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lnd.go
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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) 2015-2022 The Lightning Network Developers
package lnd
import (
"context"
"errors"
"fmt"
"net"
"net/http"
"net/http/pprof"
"os"
"runtime"
runtimePprof "runtime/pprof"
"strings"
"sync"
"time"
"github.com/btcsuite/btcd/btcutil"
proxy "github.com/grpc-ecosystem/grpc-gateway/v2/runtime"
"github.com/lightningnetwork/lnd/autopilot"
"github.com/lightningnetwork/lnd/build"
"github.com/lightningnetwork/lnd/chanacceptor"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/cluster"
"github.com/lightningnetwork/lnd/keychain"
"github.com/lightningnetwork/lnd/lncfg"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/macaroons"
"github.com/lightningnetwork/lnd/monitoring"
"github.com/lightningnetwork/lnd/rpcperms"
"github.com/lightningnetwork/lnd/signal"
"github.com/lightningnetwork/lnd/tor"
"github.com/lightningnetwork/lnd/walletunlocker"
"github.com/lightningnetwork/lnd/watchtower"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
"google.golang.org/grpc/keepalive"
"gopkg.in/macaroon-bakery.v2/bakery"
"gopkg.in/macaroon.v2"
)
const (
// adminMacaroonFilePermissions is the file permission that is used for
// creating the admin macaroon file.
//
// Why 640 is safe:
// Assuming a reasonably secure Linux system, it will have a
// separate group for each user. E.g. a new user lnd gets assigned group
// lnd which nothing else belongs to. A system that does not do this is
// inherently broken already.
//
// Since there is no other user in the group, no other user can read
// admin macaroon unless the administrator explicitly allowed it. Thus
// there's no harm allowing group read.
adminMacaroonFilePermissions = 0640
// leaderResignTimeout is the timeout used when resigning from the
// leader role. This is kept short so LND can shut down quickly in case
// of a system failure or network partition making the cluster
// unresponsive. The cluster itself should ensure that the leader is not
// elected again until the previous leader has resigned or the leader
// election timeout has passed.
leaderResignTimeout = 5 * time.Second
)
// AdminAuthOptions returns a list of DialOptions that can be used to
// authenticate with the RPC server with admin capabilities.
// skipMacaroons=true should be set if we don't want to include macaroons with
// the auth options. This is needed for instance for the WalletUnlocker
// service, which must be usable also before macaroons are created.
//
// NOTE: This should only be called after the RPCListener has signaled it is
// ready.
func AdminAuthOptions(cfg *Config, skipMacaroons bool) ([]grpc.DialOption,
error) {
creds, err := credentials.NewClientTLSFromFile(cfg.TLSCertPath, "")
if err != nil {
return nil, fmt.Errorf("unable to read TLS cert: %w", err)
}
// Create a dial options array.
opts := []grpc.DialOption{
grpc.WithTransportCredentials(creds),
}
// Get the admin macaroon if macaroons are active.
if !skipMacaroons && !cfg.NoMacaroons {
// Load the admin macaroon file.
macBytes, err := os.ReadFile(cfg.AdminMacPath)
if err != nil {
return nil, fmt.Errorf("unable to read macaroon "+
"path (check the network setting!): %v", err)
}
mac := &macaroon.Macaroon{}
if err = mac.UnmarshalBinary(macBytes); err != nil {
return nil, fmt.Errorf("unable to decode macaroon: %w",
err)
}
// Now we append the macaroon credentials to the dial options.
cred, err := macaroons.NewMacaroonCredential(mac)
if err != nil {
return nil, fmt.Errorf("error cloning mac: %w", err)
}
opts = append(opts, grpc.WithPerRPCCredentials(cred))
}
return opts, nil
}
// ListenerWithSignal is a net.Listener that has an additional Ready channel
// that will be closed when a server starts listening.
type ListenerWithSignal struct {
net.Listener
// Ready will be closed by the server listening on Listener.
Ready chan struct{}
// MacChan is an optional way to pass the admin macaroon to the program
// that started lnd. The channel should be buffered to avoid lnd being
// blocked on sending to the channel.
MacChan chan []byte
}
// ListenerCfg is a wrapper around custom listeners that can be passed to lnd
// when calling its main method.
type ListenerCfg struct {
// RPCListeners can be set to the listeners to use for the RPC server.
// If empty a regular network listener will be created.
RPCListeners []*ListenerWithSignal
}
var errStreamIsolationWithProxySkip = errors.New(
"while stream isolation is enabled, the TOR proxy may not be skipped",
)
// Main is the true entry point for lnd. It accepts a fully populated and
// validated main configuration struct and an optional listener config struct.
// This function starts all main system components then blocks until a signal
// is received on the shutdownChan at which point everything is shut down again.
func Main(cfg *Config, lisCfg ListenerCfg, implCfg *ImplementationCfg,
interceptor signal.Interceptor) error {
defer func() {
ltndLog.Info("Shutdown complete\n")
err := cfg.LogRotator.Close()
if err != nil {
ltndLog.Errorf("Could not close log rotator: %v", err)
}
}()
mkErr := func(format string, args ...interface{}) error {
ltndLog.Errorf("Shutting down because error in main "+
"method: "+format, args...)
return fmt.Errorf(format, args...)
}
// Show version at startup.
ltndLog.Infof("Version: %s commit=%s, build=%s, logging=%s, "+
"debuglevel=%s", build.Version(), build.Commit,
build.Deployment, build.LoggingType, cfg.DebugLevel)
var network string
switch {
case cfg.Bitcoin.TestNet3:
network = "testnet"
case cfg.Bitcoin.MainNet:
network = "mainnet"
case cfg.Bitcoin.SimNet:
network = "simnet"
case cfg.Bitcoin.RegTest:
network = "regtest"
case cfg.Bitcoin.SigNet:
network = "signet"
}
ltndLog.Infof("Active chain: %v (network=%v)",
strings.Title(BitcoinChainName), network,
)
ctx := context.Background()
ctx, cancel := context.WithCancel(ctx)
defer cancel()
// Enable http profiling server if requested.
if cfg.Pprof.Profile != "" {
// Create the http handler.
pprofMux := http.NewServeMux()
pprofMux.HandleFunc("/debug/pprof/", pprof.Index)
pprofMux.HandleFunc("/debug/pprof/cmdline", pprof.Cmdline)
pprofMux.HandleFunc("/debug/pprof/profile", pprof.Profile)
pprofMux.HandleFunc("/debug/pprof/symbol", pprof.Symbol)
pprofMux.HandleFunc("/debug/pprof/trace", pprof.Trace)
if cfg.Pprof.BlockingProfile != 0 {
runtime.SetBlockProfileRate(cfg.Pprof.BlockingProfile)
}
if cfg.Pprof.MutexProfile != 0 {
runtime.SetMutexProfileFraction(cfg.Pprof.MutexProfile)
}
// Redirect all requests to the pprof handler, thus visiting
// `127.0.0.1:6060` will be redirected to
// `127.0.0.1:6060/debug/pprof`.
pprofMux.Handle("/", http.RedirectHandler(
"/debug/pprof/", http.StatusSeeOther,
))
ltndLog.Infof("Pprof listening on %v", cfg.Pprof.Profile)
// Create the pprof server.
pprofServer := &http.Server{
Addr: cfg.Pprof.Profile,
Handler: pprofMux,
ReadHeaderTimeout: cfg.HTTPHeaderTimeout,
}
// Shut the server down when lnd is shutting down.
defer func() {
ltndLog.Info("Stopping pprof server...")
err := pprofServer.Shutdown(ctx)
if err != nil {
ltndLog.Errorf("Stop pprof server got err: %v",
err)
}
}()
// Start the pprof server.
go func() {
err := pprofServer.ListenAndServe()
if err != nil && !errors.Is(err, http.ErrServerClosed) {
ltndLog.Errorf("Serving pprof got err: %v", err)
}
}()
}
// Write cpu profile if requested.
if cfg.Pprof.CPUProfile != "" {
f, err := os.Create(cfg.Pprof.CPUProfile)
if err != nil {
return mkErr("unable to create CPU profile: %v", err)
}
_ = runtimePprof.StartCPUProfile(f)
defer func() {
_ = f.Close()
}()
defer runtimePprof.StopCPUProfile()
}
// Run configuration dependent DB pre-initialization. Note that this
// needs to be done early and once during the startup process, before
// any DB access.
if err := cfg.DB.Init(ctx, cfg.graphDatabaseDir()); err != nil {
return mkErr("error initializing DBs: %v", err)
}
tlsManagerCfg := &TLSManagerCfg{
TLSCertPath: cfg.TLSCertPath,
TLSKeyPath: cfg.TLSKeyPath,
TLSEncryptKey: cfg.TLSEncryptKey,
TLSExtraIPs: cfg.TLSExtraIPs,
TLSExtraDomains: cfg.TLSExtraDomains,
TLSAutoRefresh: cfg.TLSAutoRefresh,
TLSDisableAutofill: cfg.TLSDisableAutofill,
TLSCertDuration: cfg.TLSCertDuration,
LetsEncryptDir: cfg.LetsEncryptDir,
LetsEncryptDomain: cfg.LetsEncryptDomain,
LetsEncryptListen: cfg.LetsEncryptListen,
DisableRestTLS: cfg.DisableRestTLS,
HTTPHeaderTimeout: cfg.HTTPHeaderTimeout,
}
tlsManager := NewTLSManager(tlsManagerCfg)
serverOpts, restDialOpts, restListen, cleanUp,
err := tlsManager.SetCertificateBeforeUnlock()
if err != nil {
return mkErr("error setting cert before unlock: %v", err)
}
if cleanUp != nil {
defer cleanUp()
}
// If we have chosen to start with a dedicated listener for the
// rpc server, we set it directly.
grpcListeners := append([]*ListenerWithSignal{}, lisCfg.RPCListeners...)
if len(grpcListeners) == 0 {
// Otherwise we create listeners from the RPCListeners defined
// in the config.
for _, grpcEndpoint := range cfg.RPCListeners {
// Start a gRPC server listening for HTTP/2
// connections.
lis, err := lncfg.ListenOnAddress(grpcEndpoint)
if err != nil {
return mkErr("unable to listen on %s: %v",
grpcEndpoint, err)
}
defer lis.Close()
grpcListeners = append(
grpcListeners, &ListenerWithSignal{
Listener: lis,
Ready: make(chan struct{}),
},
)
}
}
// Create a new RPC interceptor that we'll add to the GRPC server. This
// will be used to log the API calls invoked on the GRPC server.
interceptorChain := rpcperms.NewInterceptorChain(
rpcsLog, cfg.NoMacaroons, cfg.RPCMiddleware.Mandatory,
)
if err := interceptorChain.Start(); err != nil {
return mkErr("error starting interceptor chain: %v", err)
}
defer func() {
err := interceptorChain.Stop()
if err != nil {
ltndLog.Warnf("error stopping RPC interceptor "+
"chain: %v", err)
}
}()
// Allow the user to overwrite some defaults of the gRPC library related
// to connection keepalive (server side and client side pings).
serverKeepalive := keepalive.ServerParameters{
Time: cfg.GRPC.ServerPingTime,
Timeout: cfg.GRPC.ServerPingTimeout,
}
clientKeepalive := keepalive.EnforcementPolicy{
MinTime: cfg.GRPC.ClientPingMinWait,
PermitWithoutStream: cfg.GRPC.ClientAllowPingWithoutStream,
}
rpcServerOpts := interceptorChain.CreateServerOpts()
serverOpts = append(serverOpts, rpcServerOpts...)
serverOpts = append(
serverOpts, grpc.MaxRecvMsgSize(lnrpc.MaxGrpcMsgSize),
grpc.KeepaliveParams(serverKeepalive),
grpc.KeepaliveEnforcementPolicy(clientKeepalive),
)
grpcServer := grpc.NewServer(serverOpts...)
defer grpcServer.Stop()
// We'll also register the RPC interceptor chain as the StateServer, as
// it can be used to query for the current state of the wallet.
lnrpc.RegisterStateServer(grpcServer, interceptorChain)
// Initialize, and register our implementation of the gRPC interface
// exported by the rpcServer.
rpcServer := newRPCServer(cfg, interceptorChain, implCfg, interceptor)
err = rpcServer.RegisterWithGrpcServer(grpcServer)
if err != nil {
return mkErr("error registering gRPC server: %v", err)
}
// Now that both the WalletUnlocker and LightningService have been
// registered with the GRPC server, we can start listening.
err = startGrpcListen(cfg, grpcServer, grpcListeners)
if err != nil {
return mkErr("error starting gRPC listener: %v", err)
}
// Now start the REST proxy for our gRPC server above. We'll ensure
// we direct LND to connect to its loopback address rather than a
// wildcard to prevent certificate issues when accessing the proxy
// externally.
stopProxy, err := startRestProxy(
cfg, rpcServer, restDialOpts, restListen,
)
if err != nil {
return mkErr("error starting REST proxy: %v", err)
}
defer stopProxy()
// Start leader election if we're running on etcd. Continuation will be
// blocked until this instance is elected as the current leader or
// shutting down.
elected := false
var leaderElector cluster.LeaderElector
if cfg.Cluster.EnableLeaderElection {
electionCtx, cancelElection := context.WithCancel(ctx)
go func() {
<-interceptor.ShutdownChannel()
cancelElection()
}()
ltndLog.Infof("Using %v leader elector",
cfg.Cluster.LeaderElector)
leaderElector, err = cfg.Cluster.MakeLeaderElector(
electionCtx, cfg.DB,
)
if err != nil {
return err
}
defer func() {
if !elected {
return
}
ltndLog.Infof("Attempting to resign from leader role "+
"(%v)", cfg.Cluster.ID)
// Ensure that we don't block the shutdown process if
// the leader resigning process takes too long. The
// cluster will ensure that the leader is not elected
// again until the previous leader has resigned or the
// leader election timeout has passed.
timeoutCtx, cancel := context.WithTimeout(
ctx, leaderResignTimeout,
)
defer cancel()
if err := leaderElector.Resign(timeoutCtx); err != nil {
ltndLog.Errorf("Leader elector failed to "+
"resign: %v", err)
}
}()
ltndLog.Infof("Starting leadership campaign (%v)",
cfg.Cluster.ID)
if err := leaderElector.Campaign(electionCtx); err != nil {
return mkErr("leadership campaign failed: %v", err)
}
elected = true
ltndLog.Infof("Elected as leader (%v)", cfg.Cluster.ID)
}
dbs, cleanUp, err := implCfg.DatabaseBuilder.BuildDatabase(ctx)
switch {
case err == channeldb.ErrDryRunMigrationOK:
ltndLog.Infof("%v, exiting", err)
return nil
case err != nil:
return mkErr("unable to open databases: %v", err)
}
defer cleanUp()
partialChainControl, walletConfig, cleanUp, err := implCfg.BuildWalletConfig(
ctx, dbs, &implCfg.AuxComponents, interceptorChain,
grpcListeners,
)
if err != nil {
return mkErr("error creating wallet config: %v", err)
}
defer cleanUp()
activeChainControl, cleanUp, err := implCfg.BuildChainControl(
partialChainControl, walletConfig,
)
if err != nil {
return mkErr("error loading chain control: %v", err)
}
defer cleanUp()
// TODO(roasbeef): add rotation
idKeyDesc, err := activeChainControl.KeyRing.DeriveKey(
keychain.KeyLocator{
Family: keychain.KeyFamilyNodeKey,
Index: 0,
},
)
if err != nil {
return mkErr("error deriving node key: %v", err)
}
if cfg.Tor.StreamIsolation && cfg.Tor.SkipProxyForClearNetTargets {
return errStreamIsolationWithProxySkip
}
if cfg.Tor.Active {
if cfg.Tor.SkipProxyForClearNetTargets {
srvrLog.Info("Onion services are accessible via Tor! " +
"NOTE: Traffic to clearnet services is not " +
"routed via Tor.")
} else {
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)
}
}
// If tor is active and either v2 or v3 onion services have been
// specified, make a tor controller and pass it into both the watchtower
// server and the regular lnd server.
var torController *tor.Controller
if cfg.Tor.Active && (cfg.Tor.V2 || cfg.Tor.V3) {
torController = tor.NewController(
cfg.Tor.Control, cfg.Tor.TargetIPAddress,
cfg.Tor.Password,
)
// Start the tor controller before giving it to any other
// subsystems.
if err := torController.Start(); err != nil {
return mkErr("unable to initialize tor controller: %v",
err)
}
defer func() {
if err := torController.Stop(); err != nil {
ltndLog.Errorf("error stopping tor "+
"controller: %v", err)
}
}()
}
var tower *watchtower.Standalone
if cfg.Watchtower.Active {
towerKeyDesc, err := activeChainControl.KeyRing.DeriveKey(
keychain.KeyLocator{
Family: keychain.KeyFamilyTowerID,
Index: 0,
},
)
if err != nil {
return mkErr("error deriving tower key: %v", err)
}
wtCfg := &watchtower.Config{
BlockFetcher: activeChainControl.ChainIO,
DB: dbs.TowerServerDB,
EpochRegistrar: activeChainControl.ChainNotifier,
Net: cfg.net,
NewAddress: func() (btcutil.Address, error) {
return activeChainControl.Wallet.NewAddress(
lnwallet.TaprootPubkey, false,
lnwallet.DefaultAccountName,
)
},
NodeKeyECDH: keychain.NewPubKeyECDH(
towerKeyDesc, activeChainControl.KeyRing,
),
PublishTx: activeChainControl.Wallet.PublishTransaction,
ChainHash: *cfg.ActiveNetParams.GenesisHash,
}
// If there is a tor controller (user wants auto hidden
// services), then store a pointer in the watchtower config.
if torController != nil {
wtCfg.TorController = torController
wtCfg.WatchtowerKeyPath = cfg.Tor.WatchtowerKeyPath
wtCfg.EncryptKey = cfg.Tor.EncryptKey
wtCfg.KeyRing = activeChainControl.KeyRing
switch {
case cfg.Tor.V2:
wtCfg.Type = tor.V2
case cfg.Tor.V3:
wtCfg.Type = tor.V3
}
}
wtConfig, err := cfg.Watchtower.Apply(
wtCfg, lncfg.NormalizeAddresses,
)
if err != nil {
return mkErr("unable to configure watchtower: %v", err)
}
tower, err = watchtower.New(wtConfig)
if err != nil {
return mkErr("unable to create watchtower: %v", err)
}
}
// Initialize the MultiplexAcceptor. If lnd was started with the
// zero-conf feature bit, then this will be a ZeroConfAcceptor.
// Otherwise, this will be a ChainedAcceptor.
var multiAcceptor chanacceptor.MultiplexAcceptor
if cfg.ProtocolOptions.ZeroConf() {
multiAcceptor = chanacceptor.NewZeroConfAcceptor()
} else {
multiAcceptor = chanacceptor.NewChainedAcceptor()
}
// Set up the core server which will listen for incoming peer
// connections.
server, err := newServer(
cfg, cfg.Listeners, dbs, activeChainControl, &idKeyDesc,
activeChainControl.Cfg.WalletUnlockParams.ChansToRestore,
multiAcceptor, torController, tlsManager, leaderElector,
implCfg,
)
if err != nil {
return mkErr("unable to create server: %v", 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, activeChainControl.MinHtlcIn,
cfg.ActiveNetParams,
)
if err != nil {
return mkErr("unable to initialize autopilot: %v", err)
}
atplManager, err := autopilot.NewManager(atplCfg)
if err != nil {
return mkErr("unable to create autopilot manager: %v", err)
}
if err := atplManager.Start(); err != nil {
return mkErr("unable to start autopilot manager: %v", err)
}
defer atplManager.Stop()
err = tlsManager.LoadPermanentCertificate(activeChainControl.KeyRing)
if err != nil {
return mkErr("unable to load permanent TLS certificate: %v",
err)
}
// Now we have created all dependencies necessary to populate and
// start the RPC server.
err = rpcServer.addDeps(
server, interceptorChain.MacaroonService(), cfg.SubRPCServers,
atplManager, server.invoices, tower, multiAcceptor,
server.invoiceHtlcModifier,
)
if err != nil {
return mkErr("unable to add deps to RPC server: %v", err)
}
if err := rpcServer.Start(); err != nil {
return mkErr("unable to start RPC server: %v", err)
}
defer rpcServer.Stop()
// We transition the RPC state to Active, as the RPC server is up.
interceptorChain.SetRPCActive()
if err := interceptor.Notifier.NotifyReady(true); err != nil {
return mkErr("error notifying ready: %v", err)
}
// 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.
_, bestHeight, err := activeChainControl.ChainIO.GetBestBlock()
if err != nil {
return mkErr("unable to determine chain tip: %v", err)
}
ltndLog.Infof("Waiting for chain backend to finish sync, "+
"start_height=%v", bestHeight)
type syncResult struct {
synced bool
bestBlockTime int64
err error
}
var syncedResChan = make(chan syncResult, 1)
for {
// We check if the wallet is synced in a separate goroutine as
// the call is blocking, and we want to be able to interrupt it
// if the daemon is shutting down.
go func() {
synced, bestBlockTime, err := activeChainControl.Wallet.
IsSynced()
syncedResChan <- syncResult{synced, bestBlockTime, err}
}()
select {
case <-interceptor.ShutdownChannel():
return nil
case res := <-syncedResChan:
if res.err != nil {
return mkErr("unable to determine if wallet "+
"is synced: %v", res.err)
}
ltndLog.Debugf("Syncing to block timestamp: %v, is "+
"synced=%v", time.Unix(res.bestBlockTime, 0),
res.synced)
if res.synced {
break
}
// If we're not yet synced, we'll wait for a second
// before checking again.
select {
case <-interceptor.ShutdownChannel():
return nil
case <-time.After(time.Second):
continue
}
}
break
}
_, bestHeight, err = activeChainControl.ChainIO.GetBestBlock()
if err != nil {
return mkErr("unable to determine chain tip: %v", 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. We start the server in an asynchronous goroutine so
// that we are able to interrupt and shutdown the daemon gracefully in
// case the startup of the subservers do not behave as expected.
errChan := make(chan error)
go func() {
errChan <- server.Start()
}()
defer func() {
err := server.Stop()
if err != nil {
ltndLog.Warnf("Stopping the server including all "+
"its subsystems failed with %v", err)
}
}()
select {
case err := <-errChan:
if err == nil {
break
}
return mkErr("unable to start server: %v", err)
case <-interceptor.ShutdownChannel():
return nil
}
// We transition the server state to Active, as the server is up.
interceptorChain.SetServerActive()
// 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 {
return mkErr("unable to start autopilot agent: %v", err)
}
}
if cfg.Watchtower.Active {
if err := tower.Start(); err != nil {
return mkErr("unable to start watchtower: %v", err)
}
defer tower.Stop()
}
// Wait for shutdown signal from either a graceful server stop or from
// the interrupt handler.
<-interceptor.ShutdownChannel()
return nil
}
// bakeMacaroon creates a new macaroon with newest version and the given
// permissions then returns it binary serialized.
func bakeMacaroon(ctx context.Context, svc *macaroons.Service,
permissions []bakery.Op) ([]byte, error) {
mac, err := svc.NewMacaroon(
ctx, macaroons.DefaultRootKeyID, permissions...,
)
if err != nil {
return nil, err
}
return mac.M().MarshalBinary()
}
// saveMacaroon bakes a macaroon with the specified macaroon permissions and
// writes it to a file with the given filename and file permissions.
func saveMacaroon(ctx context.Context, svc *macaroons.Service, filename string,
macaroonPermissions []bakery.Op, filePermissions os.FileMode) error {
macaroonBytes, err := bakeMacaroon(ctx, svc, macaroonPermissions)
if err != nil {
return err
}
err = os.WriteFile(filename, macaroonBytes, filePermissions)
if err != nil {
_ = os.Remove(filename)
return err
}
return nil
}
// genDefaultMacaroons checks for three default macaroon files and generates
// them if they do not exist; one admin-level, one for invoice access and one
// read-only. Each macaroon is checked and created independently to ensure all
// three exist. The admin macaroon can also be used to generate more granular
// macaroons.
func genDefaultMacaroons(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.
if !lnrpc.FileExists(invoiceFile) {
err := saveMacaroon(
ctx, svc, invoiceFile, invoicePermissions, 0644,
)
if err != nil {
return err
}
}
// Generate the read-only macaroon and write it to a file.
if !lnrpc.FileExists(roFile) {
err := saveMacaroon(
ctx, svc, roFile, readPermissions, 0644,
)
if err != nil {
return err
}
}
// Generate the admin macaroon and write it to a file.
if !lnrpc.FileExists(admFile) {
err := saveMacaroon(
ctx, svc, admFile, adminPermissions(),
adminMacaroonFilePermissions,
)
if err != nil {
return err
}
}
return nil
}
// adminPermissions returns a list of all permissions in a safe way that doesn't
// modify any of the source lists.
func adminPermissions() []bakery.Op {
admin := make([]bakery.Op, len(readPermissions)+len(writePermissions))
copy(admin[:len(readPermissions)], readPermissions)
copy(admin[len(readPermissions):], writePermissions)
return admin
}
// createWalletUnlockerService creates a WalletUnlockerService from the passed
// config.
func createWalletUnlockerService(cfg *Config) *walletunlocker.UnlockerService {
// The macaroonFiles are passed to the wallet unlocker so they can be
// deleted and recreated in case the root macaroon key is also changed
// during the change password operation.
macaroonFiles := []string{
cfg.AdminMacPath, cfg.ReadMacPath, cfg.InvoiceMacPath,
}
return walletunlocker.New(
cfg.ActiveNetParams.Params, macaroonFiles,
cfg.ResetWalletTransactions, nil,
)
}
// startGrpcListen starts the GRPC server on the passed listeners.
func startGrpcListen(cfg *Config, grpcServer *grpc.Server,
listeners []*ListenerWithSignal) error {
// 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 _, lis := range listeners {
wg.Add(1)
go func(lis *ListenerWithSignal) {
rpcsLog.Infof("RPC server listening on %s", lis.Addr())
// Close the ready chan to indicate we are listening.
close(lis.Ready)
wg.Done()
_ = grpcServer.Serve(lis)
}(lis)
}
// If Prometheus monitoring is enabled, start the Prometheus exporter.
if cfg.Prometheus.Enabled() {
err := monitoring.ExportPrometheusMetrics(
grpcServer, cfg.Prometheus,
)
if err != nil {
return err
}
}
// Wait for gRPC servers to be up running.
wg.Wait()
return nil
}
// startRestProxy starts the given REST proxy on the listeners found in the
// config.
func startRestProxy(cfg *Config, rpcServer *rpcServer, restDialOpts []grpc.DialOption,
restListen func(net.Addr) (net.Listener, error)) (func(), error) {
// We use the first RPC listener as the destination for our REST proxy.
// If the listener is set to listen on all interfaces, we replace it
// with localhost, as we cannot dial it directly.
restProxyDest := cfg.RPCListeners[0].String()
switch {
case strings.Contains(restProxyDest, "0.0.0.0"):
restProxyDest = strings.Replace(
restProxyDest, "0.0.0.0", "127.0.0.1", 1,
)
case strings.Contains(restProxyDest, "[::]"):
restProxyDest = strings.Replace(
restProxyDest, "[::]", "[::1]", 1,
)
}
var shutdownFuncs []func()
shutdown := func() {
for _, shutdownFn := range shutdownFuncs {
shutdownFn()
}
}
// Start a REST proxy for our gRPC server.
ctx := context.Background()
ctx, cancel := context.WithCancel(ctx)
shutdownFuncs = append(shutdownFuncs, cancel)
// We'll set up a proxy that will forward REST calls to the GRPC
// server.
//
// The default JSON marshaler of the REST proxy only sets OrigName to
// true, which instructs it to use the same field names as specified in
// the proto file and not switch to camel case. What we also want is
// that the marshaler prints all values, even if they are falsey.
customMarshalerOption := proxy.WithMarshalerOption(
proxy.MIMEWildcard, &proxy.JSONPb{
MarshalOptions: *lnrpc.RESTJsonMarshalOpts,
UnmarshalOptions: *lnrpc.RESTJsonUnmarshalOpts,
},
)
mux := proxy.NewServeMux(
customMarshalerOption,
// Don't allow falling back to other HTTP methods, we want exact
// matches only. The actual method to be used can be overwritten
// by setting X-HTTP-Method-Override so there should be no
// reason for not specifying the correct method in the first
// place.
proxy.WithDisablePathLengthFallback(),
)
// Register our services with the REST proxy.
err := rpcServer.RegisterWithRestProxy(
ctx, mux, restDialOpts, restProxyDest,
)
if err != nil {
return nil, err
}
// Wrap the default grpc-gateway handler with the WebSocket handler.
restHandler := lnrpc.NewWebSocketProxy(
mux, rpcsLog, cfg.WSPingInterval, cfg.WSPongWait,
lnrpc.LndClientStreamingURIs,
)
// 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
// Now spin up a network listener for each requested port and start a
// goroutine that serves REST with the created mux there.
for _, restEndpoint := range cfg.RESTListeners {
lis, err := restListen(restEndpoint)