Deployments
JWTFilePath string
JWTSecret [32]byte
BlobsPath string
Premine map[common.Address]*big.Int
Nodes map[string]*rollupNode.Config // Per node config. Don't use populate rollup.Config
Loggers map[string]log.Logger
GethOptions map[string][]geth.GethOption
ProposerLogger log.Logger
BatcherLogger log.Logger
ExternalL2Shim string
// map of outbound connections to other nodes. Node names prefixed with "~" are unconnected but linked.
// A nil map disables P2P completely.
// Any node name not in the topology will not have p2p enabled.
P2PTopology map[string][]string
// Enables req-resp sync in the P2P nodes
P2PReqRespSync bool
// If the proposer can make proposals for L2 blocks derived from L1 blocks which are not finalized on L1 yet.
NonFinalizedProposals bool
// Explicitly disable batcher, for tests that rely on unsafe L2 payloads
DisableBatcher bool
// Configure data-availability type that is used by the batcher.
DataAvailabilityType batcherFlags.DataAvailabilityType
// Max L1 tx size for the batcher transactions
BatcherMaxL1TxSizeBytes uint64
// Target number of frames to create per channel. Can be used to create
// multi-blob transactions.
// Default is 1 if unset.
BatcherTargetNumFrames int
// whether to actually use BatcherMaxL1TxSizeBytes for blobs, insteaf of max blob size
BatcherUseMaxTxSizeForBlobs bool
// SupportL1TimeTravel determines if the L1 node supports quickly skipping forward in time
SupportL1TimeTravel bool
// MaxPendingTransactions determines how many transactions the batcher will try to send
// concurrently. 0 means unlimited.
MaxPendingTransactions uint64
}
type GethInstance struct {
Backend *geth_eth.Ethereum
Node *node.Node
}
func (gi *GethInstance) HTTPEndpoint() string {
return gi.Node.HTTPEndpoint()
}
func (gi *GethInstance) WSEndpoint() string {
return gi.Node.WSEndpoint()
}
func (gi *GethInstance) WSAuthEndpoint() string {
return gi.Node.WSAuthEndpoint()
}
func (gi *GethInstance) HTTPAuthEndpoint() string {
return gi.Node.HTTPAuthEndpoint()
}
func (gi *GethInstance) Close() error {
return gi.Node.Close()
}
// EthInstance is either an in process Geth or external process exposing its
// endpoints over the network
type EthInstance interface {
HTTPEndpoint() string
WSEndpoint() string
HTTPAuthEndpoint() string
WSAuthEndpoint() string
Close() error
}
type System struct {
Cfg SystemConfig
RollupConfig *rollup.Config
L2GenesisCfg *core.Genesis
// Connections to running nodes
EthInstances map[string]EthInstance
Clients map[string]*ethclient.Client
RawClients map[string]*rpc.Client
RollupNodes map[string]*rollupNode.OpNode
L2OutputSubmitter *l2os.ProposerService
BatchSubmitter *bss.BatcherService
Mocknet mocknet.Mocknet
L1BeaconAPIAddr string
// TimeTravelClock is nil unless SystemConfig.SupportL1TimeTravel was set to true
// It provides access to the clock instance used by the L1 node. Calling TimeTravelClock.AdvanceBy
// allows tests to quickly time travel L1 into the future.
// Note that this time travel may occur in a single block, creating a very large difference in the Time
// on sequential blocks.
TimeTravelClock *clock.AdvancingClock
t *testing.T
closed atomic.Bool
// rollupClients caches the lazily created RollupClient instances so they can be reused and closed
rollupClients map[string]*sources.RollupClient
}
// AdvanceTime advances the system clock by the given duration.
// If the [System.TimeTravelClock] is nil, this is a no-op.
func (sys *System) AdvanceTime(d time.Duration) {
if sys.TimeTravelClock != nil {
sys.TimeTravelClock.AdvanceTime(d)
}
}
func (sys *System) L1BeaconEndpoint() string {
return sys.L1BeaconAPIAddr
}
func (sys *System) L1BeaconHTTPClient() *sources.BeaconHTTPClient {
logger := testlog.Logger(sys.t, log.LevelInfo).New("component", "beaconClient")
return sources.NewBeaconHTTPClient(client.NewBasicHTTPClient(sys.L1BeaconEndpoint(), logger))
}
func (sys *System) NodeEndpoint(name string) string {
return selectEndpoint(sys.EthInstances[name])
}
func (sys *System) NodeClient(name string) *ethclient.Client {
return sys.Clients[name]
}
func (sys *System) RollupEndpoint(name string) string {
return sys.RollupNodes[name].HTTPEndpoint()
}
func (sys *System) RollupClient(name string) *sources.RollupClient {
client, ok := sys.rollupClients[name]
if ok {
return client
}
logger := testlog.Logger(sys.t, log.LevelInfo).New("rollupClient", name)
endpoint := sys.RollupEndpoint(name)
client, err := dial.DialRollupClientWithTimeout(context.Background(), 30*time.Second, logger, endpoint)
require.NoErrorf(sys.t, err, "Failed to dial rollup client %v", name)
sys.rollupClients[name] = client
return client
}
func (sys *System) L1Deployments() *genesis.L1Deployments {
return sys.Cfg.L1Deployments
}
func (sys *System) RollupCfg() *rollup.Config {
return sys.RollupConfig
}
func (sys *System) L2Genesis() *core.Genesis {
return sys.L2GenesisCfg
}
func (sys *System) L1Slot(l1Timestamp uint64) uint64 {
return (l1Timestamp - uint64(sys.Cfg.DeployConfig.L1GenesisBlockTimestamp)) /
sys.Cfg.DeployConfig.L1BlockTime
}
func (sys *System) Close() {
if !sys.closed.CompareAndSwap(false, true) {
// Already closed.
return
}
postCtx, postCancel := context.WithCancel(context.Background())
postCancel() // immediate shutdown, no allowance for idling
var combinedErr error
if sys.L2OutputSubmitter != nil {
if err := sys.L2OutputSubmitter.Kill(); err != nil && !errors.Is(err, l2os.ErrAlreadyStopped) {
combinedErr = errors.Join(combinedErr, fmt.Errorf("stop L2OutputSubmitter: %w", err))
}
}
if sys.BatchSubmitter != nil {
if err := sys.BatchSubmitter.Kill(); err != nil && !errors.Is(err, bss.ErrAlreadyStopped) {
combinedErr = errors.Join(combinedErr, fmt.Errorf("stop BatchSubmitter: %w", err))
}
}
for name, node := range sys.RollupNodes {
if err := node.Stop(postCtx); err != nil && !errors.Is(err, rollupNode.ErrAlreadyClosed) {
combinedErr = errors.Join(combinedErr, fmt.Errorf("stop rollup node %v: %w", name, err))
}
}
for name, ei := range sys.EthInstances {
if err := ei.Close(); err != nil && !errors.Is(err, node.ErrNodeStopped) {
combinedErr = errors.Join(combinedErr, fmt.Errorf("stop EthInstance %v: %w", name, err))
}
}
for _, client := range sys.rollupClients {
client.Close()
}
if sys.Mocknet != nil {
if err := sys.Mocknet.Close(); err != nil {
combinedErr = errors.Join(combinedErr, fmt.Errorf("stop Mocknet: %w", err))
}
}
require.NoError(sys.t, combinedErr, "Failed to stop system")
}
type systemConfigHook func(sCfg *SystemConfig, s *System)
type SystemConfigOption struct {
key string
role string
action systemConfigHook
}
type SystemConfigOptions struct {
opts map[string]systemConfigHook
}
func NewSystemConfigOptions(_opts []SystemConfigOption) (SystemConfigOptions, error) {
opts := make(map[string]systemConfigHook)
for _, opt := range _opts {
if _, ok := opts[opt.key+":"+opt.role]; ok {
return SystemConfigOptions{}, fmt.Errorf("duplicate option for key %s and role %s", opt.key, opt.role)
}
opts[opt.key+":"+opt.role] = opt.action
}
return SystemConfigOptions{
opts: opts,
}, nil
}
func (s *SystemConfigOptions) Get(key, role string) (systemConfigHook, bool) {
v, ok := s.opts[key+":"+role]
return v, ok
}
func (cfg SystemConfig) Start(t *testing.T, _opts ...SystemConfigOption) (*System, error) {
opts, err := NewSystemConfigOptions(_opts)
if err != nil {
return nil, err
}
sys := &System{
t: t,
Cfg: cfg,
EthInstances: make(map[string]EthInstance),
Clients: make(map[string]*ethclient.Client),
RawClients: make(map[string]*rpc.Client),
RollupNodes: make(map[string]*rollupNode.OpNode),
rollupClients: make(map[string]*sources.RollupClient),
}
// Automatically stop the system at the end of the test
t.Cleanup(sys.Close)
c := clock.SystemClock
if cfg.SupportL1TimeTravel {
sys.TimeTravelClock = clock.NewAdvancingClock(100 * time.Millisecond)
c = sys.TimeTravelClock
}
if err := cfg.DeployConfig.Check(); err != nil {
return nil, err
}
l1Genesis, err := genesis.BuildL1DeveloperGenesis(cfg.DeployConfig, config.L1Allocs, config.L1Deployments)
if err != nil {
return nil, err
}
for addr, amount := range cfg.Premine {
if existing, ok := l1Genesis.Alloc[addr]; ok {
l1Genesis.Alloc[addr] = types.Account{
Code: existing.Code,
Storage: existing.Storage,
Balance: amount,
Nonce: existing.Nonce,
}
} else {
l1Genesis.Alloc[addr] = types.Account{
Balance: amount,
Nonce: 0,
}
}
}
l1Block := l1Genesis.ToBlock()
var allocsMode genesis.L2AllocsMode
allocsMode = genesis.L2AllocsDelta
if fjordTime := cfg.DeployConfig.FjordTime(l1Block.Time()); fjordTime != nil && *fjordTime <= 0 {
allocsMode = genesis.L2AllocsFjord
} else if ecotoneTime := cfg.DeployConfig.EcotoneTime(l1Block.Time()); ecotoneTime != nil && *ecotoneTime <= 0 {
allocsMode = genesis.L2AllocsEcotone
}
t.Log("Generating L2 genesis", "l2_allocs_mode", string(allocsMode))
l2Allocs := config.L2Allocs(allocsMode)
l2Genesis, err := genesis.BuildL2Genesis(cfg.DeployConfig, l2Allocs, l1Block)
if err != nil {
return nil, err
}
sys.L2GenesisCfg = l2Genesis
for addr, amount := range cfg.Premine {
if existing, ok := l2Genesis.Alloc[addr]; ok {
l2Genesis.Alloc[addr] = types.Account{
Code: existing.Code,
Storage: existing.Storage,
Balance: amount,
Nonce: existing.Nonce,
}
} else {
l2Genesis.Alloc[addr] = types.Account{
Balance: amount,
Nonce: 0,
}
}
}
makeRollupConfig := func() rollup.Config {
return rollup.Config{
Genesis: rollup.Genesis{
L1: eth.BlockID{
Hash: l1Block.Hash(),
Number: 0,
},
L2: eth.BlockID{
Hash: l2Genesis.ToBlock().Hash(),
Number: 0,
},
L2Time: uint64(cfg.DeployConfig.L1GenesisBlockTimestamp),
SystemConfig: e2eutils.SystemConfigFromDeployConfig(cfg.DeployConfig),
},
BlockTime: cfg.DeployConfig.L2BlockTime,
MaxSequencerDrift: cfg.DeployConfig.MaxSequencerDrift,
SeqWindowSize: cfg.DeployConfig.SequencerWindowSize,
ChannelTimeout: cfg.DeployConfig.ChannelTimeout,
L1ChainID: cfg.L1ChainIDBig(),
L2ChainID: cfg.L2ChainIDBig(),
BatchInboxAddress: cfg.DeployConfig.BatchInboxAddress,
DepositContractAddress: cfg.DeployConfig.OptimismPortalProxy,
L1SystemConfigAddress: cfg.DeployConfig.SystemConfigProxy,
RegolithTime: cfg.DeployConfig.RegolithTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
CanyonTime: cfg.DeployConfig.CanyonTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
DeltaTime: cfg.DeployConfig.DeltaTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
EcotoneTime: cfg.DeployConfig.EcotoneTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
FjordTime: cfg.DeployConfig.FjordTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
InteropTime: cfg.DeployConfig.InteropTime(uint64(cfg.DeployConfig.L1GenesisBlockTimestamp)),
ProtocolVersionsAddress: cfg.L1Deployments.ProtocolVersionsProxy,
}
}
defaultConfig := makeRollupConfig()
if err := defaultConfig.Check(); err != nil {
return nil, err
}
sys.RollupConfig = &defaultConfig
// Create a fake Beacon node to hold on to blobs created by the L1 miner, and to serve them to L2
bcn := fakebeacon.NewBeacon(testlog.Logger(t, log.LevelInfo).New("role", "l1_cl"),
path.Join(cfg.BlobsPath, "l1_cl"), l1Genesis.Timestamp, cfg.DeployConfig.L1BlockTime)
t.Cleanup(func() {
_ = bcn.Close()
})
require.NoError(t, bcn.Start("127.0.0.1:0"))
beaconApiAddr := bcn.BeaconAddr()
require.NotEmpty(t, beaconApiAddr, "beacon API listener must be up")
sys.L1BeaconAPIAddr = beaconApiAddr
// Initialize nodes
l1Node, l1Backend, err := geth.InitL1(cfg.DeployConfig.L1ChainID, cfg.DeployConfig.L1BlockTime, l1Genesis, c,
path.Join(cfg.BlobsPath, "l1_el"), bcn, cfg.GethOptions["l1"]...)
if err != nil {
return nil, err
}
sys.EthInstances["l1"] = &GethInstance{
Backend: l1Backend,
Node: l1Node,
}
err = l1Node.Start()
if err != nil {
return nil, err
}
for name := range cfg.Nodes {
var ethClient EthInstance
if cfg.ExternalL2Shim == "" {
node, backend, err := geth.InitL2(name, big.NewInt(int64(cfg.DeployConfig.L2ChainID)), l2Genesis, cfg.JWTFilePath, cfg.GethOptions[name]...)
if err != nil {
return nil, err
}
gethInst := &GethInstance{
Backend: backend,
Node: node,
}
err = gethInst.Node.Start()
if err != nil {
return nil, err
}
ethClient = gethInst
} else {
if len(cfg.GethOptions[name]) > 0 {
t.Skip("External L2 nodes do not support configuration through GethOptions")
}
ethClient = (&ExternalRunner{
Name: name,
BinPath: cfg.ExternalL2Shim,
Genesis: l2Genesis,
JWTPath: cfg.JWTFilePath,
}).Run(t)
}
sys.EthInstances[name] = ethClient
}
// Configure connections to L1 and L2 for rollup nodes.
// TODO: refactor testing to allow use of in-process rpc connections instead
// of only websockets (which are required for external eth client tests).
for name, nodeCfg := range cfg.Nodes {
configureL1(nodeCfg, sys.EthInstances["l1"])
configureL2(nodeCfg, sys.EthInstances[name], cfg.JWTSecret)
if sys.RollupConfig.EcotoneTime != nil {
nodeCfg.Beacon = &rollupNode.L1BeaconEndpointConfig{BeaconAddr: sys.L1BeaconAPIAddr}
nodeCfg.L1Blob = &rollupNode.L1BlobEndpointConfig{NodeAddrs: sys.NodeEndpoint("l1")}
}
}
// Geth Clients
ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second)
defer cancel()
l1Srv, err := l1Node.RPCHandler()
if err != nil {
return nil, err
}
rawL1Client := rpc.DialInProc(l1Srv)
l1Client := ethclient.NewClient(rawL1Client)
sys.Clients["l1"] = l1Client
sys.RawClients["l1"] = rawL1Client
for name, ethInst := range sys.EthInstances {
rawClient, err := rpc.DialContext(ctx, ethInst.WSEndpoint())
if err != nil {
return nil, err
}
client := ethclient.NewClient(rawClient)
sys.RawClients[name] = rawClient
sys.Clients[name] = client
}
_, err = geth.WaitForBlock(big.NewInt(2), l1Client, 6*time.Second*time.Duration(cfg.DeployConfig.L1BlockTime))
if err != nil {
return nil, fmt.Errorf("waiting for blocks: %w", err)
}
sys.Mocknet = mocknet.New()
p2pNodes := make(map[string]*p2p.Prepared)
if cfg.P2PTopology != nil {
// create the peer if it doesn't exist yet.
initHostMaybe := func(name string) (*p2p.Prepared, error) {
if p, ok := p2pNodes[name]; ok {
return p, nil
}
h, err := sys.newMockNetPeer()
if err != nil {
return nil, fmt.Errorf("failed to init p2p host for node %s", name)
}
h.Network()
_, ok := cfg.Nodes[name]
if !ok {
return nil, fmt.Errorf("node %s from p2p topology not found in actual nodes map", name)
}
// TODO we can enable discv5 in the testnodes to test discovery of new peers.
// Would need to mock though, and the discv5 implementation does not provide nice mocks here.
p := &p2p.Prepared{
HostP2P: h,
LocalNode: nil,
UDPv5: nil,
EnableReqRespSync: cfg.P2PReqRespSync,
}
p2pNodes[name] = p
return p, nil
}
for k, vs := range cfg.P2PTopology {
peerA, err := initHostMaybe(k)
if err != nil {
return nil, fmt.Errorf("failed to setup mocknet peer %s", k)
}
for _, v := range vs {
v = strings.TrimPrefix(v, "~")
peerB, err := initHostMaybe(v)
if err != nil {
return nil, fmt.Errorf("failed to setup mocknet peer %s (peer of %s)", v, k)
}
if _, err := sys.Mocknet.LinkPeers(peerA.HostP2P.ID(), peerB.HostP2P.ID()); err != nil {
return nil, fmt.Errorf("failed to setup mocknet link between %s and %s", k, v)
}
// connect the peers after starting the full rollup node
}
}
}
// Don't log state snapshots in test output
snapLog := log.NewLogger(log.DiscardHandler())
// Rollup nodes
// Ensure we are looping through the nodes in alphabetical order
ks := make([]string, 0, len(cfg.Nodes))
for k := range cfg.Nodes {
ks = append(ks, k)
}
// Sort strings in ascending alphabetical order
sort.Strings(ks)
for _, name := range ks {
nodeConfig := cfg.Nodes[name]
c := *nodeConfig // copy
c.Rollup = makeRollupConfig()
if err := c.LoadPersisted(cfg.Loggers[name]); err != nil {
return nil, err
}
if p, ok := p2pNodes[name]; ok {
c.P2P = p
if c.Driver.SequencerEnabled && c.P2PSigner == nil {
c.P2PSigner = &p2p.PreparedSigner{Signer: p2p.NewLocalSigner(cfg.Secrets.SequencerP2P)}
}
}
c.Rollup.LogDescription(cfg.Loggers[name], chaincfg.L2ChainIDToNetworkDisplayName)
l := cfg.Loggers[name]
var cycle cliapp.Lifecycle
c.Cancel = func(errCause error) {
l.Warn("node requested early shutdown!", "err", errCause)
go func() {
postCtx, postCancel := context.WithCancel(context.Background())
postCancel() // don't allow the stopping to continue for longer than needed
if err := cycle.Stop(postCtx); err != nil {
t.Error(err)
}
l.Warn("closed op-node!")
}()
}
node, err := rollupNode.New(context.Background(), &c, l, snapLog, "", metrics.NewMetrics(""))
if err != nil {
return nil, err
}
cycle = node
err = node.Start(context.Background())
if err != nil {
return nil, err
}
sys.RollupNodes[name] = node
if action, ok := opts.Get("afterRollupNodeStart", name); ok {
action(&cfg, sys)
}
}
if cfg.P2PTopology != nil {
// We only set up the connections after starting the actual nodes,
// so GossipSub and other p2p protocols can be started before the connections go live.
// This way protocol negotiation happens correctly.
for k, vs := range cfg.P2PTopology {
peerA := p2pNodes[k]
for _, v := range vs {
unconnected := strings.HasPrefix(v, "~")
if unconnected {
v = v[1:]
}
if !unconnected {
peerB := p2pNodes[v]
if _, err := sys.Mocknet.ConnectPeers(peerA.HostP2P.ID(), peerB.HostP2P.ID()); err != nil {
return nil, fmt.Errorf("failed to setup mocknet connection between %s and %s", k, v)
}
}
}
}
}
// Don't start batch submitter and proposer if there's no sequencer.
if sys.RollupNodes["sequencer"] == nil {
return sys, nil
}
// L2Output Submitter
var proposerCLIConfig *l2os.CLIConfig
if e2eutils.UseFaultProofs() {
proposerCLIConfig = &l2os.CLIConfig{
L1EthRpc: sys.EthInstances["l1"].WSEndpoint(),
RollupRpc: sys.RollupNodes["sequencer"].HTTPEndpoint(),
DGFAddress: config.L1Deployments.DisputeGameFactoryProxy.Hex(),
ProposalInterval: 6 * time.Second,
DisputeGameType: 254, // Fast game type
PollInterval: 50 * time.Millisecond,
TxMgrConfig: newTxMgrConfig(sys.EthInstances["l1"].WSEndpoint(), cfg.Secrets.Proposer),
AllowNonFinalized: cfg.NonFinalizedProposals,
LogConfig: oplog.CLIConfig{
Level: log.LvlInfo,
Format: oplog.FormatText,
},
}
} else {
proposerCLIConfig = &l2os.CLIConfig{
L1EthRpc: sys.EthInstances["l1"].WSEndpoint(),
RollupRpc: sys.RollupNodes["sequencer"].HTTPEndpoint(),
L2OOAddress: config.L1Deployments.L2OutputOracleProxy.Hex(),
PollInterval: 50 * time.Millisecond,
TxMgrConfig: newTxMgrConfig(sys.EthInstances["l1"].WSEndpoint(), cfg.Secrets.Proposer),
AllowNonFinalized: cfg.NonFinalizedProposals,
LogConfig: oplog.CLIConfig{
Level: log.LvlInfo,
Format: oplog.FormatText,
},
}
}
proposer, err := l2os.ProposerServiceFromCLIConfig(context.Background(), "0.0.1", proposerCLIConfig, sys.Cfg.Loggers["proposer"])
if err != nil {
return nil, fmt.Errorf("unable to setup l2 output submitter: %w", err)
}
if err := proposer.Start(context.Background()); err != nil {
return nil, fmt.Errorf("unable to start l2 output submitter: %w", err)
}
sys.L2OutputSubmitter = proposer
var batchType uint = derive.SingularBatchType
if cfg.DeployConfig.L2GenesisDeltaTimeOffset != nil && *cfg.DeployConfig.L2GenesisDeltaTimeOffset == hexutil.Uint64(0) {
batchType = derive.SpanBatchType
}
// batcher defaults if unset
batcherMaxL1TxSizeBytes := cfg.BatcherMaxL1TxSizeBytes
if batcherMaxL1TxSizeBytes == 0 {
batcherMaxL1TxSizeBytes = 120_000
}
batcherTargetNumFrames := cfg.BatcherTargetNumFrames
if batcherTargetNumFrames == 0 {
batcherTargetNumFrames = 1
}
var compressionAlgo derive.CompressionAlgo = derive.Zlib
// if opt has brotli key, set the compression algo as brotli
if _, ok := opts.Get("compressionAlgo", "brotli"); ok {
compressionAlgo = derive.Brotli10
}
batcherCLIConfig := &bss.CLIConfig{
L1EthRpc: sys.EthInstances["l1"].WSEndpoint(),
L2EthRpc: sys.EthInstances["sequencer"].WSEndpoint(),
RollupRpc: sys.RollupNodes["sequencer"].HTTPEndpoint(),
MaxPendingTransactions: cfg.MaxPendingTransactions,
MaxChannelDuration: 1,
MaxL1TxSize: batcherMaxL1TxSizeBytes,
TestUseMaxTxSizeForBlobs: cfg.BatcherUseMaxTxSizeForBlobs,
TargetNumFrames: int(batcherTargetNumFrames),
ApproxComprRatio: 0.4,
SubSafetyMargin: 4,
PollInterval: 50 * time.Millisecond,
TxMgrConfig: newTxMgrConfig(sys.EthInstances["l1"].WSEndpoint(), cfg.Secrets.Batcher),
LogConfig: oplog.CLIConfig{
Level: log.LevelInfo,
Format: oplog.FormatText,
},
Stopped: sys.Cfg.DisableBatcher, // Batch submitter may be enabled later
BatchType: batchType,
DataAvailabilityType: sys.Cfg.DataAvailabilityType,
CompressionAlgo: compressionAlgo,
}
// Batch Submitter
batcher, err := bss.BatcherServiceFromCLIConfig(context.Background(), "0.0.1", batcherCLIConfig, sys.Cfg.Loggers["batcher"])
if err != nil {
return nil, fmt.Errorf("failed to setup batch submitter: %w", err)
}
if err := batcher.Start(context.Background()); err != nil {
return nil, errors.Join(fmt.Errorf("failed to start batch submitter: %w", err), batcher.Stop(context.Background()))
}
sys.BatchSubmitter = batcher
return sys, nil
}
// IP6 range that gets blackholed (in case our traffic ever makes it out onto
// the internet).
var blackholeIP6 = net.ParseIP("100::")
// mocknet doesn't allow us to add a peerstore without fully creating the peer ourselves
func (sys *System) newMockNetPeer() (host.Host, error) {
sk, _, err := ic.GenerateECDSAKeyPair(rand.Reader)
if err != nil {
return nil, err
}
id, err := peer.IDFromPrivateKey(sk)
if err != nil {
return nil, err
}
suffix := id
if len(id) > 8 {
suffix = id[len(id)-8:]
}
ip := append(net.IP{}, blackholeIP6...)
copy(ip[net.IPv6len-len(suffix):], suffix)
a, err := ma.NewMultiaddr(fmt.Sprintf("/ip6/%s/tcp/4242", ip))
if err != nil {
return nil, fmt.Errorf("failed to create test multiaddr: %w", err)
}
p, err := peer.IDFromPublicKey(sk.GetPublic())
if err != nil {
return nil, err
}
ps, err := pstoremem.NewPeerstore()
if err != nil {
return nil, err
}
ps.AddAddr(p, a, peerstore.PermanentAddrTTL)
_ = ps.AddPrivKey(p, sk)
_ = ps.AddPubKey(p, sk.GetPublic())
ds := dsSync.MutexWrap(ds.NewMapDatastore())
eps, err := store.NewExtendedPeerstore(context.Background(), log.Root(), clock.SystemClock, ps, ds, 24*time.Hour)
if err != nil {
return nil, err
}
return sys.Mocknet.AddPeerWithPeerstore(p, eps)
}
func (sys *System) BatcherHelper() *batcher.Helper {
return batcher.NewHelper(sys.t, sys.Cfg.Secrets.Batcher, sys.RollupConfig, sys.NodeClient("l1"))
}
func UseHTTP() bool {
return os.Getenv("OP_E2E_USE_HTTP") == "true"
}
func selectEndpoint(node EthInstance) string {
if UseHTTP() {
log.Info("using HTTP client")
return node.HTTPEndpoint()
}
return node.WSEndpoint()
}
func configureL1(rollupNodeCfg *rollupNode.Config, l1Node EthInstance) {
l1EndpointConfig := selectEndpoint(l1Node)
rollupNodeCfg.L1 = &rollupNode.L1EndpointConfig{
L1NodeAddr: l1EndpointConfig,
L1TrustRPC: false,
L1RPCKind: sources.RPCKindStandard,
RateLimit: 0,
BatchSize: 20,
HttpPollInterval: time.Millisecond * 100,
MaxConcurrency: 10,
CacheSize: 1000,
}
}
type WSOrHTTPEndpoint interface {
WSAuthEndpoint() string
HTTPAuthEndpoint() string
}
func configureL2(rollupNodeCfg *rollupNode.Config, l2Node WSOrHTTPEndpoint, jwtSecret [32]byte) {
l2EndpointConfig := l2Node.WSAuthEndpoint()
if UseHTTP() {
l2EndpointConfig = l2Node.HTTPAuthEndpoint()
}
rollupNodeCfg.L2 = &rollupNode.L2EndpointConfig{
L2EngineAddr: l2EndpointConfig,
L2EngineJWTSecret: jwtSecret,
}
}
func (cfg SystemConfig) L1ChainIDBig() *big.Int {
return new(big.Int).SetUint64(cfg.DeployConfig.L1ChainID)
}
func (cfg SystemConfig) L2ChainIDBig() *big.Int {
return new(big.Int).SetUint64(cfg.DeployConfig.L2ChainID)
}
func hexPriv(in *ecdsa.PrivateKey) string {
b := e2eutils.EncodePrivKey(in)
return hexutil.Encode(b)
}