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lnd.go
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// Copyright (c) 2013-2017 The btcsuite developers
// Copyright (c) 2015-2016 The Decred developers
// Copyright (C) 2015-2017 The Lightning Network Developers
package main
import (
"bytes"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/tls"
"crypto/x509"
"crypto/x509/pkix"
"encoding/pem"
"fmt"
"io/ioutil"
"math/big"
"net"
"net/http"
_ "net/http/pprof"
"os"
"path/filepath"
"runtime/pprof"
"strings"
"sync"
"time"
"gopkg.in/macaroon-bakery.v2/bakery"
"golang.org/x/net/context"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
"github.com/btcsuite/btcd/btcec"
"github.com/btcsuite/btcwallet/wallet"
proxy "github.com/grpc-ecosystem/grpc-gateway/runtime"
flags "github.com/jessevdk/go-flags"
"github.com/lightningnetwork/lnd/autopilot"
"github.com/lightningnetwork/lnd/build"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/keychain"
"github.com/lightningnetwork/lnd/lncfg"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/lnwallet/btcwallet"
"github.com/lightningnetwork/lnd/macaroons"
"github.com/lightningnetwork/lnd/signal"
"github.com/lightningnetwork/lnd/walletunlocker"
)
const (
// Make certificate valid for 14 months.
autogenCertValidity = 14 /*months*/ * 30 /*days*/ * 24 * time.Hour
)
var (
cfg *config
registeredChains = newChainRegistry()
// networkDir is the path to the directory of the currently active
// network. This path will hold the files related to each different
// network.
networkDir string
// End of ASN.1 time.
endOfTime = time.Date(2049, 12, 31, 23, 59, 59, 0, time.UTC)
// Max serial number.
serialNumberLimit = new(big.Int).Lsh(big.NewInt(1), 128)
/*
* These cipher suites fit the following criteria:
* - Don't use outdated algorithms like SHA-1 and 3DES
* - Don't use ECB mode or other insecure symmetric methods
* - Included in the TLS v1.2 suite
* - Are available in the Go 1.7.6 standard library (more are
* available in 1.8.3 and will be added after lnd no longer
* supports 1.7, including suites that support CBC mode)
**/
tlsCipherSuites = []uint16{
tls.TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256,
tls.TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,
tls.TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,
tls.TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,
}
)
// lndMain is the true entry point for lnd. This function is required since
// defers created in the top-level scope of a main method aren't executed if
// os.Exit() is called.
func lndMain() error {
// Load the configuration, and parse any command line options. This
// function will also set up logging properly.
loadedConfig, err := loadConfig()
if err != nil {
return err
}
cfg = loadedConfig
defer func() {
if logRotator != nil {
ltndLog.Info("Shutdown complete")
logRotator.Close()
}
}()
// Show version at startup.
ltndLog.Infof("Version: %s, build=%s, logging=%s",
build.Version(), build.Deployment, build.LoggingType)
var network string
switch {
case cfg.Bitcoin.TestNet3 || cfg.Litecoin.TestNet3:
network = "testnet"
case cfg.Bitcoin.MainNet || cfg.Litecoin.MainNet:
network = "mainnet"
case cfg.Bitcoin.SimNet:
network = "simnet"
case cfg.Bitcoin.RegTest:
network = "regtest"
}
ltndLog.Infof("Active chain: %v (network=%v)",
strings.Title(registeredChains.PrimaryChain().String()),
network,
)
// Enable http profiling server if requested.
if cfg.Profile != "" {
go func() {
listenAddr := net.JoinHostPort("", cfg.Profile)
profileRedirect := http.RedirectHandler("/debug/pprof",
http.StatusSeeOther)
http.Handle("/", profileRedirect)
fmt.Println(http.ListenAndServe(listenAddr, nil))
}()
}
// Write cpu profile if requested.
if cfg.CPUProfile != "" {
f, err := os.Create(cfg.CPUProfile)
if err != nil {
ltndLog.Errorf("Unable to create cpu profile: %v", err)
return err
}
pprof.StartCPUProfile(f)
defer f.Close()
defer pprof.StopCPUProfile()
}
// Create the network-segmented directory for the channel database.
graphDir := filepath.Join(cfg.DataDir,
defaultGraphSubDirname,
normalizeNetwork(activeNetParams.Name))
// Open the channeldb, which is dedicated to storing channel, and
// network related metadata.
chanDB, err := channeldb.Open(graphDir)
if err != nil {
ltndLog.Errorf("unable to open channeldb: %v", err)
return err
}
defer chanDB.Close()
// Only process macaroons if --no-macaroons isn't set.
ctx := context.Background()
ctx, cancel := context.WithCancel(ctx)
defer cancel()
// Ensure we create TLS key and certificate if they don't exist
if !fileExists(cfg.TLSCertPath) && !fileExists(cfg.TLSKeyPath) {
if err := genCertPair(cfg.TLSCertPath, cfg.TLSKeyPath); err != nil {
return err
}
}
cert, err := tls.LoadX509KeyPair(cfg.TLSCertPath, cfg.TLSKeyPath)
if err != nil {
return err
}
tlsConf := &tls.Config{
Certificates: []tls.Certificate{cert},
CipherSuites: tlsCipherSuites,
MinVersion: tls.VersionTLS12,
}
sCreds := credentials.NewTLS(tlsConf)
serverOpts := []grpc.ServerOption{grpc.Creds(sCreds)}
cCreds, err := credentials.NewClientTLSFromFile(cfg.TLSCertPath, "")
if err != nil {
return err
}
proxyOpts := []grpc.DialOption{grpc.WithTransportCredentials(cCreds)}
var (
privateWalletPw = lnwallet.DefaultPrivatePassphrase
publicWalletPw = lnwallet.DefaultPublicPassphrase
birthday = time.Now()
recoveryWindow uint32
unlockedWallet *wallet.Wallet
)
// We wait until the user provides a password over RPC. In case lnd is
// started with the --noseedbackup flag, we use the default password
// for wallet encryption.
if !cfg.NoSeedBackup {
walletInitParams, err := waitForWalletPassword(
cfg.RPCListeners, cfg.RESTListeners, serverOpts,
proxyOpts, tlsConf,
)
if err != nil {
return err
}
privateWalletPw = walletInitParams.Password
publicWalletPw = walletInitParams.Password
birthday = walletInitParams.Birthday
recoveryWindow = walletInitParams.RecoveryWindow
unlockedWallet = walletInitParams.Wallet
if recoveryWindow > 0 {
ltndLog.Infof("Wallet recovery mode enabled with "+
"address lookahead of %d addresses",
recoveryWindow)
}
}
var macaroonService *macaroons.Service
if !cfg.NoMacaroons {
// Create the macaroon authentication/authorization service.
macaroonService, err = macaroons.NewService(
networkDir, macaroons.IPLockChecker,
)
if err != nil {
srvrLog.Errorf("unable to create macaroon service: %v", err)
return err
}
defer macaroonService.Close()
// Try to unlock the macaroon store with the private password.
err = macaroonService.CreateUnlock(&privateWalletPw)
if err != nil {
srvrLog.Error(err)
return err
}
// Create macaroon files for lncli to use if they don't exist.
if !fileExists(cfg.AdminMacPath) && !fileExists(cfg.ReadMacPath) &&
!fileExists(cfg.InvoiceMacPath) {
err = genMacaroons(
ctx, macaroonService, cfg.AdminMacPath,
cfg.ReadMacPath, cfg.InvoiceMacPath,
)
if err != nil {
ltndLog.Errorf("unable to create macaroon "+
"files: %v", err)
return err
}
}
}
// With the information parsed from the configuration, create valid
// instances of the pertinent interfaces required to operate the
// Lightning Network Daemon.
activeChainControl, chainCleanUp, err := newChainControlFromConfig(
cfg, chanDB, privateWalletPw, publicWalletPw, birthday,
recoveryWindow, unlockedWallet,
)
if err != nil {
fmt.Printf("unable to create chain control: %v\n", err)
return err
}
if chainCleanUp != nil {
defer chainCleanUp()
}
// Finally before we start the server, we'll register the "holy
// trinity" of interface for our current "home chain" with the active
// chainRegistry interface.
primaryChain := registeredChains.PrimaryChain()
registeredChains.RegisterChain(primaryChain, activeChainControl)
// TODO(roasbeef): add rotation
idPrivKey, err := activeChainControl.wallet.DerivePrivKey(keychain.KeyDescriptor{
KeyLocator: keychain.KeyLocator{
Family: keychain.KeyFamilyNodeKey,
Index: 0,
},
})
if err != nil {
return err
}
idPrivKey.Curve = btcec.S256()
if cfg.Tor.Active {
srvrLog.Infof("Proxying all network traffic via Tor "+
"(stream_isolation=%v)! NOTE: Ensure the backend node "+
"is proxying over Tor as well", cfg.Tor.StreamIsolation)
}
// Set up the core server which will listen for incoming peer
// connections.
server, err := newServer(
cfg.Listeners, chanDB, activeChainControl, idPrivKey,
)
if err != nil {
srvrLog.Errorf("unable to create server: %v\n", err)
return err
}
// Set up an autopilot manager from the current config. This will be
// used to manage the underlying autopilot agent, starting and stopping
// it at will.
atplCfg, err := initAutoPilot(server, cfg.Autopilot)
if err != nil {
ltndLog.Errorf("unable to init autopilot: %v", err)
return err
}
atplManager, err := autopilot.NewManager(atplCfg)
if err != nil {
ltndLog.Errorf("unable to create autopilot manager: %v", err)
return err
}
if err := atplManager.Start(); err != nil {
ltndLog.Errorf("unable to start autopilot manager: %v", err)
return err
}
defer atplManager.Stop()
// Initialize, and register our implementation of the gRPC interface
// exported by the rpcServer.
rpcServer, err := newRPCServer(
server, macaroonService, cfg.SubRPCServers, serverOpts,
proxyOpts, atplManager, tlsConf,
)
if err != nil {
srvrLog.Errorf("unable to start RPC server: %v", err)
return err
}
if err := rpcServer.Start(); err != nil {
return err
}
defer rpcServer.Stop()
// If we're not in simnet mode, We'll wait until we're fully synced to
// continue the start up of the remainder of the daemon. This ensures
// that we don't accept any possibly invalid state transitions, or
// accept channels with spent funds.
if !(cfg.Bitcoin.SimNet || cfg.Litecoin.SimNet) {
_, bestHeight, err := activeChainControl.chainIO.GetBestBlock()
if err != nil {
return err
}
ltndLog.Infof("Waiting for chain backend to finish sync, "+
"start_height=%v", bestHeight)
for {
if !signal.Alive() {
return nil
}
synced, _, err := activeChainControl.wallet.IsSynced()
if err != nil {
return err
}
if synced {
break
}
time.Sleep(time.Second * 1)
}
_, bestHeight, err = activeChainControl.chainIO.GetBestBlock()
if err != nil {
return err
}
ltndLog.Infof("Chain backend is fully synced (end_height=%v)!",
bestHeight)
}
// With all the relevant chains initialized, we can finally start the
// server itself.
if err := server.Start(); err != nil {
srvrLog.Errorf("unable to start server: %v\n", err)
return err
}
defer server.Stop()
// Now that the server has started, if the autopilot mode is currently
// active, then we'll start the autopilot agent immediately. It will be
// stopped together with the autopilot service.
if cfg.Autopilot.Active {
if err := atplManager.StartAgent(); err != nil {
ltndLog.Errorf("unable to start autopilot agent: %v",
err)
return err
}
}
// Wait for shutdown signal from either a graceful server stop or from
// the interrupt handler.
<-signal.ShutdownChannel()
return nil
}
func main() {
// Call the "real" main in a nested manner so the defers will properly
// be executed in the case of a graceful shutdown.
if err := lndMain(); err != nil {
if e, ok := err.(*flags.Error); ok && e.Type == flags.ErrHelp {
} else {
fmt.Fprintln(os.Stderr, err)
}
os.Exit(1)
}
}
// fileExists reports whether the named file or directory exists.
// This function is taken from https://github.com/btcsuite/btcd
func fileExists(name string) bool {
if _, err := os.Stat(name); err != nil {
if os.IsNotExist(err) {
return false
}
}
return true
}
// genCertPair generates a key/cert pair to the paths provided. The
// auto-generated certificates should *not* be used in production for public
// access as they're self-signed and don't necessarily contain all of the
// desired hostnames for the service. For production/public use, consider a
// real PKI.
//
// This function is adapted from https://github.com/btcsuite/btcd and
// https://github.com/btcsuite/btcutil
func genCertPair(certFile, keyFile string) error {
rpcsLog.Infof("Generating TLS certificates...")
org := "lnd autogenerated cert"
now := time.Now()
validUntil := now.Add(autogenCertValidity)
// Check that the certificate validity isn't past the ASN.1 end of time.
if validUntil.After(endOfTime) {
validUntil = endOfTime
}
// Generate a serial number that's below the serialNumberLimit.
serialNumber, err := rand.Int(rand.Reader, serialNumberLimit)
if err != nil {
return fmt.Errorf("failed to generate serial number: %s", err)
}
// Collect the host's IP addresses, including loopback, in a slice.
ipAddresses := []net.IP{net.ParseIP("127.0.0.1"), net.ParseIP("::1")}
// addIP appends an IP address only if it isn't already in the slice.
addIP := func(ipAddr net.IP) {
for _, ip := range ipAddresses {
if bytes.Equal(ip, ipAddr) {
return
}
}
ipAddresses = append(ipAddresses, ipAddr)
}
// Add all the interface IPs that aren't already in the slice.
addrs, err := net.InterfaceAddrs()
if err != nil {
return err
}
for _, a := range addrs {
ipAddr, _, err := net.ParseCIDR(a.String())
if err == nil {
addIP(ipAddr)
}
}
// Add extra IP to the slice.
ipAddr := net.ParseIP(cfg.TLSExtraIP)
if ipAddr != nil {
addIP(ipAddr)
}
// Collect the host's names into a slice.
host, err := os.Hostname()
if err != nil {
return err
}
dnsNames := []string{host}
if host != "localhost" {
dnsNames = append(dnsNames, "localhost")
}
if cfg.TLSExtraDomain != "" {
dnsNames = append(dnsNames, cfg.TLSExtraDomain)
}
// Also add fake hostnames for unix sockets, otherwise hostname
// verification will fail in the client.
dnsNames = append(dnsNames, "unix", "unixpacket")
// Generate a private key for the certificate.
priv, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
return err
}
// Construct the certificate template.
template := x509.Certificate{
SerialNumber: serialNumber,
Subject: pkix.Name{
Organization: []string{org},
CommonName: host,
},
NotBefore: now.Add(-time.Hour * 24),
NotAfter: validUntil,
KeyUsage: x509.KeyUsageKeyEncipherment |
x509.KeyUsageDigitalSignature | x509.KeyUsageCertSign,
IsCA: true, // so can sign self.
BasicConstraintsValid: true,
DNSNames: dnsNames,
IPAddresses: ipAddresses,
}
derBytes, err := x509.CreateCertificate(rand.Reader, &template,
&template, &priv.PublicKey, priv)
if err != nil {
return fmt.Errorf("failed to create certificate: %v", err)
}
certBuf := &bytes.Buffer{}
err = pem.Encode(certBuf, &pem.Block{Type: "CERTIFICATE",
Bytes: derBytes})
if err != nil {
return fmt.Errorf("failed to encode certificate: %v", err)
}
keybytes, err := x509.MarshalECPrivateKey(priv)
if err != nil {
return fmt.Errorf("unable to encode privkey: %v", err)
}
keyBuf := &bytes.Buffer{}
err = pem.Encode(keyBuf, &pem.Block{Type: "EC PRIVATE KEY",
Bytes: keybytes})
if err != nil {
return fmt.Errorf("failed to encode private key: %v", err)
}
// Write cert and key files.
if err = ioutil.WriteFile(certFile, certBuf.Bytes(), 0644); err != nil {
return err
}
if err = ioutil.WriteFile(keyFile, keyBuf.Bytes(), 0600); err != nil {
os.Remove(certFile)
return err
}
rpcsLog.Infof("Done generating TLS certificates")
return nil
}
// genMacaroons generates three macaroon files; one admin-level, one for
// invoice access and one read-only. These can also be used to generate more
// granular macaroons.
func genMacaroons(ctx context.Context, svc *macaroons.Service,
admFile, roFile, invoiceFile string) error {
// First, we'll generate a macaroon that only allows the caller to
// access invoice related calls. This is useful for merchants and other
// services to allow an isolated instance that can only query and
// modify invoices.
invoiceMac, err := svc.Oven.NewMacaroon(
ctx, bakery.LatestVersion, nil, invoicePermissions...,
)
if err != nil {
return err
}
invoiceMacBytes, err := invoiceMac.M().MarshalBinary()
if err != nil {
return err
}
err = ioutil.WriteFile(invoiceFile, invoiceMacBytes, 0644)
if err != nil {
os.Remove(invoiceFile)
return err
}
// Generate the read-only macaroon and write it to a file.
roMacaroon, err := svc.Oven.NewMacaroon(
ctx, bakery.LatestVersion, nil, readPermissions...,
)
if err != nil {
return err
}
roBytes, err := roMacaroon.M().MarshalBinary()
if err != nil {
return err
}
if err = ioutil.WriteFile(roFile, roBytes, 0644); err != nil {
os.Remove(admFile)
return err
}
// Generate the admin macaroon and write it to a file.
adminPermissions := append(readPermissions, writePermissions...)
admMacaroon, err := svc.Oven.NewMacaroon(
ctx, bakery.LatestVersion, nil, adminPermissions...,
)
if err != nil {
return err
}
admBytes, err := admMacaroon.M().MarshalBinary()
if err != nil {
return err
}
if err = ioutil.WriteFile(admFile, admBytes, 0600); err != nil {
return err
}
return nil
}
// WalletUnlockParams holds the variables used to parameterize the unlocking of
// lnd's wallet after it has already been created.
type WalletUnlockParams struct {
// Password is the public and private wallet passphrase.
Password []byte
// Birthday specifies the approximate time that this wallet was created.
// This is used to bound any rescans on startup.
Birthday time.Time
// RecoveryWindow specifies the address lookahead when entering recovery
// mode. A recovery will be attempted if this value is non-zero.
RecoveryWindow uint32
// Wallet is the loaded and unlocked Wallet. This is returned
// from the unlocker service to avoid it being unlocked twice (once in
// the unlocker service to check if the password is correct and again
// later when lnd actually uses it). Because unlocking involves scrypt
// which is resource intensive, we want to avoid doing it twice.
Wallet *wallet.Wallet
}
// waitForWalletPassword will spin up gRPC and REST endpoints for the
// WalletUnlocker server, and block until a password is provided by
// the user to this RPC server.
func waitForWalletPassword(grpcEndpoints, restEndpoints []net.Addr,
serverOpts []grpc.ServerOption, proxyOpts []grpc.DialOption,
tlsConf *tls.Config) (*WalletUnlockParams, error) {
// Set up a new PasswordService, which will listen for passwords
// provided over RPC.
grpcServer := grpc.NewServer(serverOpts...)
chainConfig := cfg.Bitcoin
if registeredChains.PrimaryChain() == litecoinChain {
chainConfig = cfg.Litecoin
}
// The macaroon files are passed to the wallet unlocker since they are
// also encrypted with the wallet's password. These files will be
// deleted within it and recreated when successfully changing the
// wallet's password.
macaroonFiles := []string{
filepath.Join(networkDir, macaroons.DBFilename),
cfg.AdminMacPath, cfg.ReadMacPath, cfg.InvoiceMacPath,
}
pwService := walletunlocker.New(
chainConfig.ChainDir, activeNetParams.Params, macaroonFiles,
)
lnrpc.RegisterWalletUnlockerServer(grpcServer, pwService)
// Use a WaitGroup so we can be sure the instructions on how to input the
// password is the last thing to be printed to the console.
var wg sync.WaitGroup
for _, grpcEndpoint := range grpcEndpoints {
// Start a gRPC server listening for HTTP/2 connections, solely
// used for getting the encryption password from the client.
lis, err := lncfg.ListenOnAddress(grpcEndpoint)
if err != nil {
ltndLog.Errorf(
"password RPC server unable to listen on %s",
grpcEndpoint,
)
return nil, err
}
defer lis.Close()
wg.Add(1)
go func() {
rpcsLog.Infof(
"password RPC server listening on %s",
lis.Addr(),
)
wg.Done()
grpcServer.Serve(lis)
}()
}
// Start a REST proxy for our gRPC server above.
ctx := context.Background()
ctx, cancel := context.WithCancel(ctx)
defer cancel()
mux := proxy.NewServeMux()
err := lnrpc.RegisterWalletUnlockerHandlerFromEndpoint(
ctx, mux, grpcEndpoints[0].String(), proxyOpts,
)
if err != nil {
return nil, err
}
srv := &http.Server{Handler: mux}
for _, restEndpoint := range restEndpoints {
lis, err := lncfg.TLSListenOnAddress(restEndpoint, tlsConf)
if err != nil {
ltndLog.Errorf(
"password gRPC proxy unable to listen on %s",
restEndpoint,
)
return nil, err
}
defer lis.Close()
wg.Add(1)
go func() {
rpcsLog.Infof(
"password gRPC proxy started at %s",
lis.Addr(),
)
wg.Done()
srv.Serve(lis)
}()
}
// Wait for gRPC and REST servers to be up running.
wg.Wait()
// Wait for user to provide the password.
ltndLog.Infof("Waiting for wallet encryption password. Use `lncli " +
"create` to create a wallet, `lncli unlock` to unlock an " +
"existing wallet, or `lncli changepassword` to change the " +
"password of an existing wallet and unlock it.")
// We currently don't distinguish between getting a password to be used
// for creation or unlocking, as a new wallet db will be created if
// none exists when creating the chain control.
select {
// The wallet is being created for the first time, we'll check to see
// if the user provided any entropy for seed creation. If so, then
// we'll create the wallet early to load the seed.
case initMsg := <-pwService.InitMsgs:
password := initMsg.Passphrase
cipherSeed := initMsg.WalletSeed
recoveryWindow := initMsg.RecoveryWindow
// Before we proceed, we'll check the internal version of the
// seed. If it's greater than the current key derivation
// version, then we'll return an error as we don't understand
// this.
if cipherSeed.InternalVersion != keychain.KeyDerivationVersion {
return nil, fmt.Errorf("invalid internal seed version "+
"%v, current version is %v",
cipherSeed.InternalVersion,
keychain.KeyDerivationVersion)
}
netDir := btcwallet.NetworkDir(
chainConfig.ChainDir, activeNetParams.Params,
)
loader := wallet.NewLoader(
activeNetParams.Params, netDir, uint32(recoveryWindow),
)
// With the seed, we can now use the wallet loader to create
// the wallet, then pass it back to avoid unlocking it again.
birthday := cipherSeed.BirthdayTime()
newWallet, err := loader.CreateNewWallet(
password, password, cipherSeed.Entropy[:], birthday,
)
if err != nil {
// Don't leave the file open in case the new wallet
// could not be created for whatever reason.
if err := loader.UnloadWallet(); err != nil {
ltndLog.Errorf("Could not unload new "+
"wallet: %v", err)
}
return nil, err
}
walletInitParams := &WalletUnlockParams{
Password: password,
Birthday: birthday,
RecoveryWindow: recoveryWindow,
Wallet: newWallet,
}
return walletInitParams, nil
// The wallet has already been created in the past, and is simply being
// unlocked. So we'll just return these passphrases.
case unlockMsg := <-pwService.UnlockMsgs:
walletInitParams := &WalletUnlockParams{
Password: unlockMsg.Passphrase,
RecoveryWindow: unlockMsg.RecoveryWindow,
Wallet: unlockMsg.Wallet,
}
return walletInitParams, nil
case <-signal.ShutdownChannel():
return nil, fmt.Errorf("shutting down")
}
}