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rpcserver.go
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package lnd
import (
"bytes"
"crypto/tls"
"encoding/hex"
"errors"
"fmt"
"io"
"math"
"net/http"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/lightningnetwork/lnd/lnrpc/routerrpc"
"github.com/lightningnetwork/lnd/routing/route"
"github.com/lightningnetwork/lnd/watchtower"
"github.com/btcsuite/btcd/blockchain"
"github.com/btcsuite/btcd/btcec"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/waddrmgr"
"github.com/btcsuite/btcwallet/wallet/txauthor"
"github.com/coreos/bbolt"
"github.com/davecgh/go-spew/spew"
"github.com/grpc-ecosystem/go-grpc-middleware"
proxy "github.com/grpc-ecosystem/grpc-gateway/runtime"
"github.com/lightningnetwork/lnd/autopilot"
"github.com/lightningnetwork/lnd/build"
"github.com/lightningnetwork/lnd/chanbackup"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/channelnotifier"
"github.com/lightningnetwork/lnd/discovery"
"github.com/lightningnetwork/lnd/htlcswitch"
"github.com/lightningnetwork/lnd/input"
"github.com/lightningnetwork/lnd/invoices"
"github.com/lightningnetwork/lnd/lncfg"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lnrpc/invoicesrpc"
"github.com/lightningnetwork/lnd/lntypes"
"github.com/lightningnetwork/lnd/lnwallet"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/macaroons"
"github.com/lightningnetwork/lnd/monitoring"
"github.com/lightningnetwork/lnd/routing"
"github.com/lightningnetwork/lnd/signal"
"github.com/lightningnetwork/lnd/sweep"
"github.com/lightningnetwork/lnd/zpay32"
"github.com/tv42/zbase32"
"golang.org/x/net/context"
"google.golang.org/grpc"
"gopkg.in/macaroon-bakery.v2/bakery"
)
const (
// maxBtcPaymentMSat is the maximum allowed Bitcoin payment currently
// permitted as defined in BOLT-0002.
maxBtcPaymentMSat = lnwire.MilliSatoshi(math.MaxUint32)
// maxLtcPaymentMSat is the maximum allowed Litecoin payment currently
// permitted.
maxLtcPaymentMSat = lnwire.MilliSatoshi(math.MaxUint32) *
btcToLtcConversionRate
)
var (
// MaxPaymentMSat is the maximum allowed payment currently permitted as
// defined in BOLT-002. This value depends on which chain is active.
// It is set to the value under the Bitcoin chain as default.
MaxPaymentMSat = maxBtcPaymentMSat
defaultAccount uint32 = waddrmgr.DefaultAccountNum
// readPermissions is a slice of all entities that allow read
// permissions for authorization purposes, all lowercase.
readPermissions = []bakery.Op{
{
Entity: "onchain",
Action: "read",
},
{
Entity: "offchain",
Action: "read",
},
{
Entity: "address",
Action: "read",
},
{
Entity: "message",
Action: "read",
},
{
Entity: "peers",
Action: "read",
},
{
Entity: "info",
Action: "read",
},
{
Entity: "invoices",
Action: "read",
},
}
// writePermissions is a slice of all entities that allow write
// permissions for authorization purposes, all lowercase.
writePermissions = []bakery.Op{
{
Entity: "onchain",
Action: "write",
},
{
Entity: "offchain",
Action: "write",
},
{
Entity: "address",
Action: "write",
},
{
Entity: "message",
Action: "write",
},
{
Entity: "peers",
Action: "write",
},
{
Entity: "info",
Action: "write",
},
{
Entity: "invoices",
Action: "write",
},
{
Entity: "signer",
Action: "generate",
},
}
// invoicePermissions is a slice of all the entities that allows a user
// to only access calls that are related to invoices, so: streaming
// RPCs, generating, and listening invoices.
invoicePermissions = []bakery.Op{
{
Entity: "invoices",
Action: "read",
},
{
Entity: "invoices",
Action: "write",
},
{
Entity: "address",
Action: "read",
},
{
Entity: "address",
Action: "write",
},
}
)
// mainRPCServerPermissions returns a mapping of the main RPC server calls to
// the permissions they require.
func mainRPCServerPermissions() map[string][]bakery.Op {
return map[string][]bakery.Op{
"/lnrpc.Lightning/SendCoins": {{
Entity: "onchain",
Action: "write",
}},
"/lnrpc.Lightning/ListUnspent": {{
Entity: "onchain",
Action: "read",
}},
"/lnrpc.Lightning/SendMany": {{
Entity: "onchain",
Action: "write",
}},
"/lnrpc.Lightning/NewAddress": {{
Entity: "address",
Action: "write",
}},
"/lnrpc.Lightning/SignMessage": {{
Entity: "message",
Action: "write",
}},
"/lnrpc.Lightning/VerifyMessage": {{
Entity: "message",
Action: "read",
}},
"/lnrpc.Lightning/ConnectPeer": {{
Entity: "peers",
Action: "write",
}},
"/lnrpc.Lightning/DisconnectPeer": {{
Entity: "peers",
Action: "write",
}},
"/lnrpc.Lightning/OpenChannel": {{
Entity: "onchain",
Action: "write",
}, {
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/OpenChannelSync": {{
Entity: "onchain",
Action: "write",
}, {
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/CloseChannel": {{
Entity: "onchain",
Action: "write",
}, {
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/AbandonChannel": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/GetInfo": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/ListPeers": {{
Entity: "peers",
Action: "read",
}},
"/lnrpc.Lightning/WalletBalance": {{
Entity: "onchain",
Action: "read",
}},
"/lnrpc.Lightning/EstimateFee": {{
Entity: "onchain",
Action: "read",
}},
"/lnrpc.Lightning/ChannelBalance": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/PendingChannels": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/ListChannels": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/SubscribeChannelEvents": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/ClosedChannels": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/SendPayment": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/SendPaymentSync": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/SendToRoute": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/SendToRouteSync": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/AddInvoice": {{
Entity: "invoices",
Action: "write",
}},
"/lnrpc.Lightning/LookupInvoice": {{
Entity: "invoices",
Action: "read",
}},
"/lnrpc.Lightning/ListInvoices": {{
Entity: "invoices",
Action: "read",
}},
"/lnrpc.Lightning/SubscribeInvoices": {{
Entity: "invoices",
Action: "read",
}},
"/lnrpc.Lightning/SubscribeTransactions": {{
Entity: "onchain",
Action: "read",
}},
"/lnrpc.Lightning/GetTransactions": {{
Entity: "onchain",
Action: "read",
}},
"/lnrpc.Lightning/DescribeGraph": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/GetChanInfo": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/GetNodeInfo": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/QueryRoutes": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/GetNetworkInfo": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/StopDaemon": {{
Entity: "info",
Action: "write",
}},
"/lnrpc.Lightning/SubscribeChannelGraph": {{
Entity: "info",
Action: "read",
}},
"/lnrpc.Lightning/ListPayments": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/DeleteAllPayments": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/DebugLevel": {{
Entity: "info",
Action: "write",
}},
"/lnrpc.Lightning/DecodePayReq": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/FeeReport": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/UpdateChannelPolicy": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/ForwardingHistory": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/RestoreChannelBackups": {{
Entity: "offchain",
Action: "write",
}},
"/lnrpc.Lightning/ExportChannelBackup": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/VerifyChanBackup": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/ExportAllChannelBackups": {{
Entity: "offchain",
Action: "read",
}},
"/lnrpc.Lightning/SubscribeChannelBackups": {{
Entity: "offchain",
Action: "read",
}},
}
}
// rpcServer is a gRPC, RPC front end to the lnd daemon.
// TODO(roasbeef): pagination support for the list-style calls
type rpcServer struct {
started int32 // To be used atomically.
shutdown int32 // To be used atomically.
server *server
wg sync.WaitGroup
// subServers are a set of sub-RPC servers that use the same gRPC and
// listening sockets as the main RPC server, but which maintain their
// own independent service. This allows us to expose a set of
// micro-service like abstractions to the outside world for users to
// consume.
subServers []lnrpc.SubServer
// grpcServer is the main gRPC server that this RPC server, and all the
// sub-servers will use to register themselves and accept client
// requests from.
grpcServer *grpc.Server
// listenerCleanUp are a set of closures functions that will allow this
// main RPC server to clean up all the listening socket created for the
// server.
listenerCleanUp []func()
// restDialOpts are a set of gRPC dial options that the REST server
// proxy will use to connect to the main gRPC server.
restDialOpts []grpc.DialOption
// restProxyDest is the address to forward REST requests to.
restProxyDest string
// tlsCfg is the TLS config that allows the REST server proxy to
// connect to the main gRPC server to proxy all incoming requests.
tlsCfg *tls.Config
// routerBackend contains the backend implementation of the router
// rpc sub server.
routerBackend *routerrpc.RouterBackend
quit chan struct{}
}
// A compile time check to ensure that rpcServer fully implements the
// LightningServer gRPC service.
var _ lnrpc.LightningServer = (*rpcServer)(nil)
// newRPCServer creates and returns a new instance of the rpcServer. The
// rpcServer will handle creating all listening sockets needed by it, and any
// of the sub-servers that it maintains. The set of serverOpts should be the
// base level options passed to the grPC server. This typically includes things
// like requiring TLS, etc.
func newRPCServer(s *server, macService *macaroons.Service,
subServerCgs *subRPCServerConfigs, serverOpts []grpc.ServerOption,
restDialOpts []grpc.DialOption, restProxyDest string,
atpl *autopilot.Manager, invoiceRegistry *invoices.InvoiceRegistry,
tower *watchtower.Standalone, tlsCfg *tls.Config) (*rpcServer, error) {
// Set up router rpc backend.
channelGraph := s.chanDB.ChannelGraph()
selfNode, err := channelGraph.SourceNode()
if err != nil {
return nil, err
}
graph := s.chanDB.ChannelGraph()
routerBackend := &routerrpc.RouterBackend{
MaxPaymentMSat: MaxPaymentMSat,
SelfNode: selfNode.PubKeyBytes,
FetchChannelCapacity: func(chanID uint64) (btcutil.Amount,
error) {
info, _, _, err := graph.FetchChannelEdgesByID(chanID)
if err != nil {
return 0, err
}
return info.Capacity, nil
},
FetchChannelEndpoints: func(chanID uint64) (route.Vertex,
route.Vertex, error) {
info, _, _, err := graph.FetchChannelEdgesByID(
chanID,
)
if err != nil {
return route.Vertex{}, route.Vertex{},
fmt.Errorf("unable to fetch channel "+
"edges by channel ID %d: %v",
chanID, err)
}
return info.NodeKey1Bytes, info.NodeKey2Bytes, nil
},
FindRoute: s.chanRouter.FindRoute,
MissionControl: s.missionControl,
ActiveNetParams: activeNetParams.Params,
Tower: s.controlTower,
}
var (
subServers []lnrpc.SubServer
subServerPerms []lnrpc.MacaroonPerms
)
// Before we create any of the sub-servers, we need to ensure that all
// the dependencies they need are properly populated within each sub
// server configuration struct.
err = subServerCgs.PopulateDependencies(
s.cc, networkDir, macService, atpl, invoiceRegistry,
s.htlcSwitch, activeNetParams.Params, s.chanRouter,
routerBackend, s.nodeSigner, s.chanDB, s.sweeper,
tower,
)
if err != nil {
return nil, err
}
// Now that the sub-servers have all their dependencies in place, we
// can create each sub-server!
registeredSubServers := lnrpc.RegisteredSubServers()
for _, subServer := range registeredSubServers {
subServerInstance, macPerms, err := subServer.New(subServerCgs)
if err != nil {
return nil, err
}
// We'll collect the sub-server, and also the set of
// permissions it needs for macaroons so we can apply the
// interceptors below.
subServers = append(subServers, subServerInstance)
subServerPerms = append(subServerPerms, macPerms)
}
// Next, we need to merge the set of sub server macaroon permissions
// with the main RPC server permissions so we can unite them under a
// single set of interceptors.
permissions := mainRPCServerPermissions()
for _, subServerPerm := range subServerPerms {
for method, ops := range subServerPerm {
// For each new method:ops combo, we also ensure that
// non of the sub-servers try to override each other.
if _, ok := permissions[method]; ok {
return nil, fmt.Errorf("detected duplicate "+
"macaroon constraints for path: %v",
method)
}
permissions[method] = ops
}
}
// If macaroons aren't disabled (a non-nil service), then we'll set up
// our set of interceptors which will allow us to handle the macaroon
// authentication in a single location.
macUnaryInterceptors := []grpc.UnaryServerInterceptor{}
macStrmInterceptors := []grpc.StreamServerInterceptor{}
if macService != nil {
unaryInterceptor := macService.UnaryServerInterceptor(permissions)
macUnaryInterceptors = append(macUnaryInterceptors, unaryInterceptor)
strmInterceptor := macService.StreamServerInterceptor(permissions)
macStrmInterceptors = append(macStrmInterceptors, strmInterceptor)
}
// Get interceptors for Prometheus to gather gRPC performance metrics.
// If monitoring is disabled, GetPromInterceptors() will return empty
// slices.
promUnaryInterceptors, promStrmInterceptors := monitoring.GetPromInterceptors()
// Concatenate the slices of unary and stream interceptors respectively.
unaryInterceptors := append(macUnaryInterceptors, promUnaryInterceptors...)
strmInterceptors := append(macStrmInterceptors, promStrmInterceptors...)
// If any interceptors have been set up, add them to the server options.
if len(unaryInterceptors) != 0 && len(strmInterceptors) != 0 {
chainedUnary := grpc_middleware.WithUnaryServerChain(
unaryInterceptors...,
)
chainedStream := grpc_middleware.WithStreamServerChain(
strmInterceptors...,
)
serverOpts = append(serverOpts, chainedUnary, chainedStream)
}
// Finally, with all the pre-set up complete, we can create the main
// gRPC server, and register the main lnrpc server along side.
grpcServer := grpc.NewServer(serverOpts...)
rootRPCServer := &rpcServer{
restDialOpts: restDialOpts,
restProxyDest: restProxyDest,
subServers: subServers,
tlsCfg: tlsCfg,
grpcServer: grpcServer,
server: s,
routerBackend: routerBackend,
quit: make(chan struct{}, 1),
}
lnrpc.RegisterLightningServer(grpcServer, rootRPCServer)
// Now the main RPC server has been registered, we'll iterate through
// all the sub-RPC servers and register them to ensure that requests
// are properly routed towards them.
for _, subServer := range subServers {
err := subServer.RegisterWithRootServer(grpcServer)
if err != nil {
return nil, fmt.Errorf("unable to register "+
"sub-server %v with root: %v",
subServer.Name(), err)
}
}
return rootRPCServer, nil
}
// Start launches any helper goroutines required for the rpcServer to function.
func (r *rpcServer) Start() error {
if atomic.AddInt32(&r.started, 1) != 1 {
return nil
}
// First, we'll start all the sub-servers to ensure that they're ready
// to take new requests in.
//
// TODO(roasbeef): some may require that the entire daemon be started
// at that point
for _, subServer := range r.subServers {
rpcsLog.Debugf("Starting sub RPC server: %v", subServer.Name())
if err := subServer.Start(); err != nil {
return err
}
}
// With all the sub-servers started, we'll spin up the listeners for
// the main RPC server itself.
for _, listener := range cfg.RPCListeners {
lis, err := lncfg.ListenOnAddress(listener)
if err != nil {
ltndLog.Errorf(
"RPC server unable to listen on %s", listener,
)
return err
}
r.listenerCleanUp = append(r.listenerCleanUp, func() {
lis.Close()
})
go func() {
rpcsLog.Infof("RPC server listening on %s", lis.Addr())
r.grpcServer.Serve(lis)
}()
}
// If Prometheus monitoring is enabled, start the Prometheus exporter.
if cfg.Prometheus.Enabled() {
err := monitoring.ExportPrometheusMetrics(
r.grpcServer, cfg.Prometheus,
)
if err != nil {
return err
}
}
// Finally, 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.
//
// TODO(roasbeef): eventually also allow the sub-servers to themselves
// have a REST proxy.
mux := proxy.NewServeMux()
err := lnrpc.RegisterLightningHandlerFromEndpoint(
context.Background(), mux, r.restProxyDest,
r.restDialOpts,
)
if err != nil {
return err
}
for _, restEndpoint := range cfg.RESTListeners {
lis, err := lncfg.TLSListenOnAddress(restEndpoint, r.tlsCfg)
if err != nil {
ltndLog.Errorf(
"gRPC proxy unable to listen on %s",
restEndpoint,
)
return err
}
r.listenerCleanUp = append(r.listenerCleanUp, func() {
lis.Close()
})
go func() {
rpcsLog.Infof("gRPC proxy started at %s", lis.Addr())
http.Serve(lis, mux)
}()
}
return nil
}
// Stop signals any active goroutines for a graceful closure.
func (r *rpcServer) Stop() error {
if atomic.AddInt32(&r.shutdown, 1) != 1 {
return nil
}
rpcsLog.Infof("Stopping RPC Server")
close(r.quit)
// After we've signalled all of our active goroutines to exit, we'll
// then do the same to signal a graceful shutdown of all the sub
// servers.
for _, subServer := range r.subServers {
rpcsLog.Infof("Stopping %v Sub-RPC Server",
subServer.Name())
if err := subServer.Stop(); err != nil {
rpcsLog.Errorf("unable to stop sub-server %v: %v",
subServer.Name(), err)
continue
}
}
// Finally, we can clean up all the listening sockets to ensure that we
// give the file descriptors back to the OS.
for _, cleanUp := range r.listenerCleanUp {
cleanUp()
}
return nil
}
// addrPairsToOutputs converts a map describing a set of outputs to be created,
// the outputs themselves. The passed map pairs up an address, to a desired
// output value amount. Each address is converted to its corresponding pkScript
// to be used within the constructed output(s).
func addrPairsToOutputs(addrPairs map[string]int64) ([]*wire.TxOut, error) {
outputs := make([]*wire.TxOut, 0, len(addrPairs))
for addr, amt := range addrPairs {
addr, err := btcutil.DecodeAddress(addr, activeNetParams.Params)
if err != nil {
return nil, err
}
pkscript, err := txscript.PayToAddrScript(addr)
if err != nil {
return nil, err
}
outputs = append(outputs, wire.NewTxOut(amt, pkscript))
}
return outputs, nil
}
// sendCoinsOnChain makes an on-chain transaction in or to send coins to one or
// more addresses specified in the passed payment map. The payment map maps an
// address to a specified output value to be sent to that address.
func (r *rpcServer) sendCoinsOnChain(paymentMap map[string]int64,
feeRate lnwallet.SatPerKWeight) (*chainhash.Hash, error) {
outputs, err := addrPairsToOutputs(paymentMap)
if err != nil {
return nil, err
}
tx, err := r.server.cc.wallet.SendOutputs(outputs, feeRate)
if err != nil {
return nil, err
}
txHash := tx.TxHash()
return &txHash, nil
}
// ListUnspent returns useful information about each unspent output owned by
// the wallet, as reported by the underlying `ListUnspentWitness`; the
// information returned is: outpoint, amount in satoshis, address, address
// type, scriptPubKey in hex and number of confirmations. The result is
// filtered to contain outputs whose number of confirmations is between a
// minimum and maximum number of confirmations specified by the user, with 0
// meaning unconfirmed.
func (r *rpcServer) ListUnspent(ctx context.Context,
in *lnrpc.ListUnspentRequest) (*lnrpc.ListUnspentResponse, error) {
minConfs := in.MinConfs
maxConfs := in.MaxConfs
switch {
// Ensure that the user didn't attempt to specify a negative number of
// confirmations, as that isn't possible.
case minConfs < 0:
return nil, fmt.Errorf("min confirmations must be >= 0")
// We'll also ensure that the min number of confs is strictly less than
// or equal to the max number of confs for sanity.
case minConfs > maxConfs:
return nil, fmt.Errorf("max confirmations must be >= min " +
"confirmations")
}
// With our arguments validated, we'll query the internal wallet for
// the set of UTXOs that match our query.
utxos, err := r.server.cc.wallet.ListUnspentWitness(minConfs, maxConfs)
if err != nil {
return nil, err
}
resp := &lnrpc.ListUnspentResponse{
Utxos: make([]*lnrpc.Utxo, 0, len(utxos)),
}
for _, utxo := range utxos {
// Translate lnwallet address type to the proper gRPC proto
// address type.
var addrType lnrpc.AddressType
switch utxo.AddressType {
case lnwallet.WitnessPubKey:
addrType = lnrpc.AddressType_WITNESS_PUBKEY_HASH
case lnwallet.NestedWitnessPubKey:
addrType = lnrpc.AddressType_NESTED_PUBKEY_HASH
case lnwallet.UnknownAddressType:
rpcsLog.Warnf("[listunspent] utxo with address of "+
"unknown type ignored: %v",
utxo.OutPoint.String())
continue
default:
return nil, fmt.Errorf("invalid utxo address type")
}
// Now that we know we have a proper mapping to an address,
// we'll convert the regular outpoint to an lnrpc variant.
outpoint := &lnrpc.OutPoint{
TxidBytes: utxo.OutPoint.Hash[:],
TxidStr: utxo.OutPoint.Hash.String(),
OutputIndex: utxo.OutPoint.Index,
}
utxoResp := lnrpc.Utxo{
Type: addrType,
AmountSat: int64(utxo.Value),
PkScript: hex.EncodeToString(utxo.PkScript),
Outpoint: outpoint,
Confirmations: utxo.Confirmations,
}
// Finally, we'll attempt to extract the raw address from the
// script so we can display a human friendly address to the end
// user.
_, outAddresses, _, err := txscript.ExtractPkScriptAddrs(
utxo.PkScript, activeNetParams.Params,
)
if err != nil {
return nil, err
}
// If we can't properly locate a single address, then this was
// an error in our mapping, and we'll return an error back to
// the user.
if len(outAddresses) != 1 {
return nil, fmt.Errorf("an output was unexpectedly " +
"multisig")
}
utxoResp.Address = outAddresses[0].String()
resp.Utxos = append(resp.Utxos, &utxoResp)
}
maxStr := ""
if maxConfs != math.MaxInt32 {
maxStr = " max=" + fmt.Sprintf("%d", maxConfs)
}
rpcsLog.Debugf("[listunspent] min=%v%v, generated utxos: %v", minConfs,
maxStr, utxos)
return resp, nil
}
// EstimateFee handles a request for estimating the fee for sending a
// transaction spending to multiple specified outputs in parallel.
func (r *rpcServer) EstimateFee(ctx context.Context,
in *lnrpc.EstimateFeeRequest) (*lnrpc.EstimateFeeResponse, error) {
// Create the list of outputs we are spending to.
outputs, err := addrPairsToOutputs(in.AddrToAmount)
if err != nil {
return nil, err
}
// Query the fee estimator for the fee rate for the given confirmation
// target.
target := in.TargetConf
feePerKw, err := sweep.DetermineFeePerKw(
r.server.cc.feeEstimator, sweep.FeePreference{
ConfTarget: uint32(target),
},
)
if err != nil {
return nil, err
}
// We will ask the wallet to create a tx using this fee rate. We set
// dryRun=true to avoid inflating the change addresses in the db.
var tx *txauthor.AuthoredTx
wallet := r.server.cc.wallet
err = wallet.WithCoinSelectLock(func() error {
tx, err = wallet.CreateSimpleTx(outputs, feePerKw, true)
return err
})
if err != nil {
return nil, err
}
// Use the created tx to calculate the total fee.
totalOutput := int64(0)
for _, out := range tx.Tx.TxOut {
totalOutput += out.Value
}
totalFee := int64(tx.TotalInput) - totalOutput
resp := &lnrpc.EstimateFeeResponse{
FeeSat: totalFee,
FeerateSatPerByte: int64(feePerKw.FeePerKVByte() / 1000),
}
rpcsLog.Debugf("[estimatefee] fee estimate for conf target %d: %v",
target, resp)
return resp, nil
}
// SendCoins executes a request to send coins to a particular address. Unlike
// SendMany, this RPC call only allows creating a single output at a time.
func (r *rpcServer) SendCoins(ctx context.Context,
in *lnrpc.SendCoinsRequest) (*lnrpc.SendCoinsResponse, error) {
// Based on the passed fee related parameters, we'll determine an
// appropriate fee rate for this transaction.
satPerKw := lnwallet.SatPerKVByte(in.SatPerByte * 1000).FeePerKWeight()
feePerKw, err := sweep.DetermineFeePerKw(
r.server.cc.feeEstimator, sweep.FeePreference{
ConfTarget: uint32(in.TargetConf),
FeeRate: satPerKw,
},
)
if err != nil {
return nil, err
}
rpcsLog.Infof("[sendcoins] addr=%v, amt=%v, sat/kw=%v, sweep_all=%v",
in.Addr, btcutil.Amount(in.Amount), int64(feePerKw),
in.SendAll)
// Decode the address receiving the coins, we need to check whether the
// address is valid for this network.
targetAddr, err := btcutil.DecodeAddress(in.Addr, activeNetParams.Params)
if err != nil {
return nil, err
}
// Make the check on the decoded address according to the active network.
if !targetAddr.IsForNet(activeNetParams.Params) {
return nil, fmt.Errorf("address: %v is not valid for this "+
"network: %v", targetAddr.String(),
activeNetParams.Params.Name)
}
// If the destination address parses to a valid pubkey, we assume the user
// accidentally tried to send funds to a bare pubkey address. This check is
// here to prevent unintended transfers.
decodedAddr, _ := hex.DecodeString(in.Addr)
_, err = btcec.ParsePubKey(decodedAddr, btcec.S256())
if err == nil {
return nil, fmt.Errorf("cannot send coins to pubkeys")
}
var txid *chainhash.Hash
wallet := r.server.cc.wallet
// If the send all flag is active, then we'll attempt to sweep all the
// coins in the wallet in a single transaction (if possible),
// otherwise, we'll respect the amount, and attempt a regular 2-output
// send.
if in.SendAll {
// At this point, the amount shouldn't be set since we've been
// instructed to sweep all the coins from the wallet.
if in.Amount != 0 {
return nil, fmt.Errorf("amount set while SendAll is " +
"active")
}
_, bestHeight, err := r.server.cc.chainIO.GetBestBlock()
if err != nil {
return nil, err
}
// With the sweeper instance created, we can now generate a
// transaction that will sweep ALL outputs from the wallet in a
// single transaction. This will be generated in a concurrent
// safe manner, so no need to worry about locking.