// Copyright (c) 2015-2016 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. // Package rpcserver implements the RPC API and is used by the main package to // start gRPC services. // // Full documentation of the API implemented by this package is maintained in a // language-agnostic document: // // https://github.com/btcsuite/btcwallet/blob/master/rpc/documentation/api.md // // Any API changes must be performed according to the steps listed here: // // https://github.com/btcsuite/btcwallet/blob/master/rpc/documentation/serverchanges.md package rpcserver import ( "bytes" "errors" "sync" "time" "golang.org/x/net/context" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" "github.com/btcsuite/btcd/chaincfg/chainhash" "github.com/btcsuite/btcd/rpcclient" "github.com/btcsuite/btcd/txscript" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/btcsuite/btcutil/hdkeychain" "github.com/btcsuite/btcwallet/chain" "github.com/btcsuite/btcwallet/internal/cfgutil" "github.com/btcsuite/btcwallet/internal/zero" "github.com/btcsuite/btcwallet/netparams" pb "github.com/btcsuite/btcwallet/rpc/walletrpc" "github.com/btcsuite/btcwallet/waddrmgr" "github.com/btcsuite/btcwallet/wallet" "github.com/btcsuite/btcwallet/walletdb" ) // Public API version constants const ( semverString = "2.0.1" semverMajor = 2 semverMinor = 0 semverPatch = 1 ) // translateError creates a new gRPC error with an appropriate error code for // recognized errors. // // This function is by no means complete and should be expanded based on other // known errors. Any RPC handler not returning a gRPC error (with grpc.Errorf) // should return this result instead. func translateError(err error) error { code := errorCode(err) return status.Errorf(code, "%s", err.Error()) } func errorCode(err error) codes.Code { // waddrmgr.IsError is convenient, but not granular enough when the // underlying error has to be checked. Unwrap the underlying error // if it exists. if e, ok := err.(waddrmgr.ManagerError); ok { // For these waddrmgr error codes, the underlying error isn't // needed to determine the grpc error code. switch e.ErrorCode { case waddrmgr.ErrWrongPassphrase: // public and private return codes.InvalidArgument case waddrmgr.ErrAccountNotFound: return codes.NotFound case waddrmgr.ErrInvalidAccount: // reserved account return codes.InvalidArgument case waddrmgr.ErrDuplicateAccount: return codes.AlreadyExists } err = e.Err } switch err { case wallet.ErrLoaded: return codes.FailedPrecondition case walletdb.ErrDbNotOpen: return codes.Aborted case walletdb.ErrDbExists: return codes.AlreadyExists case walletdb.ErrDbDoesNotExist: return codes.NotFound case hdkeychain.ErrInvalidSeedLen: return codes.InvalidArgument default: return codes.Unknown } } // versionServer provides RPC clients with the ability to query the RPC server // version. type versionServer struct { } // walletServer provides wallet services for RPC clients. type walletServer struct { wallet *wallet.Wallet } // loaderServer provides RPC clients with the ability to load and close wallets, // as well as establishing a RPC connection to a btcd consensus server. type loaderServer struct { loader *wallet.Loader activeNet *netparams.Params rpcClient *chain.RPCClient mu sync.Mutex } // StartVersionService creates an implementation of the VersionService and // registers it with the gRPC server. func StartVersionService(server *grpc.Server) { pb.RegisterVersionServiceServer(server, &versionServer{}) } func (*versionServer) Version(ctx context.Context, req *pb.VersionRequest) (*pb.VersionResponse, error) { return &pb.VersionResponse{ VersionString: semverString, Major: semverMajor, Minor: semverMinor, Patch: semverPatch, }, nil } // StartWalletService creates an implementation of the WalletService and // registers it with the gRPC server. func StartWalletService(server *grpc.Server, wallet *wallet.Wallet) { service := &walletServer{wallet} pb.RegisterWalletServiceServer(server, service) } func (s *walletServer) Ping(ctx context.Context, req *pb.PingRequest) (*pb.PingResponse, error) { return &pb.PingResponse{}, nil } func (s *walletServer) Network(ctx context.Context, req *pb.NetworkRequest) ( *pb.NetworkResponse, error) { return &pb.NetworkResponse{ActiveNetwork: uint32(s.wallet.ChainParams().Net)}, nil } func (s *walletServer) AccountNumber(ctx context.Context, req *pb.AccountNumberRequest) ( *pb.AccountNumberResponse, error) { accountNum, err := s.wallet.AccountNumber(waddrmgr.KeyScopeBIP0044, req.AccountName) if err != nil { return nil, translateError(err) } return &pb.AccountNumberResponse{AccountNumber: accountNum}, nil } func (s *walletServer) Accounts(ctx context.Context, req *pb.AccountsRequest) ( *pb.AccountsResponse, error) { resp, err := s.wallet.Accounts(waddrmgr.KeyScopeBIP0044) if err != nil { return nil, translateError(err) } accounts := make([]*pb.AccountsResponse_Account, len(resp.Accounts)) for i := range resp.Accounts { a := &resp.Accounts[i] accounts[i] = &pb.AccountsResponse_Account{ AccountNumber: a.AccountNumber, AccountName: a.AccountName, TotalBalance: int64(a.TotalBalance), ExternalKeyCount: a.ExternalKeyCount, InternalKeyCount: a.InternalKeyCount, ImportedKeyCount: a.ImportedKeyCount, } } return &pb.AccountsResponse{ Accounts: accounts, CurrentBlockHash: resp.CurrentBlockHash[:], CurrentBlockHeight: resp.CurrentBlockHeight, }, nil } func (s *walletServer) RenameAccount(ctx context.Context, req *pb.RenameAccountRequest) ( *pb.RenameAccountResponse, error) { err := s.wallet.RenameAccount(waddrmgr.KeyScopeBIP0044, req.AccountNumber, req.NewName) if err != nil { return nil, translateError(err) } return &pb.RenameAccountResponse{}, nil } func (s *walletServer) NextAccount(ctx context.Context, req *pb.NextAccountRequest) ( *pb.NextAccountResponse, error) { defer zero.Bytes(req.Passphrase) if req.AccountName == "" { return nil, status.Errorf(codes.InvalidArgument, "account name may not be empty") } lock := make(chan time.Time, 1) defer func() { lock <- time.Time{} // send matters, not the value }() err := s.wallet.Unlock(req.Passphrase, lock) if err != nil { return nil, translateError(err) } account, err := s.wallet.NextAccount(waddrmgr.KeyScopeBIP0044, req.AccountName) if err != nil { return nil, translateError(err) } return &pb.NextAccountResponse{AccountNumber: account}, nil } func (s *walletServer) NextAddress(ctx context.Context, req *pb.NextAddressRequest) ( *pb.NextAddressResponse, error) { var ( addr btcutil.Address err error ) switch req.Kind { case pb.NextAddressRequest_BIP0044_EXTERNAL: addr, err = s.wallet.NewAddress(req.Account, waddrmgr.KeyScopeBIP0044) case pb.NextAddressRequest_BIP0044_INTERNAL: addr, err = s.wallet.NewChangeAddress(req.Account, waddrmgr.KeyScopeBIP0044) default: return nil, status.Errorf(codes.InvalidArgument, "kind=%v", req.Kind) } if err != nil { return nil, translateError(err) } return &pb.NextAddressResponse{Address: addr.EncodeAddress()}, nil } func (s *walletServer) ImportPrivateKey(ctx context.Context, req *pb.ImportPrivateKeyRequest) ( *pb.ImportPrivateKeyResponse, error) { defer zero.Bytes(req.Passphrase) wif, err := btcutil.DecodeWIF(req.PrivateKeyWif) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "Invalid WIF-encoded private key: %v", err) } lock := make(chan time.Time, 1) defer func() { lock <- time.Time{} // send matters, not the value }() err = s.wallet.Unlock(req.Passphrase, lock) if err != nil { return nil, translateError(err) } // At the moment, only the special-cased import account can be used to // import keys. if req.Account != waddrmgr.ImportedAddrAccount { return nil, status.Errorf(codes.InvalidArgument, "Only the imported account accepts private key imports") } _, err = s.wallet.ImportPrivateKey(waddrmgr.KeyScopeBIP0044, wif, nil, req.Rescan) if err != nil { return nil, translateError(err) } return &pb.ImportPrivateKeyResponse{}, nil } func (s *walletServer) Balance(ctx context.Context, req *pb.BalanceRequest) ( *pb.BalanceResponse, error) { account := req.AccountNumber reqConfs := req.RequiredConfirmations bals, err := s.wallet.CalculateAccountBalances(account, reqConfs) if err != nil { return nil, translateError(err) } // TODO: Spendable currently includes multisig outputs that may not // actually be spendable without additional keys. resp := &pb.BalanceResponse{ Total: int64(bals.Total), Spendable: int64(bals.Spendable), ImmatureReward: int64(bals.ImmatureReward), } return resp, nil } func (s *walletServer) FundTransaction(ctx context.Context, req *pb.FundTransactionRequest) ( *pb.FundTransactionResponse, error) { policy := wallet.OutputSelectionPolicy{ Account: req.Account, RequiredConfirmations: req.RequiredConfirmations, } unspentOutputs, err := s.wallet.UnspentOutputs(policy) if err != nil { return nil, translateError(err) } selectedOutputs := make([]*pb.FundTransactionResponse_PreviousOutput, 0, len(unspentOutputs)) var totalAmount btcutil.Amount for _, output := range unspentOutputs { selectedOutputs = append(selectedOutputs, &pb.FundTransactionResponse_PreviousOutput{ TransactionHash: output.OutPoint.Hash[:], OutputIndex: output.OutPoint.Index, Amount: output.Output.Value, PkScript: output.Output.PkScript, ReceiveTime: output.ReceiveTime.Unix(), FromCoinbase: output.OutputKind == wallet.OutputKindCoinbase, }) totalAmount += btcutil.Amount(output.Output.Value) if req.TargetAmount != 0 && totalAmount > btcutil.Amount(req.TargetAmount) { break } } var changeScript []byte if req.IncludeChangeScript && totalAmount > btcutil.Amount(req.TargetAmount) { changeAddr, err := s.wallet.NewChangeAddress(req.Account, waddrmgr.KeyScopeBIP0044) if err != nil { return nil, translateError(err) } changeScript, err = txscript.PayToAddrScript(changeAddr) if err != nil { return nil, translateError(err) } } return &pb.FundTransactionResponse{ SelectedOutputs: selectedOutputs, TotalAmount: int64(totalAmount), ChangePkScript: changeScript, }, nil } func marshalGetTransactionsResult(wresp *wallet.GetTransactionsResult) ( *pb.GetTransactionsResponse, error) { resp := &pb.GetTransactionsResponse{ MinedTransactions: marshalBlocks(wresp.MinedTransactions), UnminedTransactions: marshalTransactionDetails(wresp.UnminedTransactions), } return resp, nil } // BUGS: // - MinimumRecentTransactions is ignored. // - Wrong error codes when a block height or hash is not recognized func (s *walletServer) GetTransactions(ctx context.Context, req *pb.GetTransactionsRequest) ( resp *pb.GetTransactionsResponse, err error) { var startBlock, endBlock *wallet.BlockIdentifier if req.StartingBlockHash != nil && req.StartingBlockHeight != 0 { // nolint:gocritic return nil, errors.New( "starting block hash and height may not be specified simultaneously") } else if req.StartingBlockHash != nil { startBlockHash, err := chainhash.NewHash(req.StartingBlockHash) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "%s", err.Error()) } startBlock = wallet.NewBlockIdentifierFromHash(startBlockHash) } else if req.StartingBlockHeight != 0 { startBlock = wallet.NewBlockIdentifierFromHeight(req.StartingBlockHeight) } if req.EndingBlockHash != nil && req.EndingBlockHeight != 0 { // nolint:gocritic return nil, status.Errorf(codes.InvalidArgument, "ending block hash and height may not be specified simultaneously") } else if req.EndingBlockHash != nil { endBlockHash, err := chainhash.NewHash(req.EndingBlockHash) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "%s", err.Error()) } endBlock = wallet.NewBlockIdentifierFromHash(endBlockHash) } else if req.EndingBlockHeight != 0 { endBlock = wallet.NewBlockIdentifierFromHeight(req.EndingBlockHeight) } var minRecentTxs int if req.MinimumRecentTransactions != 0 { if endBlock != nil { return nil, status.Errorf(codes.InvalidArgument, "ending block and minimum number of recent transactions "+ "may not be specified simultaneously") } minRecentTxs = int(req.MinimumRecentTransactions) if minRecentTxs < 0 { return nil, status.Errorf(codes.InvalidArgument, "minimum number of recent transactions may not be negative") } } _ = minRecentTxs gtr, err := s.wallet.GetTransactions(startBlock, endBlock, ctx.Done()) if err != nil { return nil, translateError(err) } return marshalGetTransactionsResult(gtr) } func (s *walletServer) ChangePassphrase(ctx context.Context, req *pb.ChangePassphraseRequest) ( *pb.ChangePassphraseResponse, error) { defer func() { zero.Bytes(req.OldPassphrase) zero.Bytes(req.NewPassphrase) }() var err error switch req.Key { case pb.ChangePassphraseRequest_PRIVATE: err = s.wallet.ChangePrivatePassphrase(req.OldPassphrase, req.NewPassphrase) case pb.ChangePassphraseRequest_PUBLIC: err = s.wallet.ChangePublicPassphrase(req.OldPassphrase, req.NewPassphrase) default: return nil, status.Errorf(codes.InvalidArgument, "Unknown key type (%d)", req.Key) } if err != nil { return nil, translateError(err) } return &pb.ChangePassphraseResponse{}, nil } // BUGS: // - InputIndexes request field is ignored. func (s *walletServer) SignTransaction(ctx context.Context, req *pb.SignTransactionRequest) ( *pb.SignTransactionResponse, error) { defer zero.Bytes(req.Passphrase) var tx wire.MsgTx err := tx.Deserialize(bytes.NewReader(req.SerializedTransaction)) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "Bytes do not represent a valid raw transaction: %v", err) } lock := make(chan time.Time, 1) defer func() { lock <- time.Time{} // send matters, not the value }() err = s.wallet.Unlock(req.Passphrase, lock) if err != nil { return nil, translateError(err) } invalidSigs, err := s.wallet.SignTransaction(&tx, txscript.SigHashAll, nil, nil, nil) if err != nil { return nil, translateError(err) } invalidInputIndexes := make([]uint32, len(invalidSigs)) for i, e := range invalidSigs { invalidInputIndexes[i] = e.InputIndex } var serializedTransaction bytes.Buffer serializedTransaction.Grow(tx.SerializeSize()) err = tx.Serialize(&serializedTransaction) if err != nil { return nil, translateError(err) } resp := &pb.SignTransactionResponse{ Transaction: serializedTransaction.Bytes(), UnsignedInputIndexes: invalidInputIndexes, } return resp, nil } // BUGS: // - The transaction is not inspected to be relevant before publishing using // sendrawtransaction, so connection errors to btcd could result in the tx // never being added to the wallet database. // - Once the above bug is fixed, wallet will require a way to purge invalid // transactions from the database when they are rejected by the network, other // than double spending them. func (s *walletServer) PublishTransaction(ctx context.Context, req *pb.PublishTransactionRequest) ( *pb.PublishTransactionResponse, error) { var msgTx wire.MsgTx err := msgTx.Deserialize(bytes.NewReader(req.SignedTransaction)) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "Bytes do not represent a valid raw transaction: %v", err) } err = s.wallet.PublishTransaction(&msgTx, "") if err != nil { return nil, translateError(err) } return &pb.PublishTransactionResponse{}, nil } func marshalTransactionInputs(v []wallet.TransactionSummaryInput) []*pb.TransactionDetails_Input { inputs := make([]*pb.TransactionDetails_Input, len(v)) for i := range v { input := &v[i] inputs[i] = &pb.TransactionDetails_Input{ Index: input.Index, PreviousAccount: input.PreviousAccount, PreviousAmount: int64(input.PreviousAmount), } } return inputs } func marshalTransactionOutputs(v []wallet.TransactionSummaryOutput) []*pb.TransactionDetails_Output { outputs := make([]*pb.TransactionDetails_Output, len(v)) for i := range v { output := &v[i] outputs[i] = &pb.TransactionDetails_Output{ Index: output.Index, Account: output.Account, Internal: output.Internal, } } return outputs } func marshalTransactionDetails(v []wallet.TransactionSummary) []*pb.TransactionDetails { txs := make([]*pb.TransactionDetails, len(v)) for i := range v { tx := &v[i] txs[i] = &pb.TransactionDetails{ Hash: tx.Hash[:], Transaction: tx.Transaction, Debits: marshalTransactionInputs(tx.MyInputs), Credits: marshalTransactionOutputs(tx.MyOutputs), Fee: int64(tx.Fee), Timestamp: tx.Timestamp, } } return txs } func marshalBlocks(v []wallet.Block) []*pb.BlockDetails { blocks := make([]*pb.BlockDetails, len(v)) for i := range v { block := &v[i] blocks[i] = &pb.BlockDetails{ Hash: block.Hash[:], Height: block.Height, Timestamp: block.Timestamp, Transactions: marshalTransactionDetails(block.Transactions), } } return blocks } func marshalHashes(v []*chainhash.Hash) [][]byte { hashes := make([][]byte, len(v)) for i, hash := range v { hashes[i] = hash[:] } return hashes } func (s *walletServer) TransactionNotifications(req *pb.TransactionNotificationsRequest, svr pb.WalletService_TransactionNotificationsServer) error { n := s.wallet.NtfnServer.TransactionNotifications() defer n.Done() ctxDone := svr.Context().Done() for { select { case v := <-n.C: resp := pb.TransactionNotificationsResponse{ AttachedBlocks: marshalBlocks(v.AttachedBlocks), DetachedBlocks: marshalHashes(v.DetachedBlocks), UnminedTransactions: marshalTransactionDetails(v.UnminedTransactions), UnminedTransactionHashes: marshalHashes(v.UnminedTransactionHashes), } err := svr.Send(&resp) if err != nil { return translateError(err) } case <-ctxDone: return nil } } } func (s *walletServer) SpentnessNotifications(req *pb.SpentnessNotificationsRequest, svr pb.WalletService_SpentnessNotificationsServer) error { if req.NoNotifyUnspent && req.NoNotifySpent { return status.Errorf(codes.InvalidArgument, "no_notify_unspent and no_notify_spent may not both be true") } n := s.wallet.NtfnServer.AccountSpentnessNotifications(req.Account) defer n.Done() ctxDone := svr.Context().Done() for { select { case v := <-n.C: spenderHash, spenderIndex, spent := v.Spender() if (spent && req.NoNotifySpent) || (!spent && req.NoNotifyUnspent) { continue } index := v.Index() resp := pb.SpentnessNotificationsResponse{ TransactionHash: v.Hash()[:], OutputIndex: index, } if spent { resp.Spender = &pb.SpentnessNotificationsResponse_Spender{ TransactionHash: spenderHash[:], InputIndex: spenderIndex, } } err := svr.Send(&resp) if err != nil { return translateError(err) } case <-ctxDone: return nil } } } func (s *walletServer) AccountNotifications(req *pb.AccountNotificationsRequest, svr pb.WalletService_AccountNotificationsServer) error { n := s.wallet.NtfnServer.AccountNotifications() defer n.Done() ctxDone := svr.Context().Done() for { select { case v := <-n.C: resp := pb.AccountNotificationsResponse{ AccountNumber: v.AccountNumber, AccountName: v.AccountName, ExternalKeyCount: v.ExternalKeyCount, InternalKeyCount: v.InternalKeyCount, ImportedKeyCount: v.ImportedKeyCount, } err := svr.Send(&resp) if err != nil { return translateError(err) } case <-ctxDone: return nil } } } // StartWalletLoaderService creates an implementation of the WalletLoaderService // and registers it with the gRPC server. func StartWalletLoaderService(server *grpc.Server, loader *wallet.Loader, activeNet *netparams.Params) { service := &loaderServer{loader: loader, activeNet: activeNet} pb.RegisterWalletLoaderServiceServer(server, service) } func (s *loaderServer) CreateWallet(ctx context.Context, req *pb.CreateWalletRequest) ( *pb.CreateWalletResponse, error) { defer func() { zero.Bytes(req.PrivatePassphrase) zero.Bytes(req.Seed) }() // Use an insecure public passphrase when the request's is empty. pubPassphrase := req.PublicPassphrase if len(pubPassphrase) == 0 { pubPassphrase = []byte(wallet.InsecurePubPassphrase) } wallet, err := s.loader.CreateNewWallet( pubPassphrase, req.PrivatePassphrase, req.Seed, time.Now(), ) if err != nil { return nil, translateError(err) } s.mu.Lock() if s.rpcClient != nil { wallet.SynchronizeRPC(s.rpcClient) } s.mu.Unlock() return &pb.CreateWalletResponse{}, nil } func (s *loaderServer) OpenWallet(ctx context.Context, req *pb.OpenWalletRequest) ( *pb.OpenWalletResponse, error) { // Use an insecure public passphrase when the request's is empty. pubPassphrase := req.PublicPassphrase if len(pubPassphrase) == 0 { pubPassphrase = []byte(wallet.InsecurePubPassphrase) } wallet, err := s.loader.OpenExistingWallet(pubPassphrase, false) if err != nil { return nil, translateError(err) } s.mu.Lock() if s.rpcClient != nil { wallet.SynchronizeRPC(s.rpcClient) } s.mu.Unlock() return &pb.OpenWalletResponse{}, nil } func (s *loaderServer) WalletExists(ctx context.Context, req *pb.WalletExistsRequest) ( *pb.WalletExistsResponse, error) { exists, err := s.loader.WalletExists() if err != nil { return nil, translateError(err) } return &pb.WalletExistsResponse{Exists: exists}, nil } func (s *loaderServer) CloseWallet(ctx context.Context, req *pb.CloseWalletRequest) ( *pb.CloseWalletResponse, error) { err := s.loader.UnloadWallet() if err == wallet.ErrNotLoaded { return nil, status.Errorf(codes.FailedPrecondition, "wallet is not loaded") } if err != nil { return nil, translateError(err) } return &pb.CloseWalletResponse{}, nil } func (s *loaderServer) StartConsensusRpc(ctx context.Context, // nolint:golint req *pb.StartConsensusRpcRequest) (*pb.StartConsensusRpcResponse, error) { defer zero.Bytes(req.Password) defer s.mu.Unlock() s.mu.Lock() if s.rpcClient != nil { return nil, status.Errorf(codes.FailedPrecondition, "RPC client already created") } networkAddress, err := cfgutil.NormalizeAddress(req.NetworkAddress, s.activeNet.RPCClientPort) if err != nil { return nil, status.Errorf(codes.InvalidArgument, "Network address is ill-formed: %v", err) } // Error if the wallet is already syncing with the network. wallet, walletLoaded := s.loader.LoadedWallet() if walletLoaded && wallet.SynchronizingToNetwork() { return nil, status.Errorf(codes.FailedPrecondition, "wallet is loaded and already synchronizing") } rpcClient, err := chain.NewRPCClient(s.activeNet.Params, networkAddress, req.Username, string(req.Password), req.Certificate, len(req.Certificate) == 0, 1) if err != nil { return nil, translateError(err) } err = rpcClient.Start() if err != nil { if err == rpcclient.ErrInvalidAuth { return nil, status.Errorf(codes.InvalidArgument, "Invalid RPC credentials: %v", err) } return nil, status.Errorf(codes.NotFound, "Connection to RPC server failed: %v", err) } s.rpcClient = rpcClient if walletLoaded { wallet.SynchronizeRPC(rpcClient) } return &pb.StartConsensusRpcResponse{}, nil }