// Copyright 2020 Coinbase, Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package bitcoin import ( "bytes" "context" "encoding/json" "errors" "fmt" "io/ioutil" "net" "net/http" "strconv" "time" bitcoinUtils "github.com/coinbase/rosetta-bitcoin/utils" "github.com/btcsuite/btcutil" "github.com/coinbase/rosetta-sdk-go/storage" "github.com/coinbase/rosetta-sdk-go/types" "github.com/coinbase/rosetta-sdk-go/utils" ) const ( // genesisBlockIndex is the height of the block we consider to be the // genesis block of the bitcoin blockchain for polling genesisBlockIndex = 0 // requestID is the JSON-RPC request ID we use for making requests. // We don't need unique request IDs because we're processing all of // our requests synchronously. requestID = 1 // jSONRPCVersion is the JSON-RPC version we use for making requests jSONRPCVersion = "2.0" // blockVerbosity represents the verbose level used when fetching blocks // * 0 returns the hex representation // * 1 returns the JSON representation // * 2 returns the JSON representation with included Transaction data blockVerbosity = 2 ) type requestMethod string const ( // https://bitcoin.org/en/developer-reference#getblock requestMethodGetBlock requestMethod = "getblock" // https://bitcoin.org/en/developer-reference#getblockhash requestMethodGetBlockHash requestMethod = "getblockhash" // https://bitcoin.org/en/developer-reference#getblockchaininfo requestMethodGetBlockchainInfo requestMethod = "getblockchaininfo" // https://developer.bitcoin.org/reference/rpc/getpeerinfo.html requestMethodGetPeerInfo requestMethod = "getpeerinfo" // https://developer.bitcoin.org/reference/rpc/pruneblockchain.html requestMethodPruneBlockchain requestMethod = "pruneblockchain" // https://developer.bitcoin.org/reference/rpc/sendrawtransaction.html requestMethodSendRawTransaction requestMethod = "sendrawtransaction" // https://developer.bitcoin.org/reference/rpc/estimatesmartfee.html requestMethodEstimateSmartFee requestMethod = "estimatesmartfee" // https://developer.bitcoin.org/reference/rpc/getrawmempool.html requestMethodRawMempool requestMethod = "getrawmempool" // blockNotFoundErrCode is the RPC error code when a block cannot be found blockNotFoundErrCode = -5 ) const ( defaultTimeout = 100 * time.Second dialTimeout = 5 * time.Second // timeMultiplier is used to multiply the time // returned in Bitcoin blocks to be milliseconds. timeMultiplier = 1000 // rpc credentials are fixed in rosetta-bitcoin // because we never expose access to the raw bitcoind // endpoints (that could be used perform an attack, like // changing our peers). rpcUsername = "rosetta" rpcPassword = "rosetta" ) var ( // ErrBlockNotFound is returned by when the requested block // cannot be found by the node ErrBlockNotFound = errors.New("unable to find block") // ErrJSONRPCError is returned when receiving an error from a JSON-RPC response ErrJSONRPCError = errors.New("JSON-RPC error") ) // Client is used to fetch blocks from bitcoind and // to parse Bitcoin block data into Rosetta types. // // We opted not to use existing Bitcoin RPC libraries // because they don't allow providing context // in each request. type Client struct { baseURL string genesisBlockIdentifier *types.BlockIdentifier currency *types.Currency httpClient *http.Client } // LocalhostURL returns the URL to use // for a client that is running at localhost. func LocalhostURL(rpcPort int) string { return fmt.Sprintf("http://localhost:%d", rpcPort) } // NewClient creates a new Bitcoin client. func NewClient( baseURL string, genesisBlockIdentifier *types.BlockIdentifier, currency *types.Currency, ) *Client { return &Client{ baseURL: baseURL, genesisBlockIdentifier: genesisBlockIdentifier, currency: currency, httpClient: newHTTPClient(defaultTimeout), } } // newHTTPClient returns a new HTTP client func newHTTPClient(timeout time.Duration) *http.Client { var netTransport = &http.Transport{ Dial: (&net.Dialer{ Timeout: dialTimeout, }).Dial, } httpClient := &http.Client{ Timeout: timeout, Transport: netTransport, } return httpClient } // NetworkStatus returns the *types.NetworkStatusResponse for // bitcoind. func (b *Client) NetworkStatus(ctx context.Context) (*types.NetworkStatusResponse, error) { rawBlock, err := b.getBlock(ctx, nil) if err != nil { return nil, fmt.Errorf("%w: unable to get current block", err) } currentBlock, err := b.parseBlockData(rawBlock) if err != nil { return nil, fmt.Errorf("%w: unable to parse current block", err) } peers, err := b.GetPeers(ctx) if err != nil { return nil, err } return &types.NetworkStatusResponse{ CurrentBlockIdentifier: currentBlock.BlockIdentifier, CurrentBlockTimestamp: currentBlock.Timestamp, GenesisBlockIdentifier: b.genesisBlockIdentifier, Peers: peers, }, nil } // GetPeers fetches the list of peer nodes func (b *Client) GetPeers(ctx context.Context) ([]*types.Peer, error) { info, err := b.getPeerInfo(ctx) if err != nil { return nil, err } peers := make([]*types.Peer, len(info)) for i, peerInfo := range info { metadata, err := types.MarshalMap(peerInfo) if err != nil { return nil, fmt.Errorf("%w: unable to marshal peer info", err) } peers[i] = &types.Peer{ PeerID: peerInfo.Addr, Metadata: metadata, } } return peers, nil } // GetRawBlock fetches a block (block) by *types.PartialBlockIdentifier. func (b *Client) GetRawBlock( ctx context.Context, identifier *types.PartialBlockIdentifier, ) (*Block, []string, error) { block, err := b.getBlock(ctx, identifier) if err != nil { return nil, nil, err } coins := []string{} blockTxHashes := []string{} for txIndex, tx := range block.Txs { blockTxHashes = append(blockTxHashes, tx.Hash) for inputIndex, input := range tx.Inputs { txHash, vout, ok := b.getInputTxHash(input, txIndex, inputIndex) if !ok { continue } // If any transactions spent in the same block they are created, don't include them // in previousTxHashes to fetch. if !utils.ContainsString(blockTxHashes, txHash) { coins = append(coins, CoinIdentifier(txHash, vout)) } } } return block, coins, nil } // ParseBlock returns a parsed bitcoin block given a raw bitcoin // block and a map of transactions containing inputs. func (b *Client) ParseBlock( ctx context.Context, block *Block, coins map[string]*storage.AccountCoin, ) (*types.Block, error) { rblock, err := b.parseBlockData(block) if err != nil { return nil, err } txs, err := b.parseTransactions(ctx, block, coins) if err != nil { return nil, err } rblock.Transactions = txs return rblock, nil } // SendRawTransaction submits a serialized transaction // to bitcoind. func (b *Client) SendRawTransaction( ctx context.Context, serializedTx string, ) (string, error) { // Parameters: // 1. hextring // 2. maxfeerate (0 means accept any fee) params := []interface{}{serializedTx, 0} response := &sendRawTransactionResponse{} if err := b.post(ctx, requestMethodSendRawTransaction, params, response); err != nil { return "", fmt.Errorf("%w: error submitting raw transaction", err) } return response.Result, nil } // SuggestedFeeRate estimates the approximate fee per vKB needed // to get a transaction in a block within conf_target. func (b *Client) SuggestedFeeRate( ctx context.Context, confTarget int64, ) (float64, error) { // Parameters: // 1. conf_target (confirmation target in blocks) params := []interface{}{confTarget} response := &suggestedFeeRateResponse{} if err := b.post(ctx, requestMethodEstimateSmartFee, params, response); err != nil { return -1, fmt.Errorf("%w: error getting fee estimate", err) } return response.Result.FeeRate, nil } // PruneBlockchain prunes up to the provided height. // https://bitcoincore.org/en/doc/0.20.0/rpc/blockchain/pruneblockchain func (b *Client) PruneBlockchain( ctx context.Context, height int64, ) (int64, error) { // Parameters: // 1. Height // https://developer.bitcoin.org/reference/rpc/pruneblockchain.html#argument-1-height params := []interface{}{height} response := &pruneBlockchainResponse{} if err := b.post(ctx, requestMethodPruneBlockchain, params, response); err != nil { return -1, fmt.Errorf("%w: error pruning blockchain", err) } return response.Result, nil } // RawMempool returns an array of all transaction // hashes currently in the mempool. func (b *Client) RawMempool( ctx context.Context, ) ([]string, error) { // Parameters: // 1. verbose params := []interface{}{false} response := &rawMempoolResponse{} if err := b.post(ctx, requestMethodRawMempool, params, response); err != nil { return nil, fmt.Errorf("%w: error getting raw mempool", err) } return response.Result, nil } // getPeerInfo performs the `getpeerinfo` JSON-RPC request func (b *Client) getPeerInfo( ctx context.Context, ) ([]*PeerInfo, error) { params := []interface{}{} response := &peerInfoResponse{} if err := b.post(ctx, requestMethodGetPeerInfo, params, response); err != nil { return nil, fmt.Errorf("%w: error posting to JSON-RPC", err) } return response.Result, nil } // getBlock returns a Block for the specified identifier func (b *Client) getBlock( ctx context.Context, identifier *types.PartialBlockIdentifier, ) (*Block, error) { hash, err := b.getBlockHash(ctx, identifier) if err != nil { return nil, fmt.Errorf("%w: error getting block hash by identifier", err) } // Parameters: // 1. Block hash (string, required) // 2. Verbosity (integer, optional, default=1) // https://bitcoin.org/en/developer-reference#getblock params := []interface{}{hash, blockVerbosity} response := &blockResponse{} if err := b.post(ctx, requestMethodGetBlock, params, response); err != nil { return nil, fmt.Errorf("%w: error fetching block by hash %s", err, hash) } return response.Result, nil } // getBlockchainInfo performs the `getblockchaininfo` JSON-RPC request func (b *Client) getBlockchainInfo( ctx context.Context, ) (*BlockchainInfo, error) { params := []interface{}{} response := &blockchainInfoResponse{} if err := b.post(ctx, requestMethodGetBlockchainInfo, params, response); err != nil { return nil, fmt.Errorf("%w: unbale to get blockchain info", err) } return response.Result, nil } // getBlockHash returns the hash for a specified block identifier. // If the identifier includes a hash it will return that hash. // If the identifier only includes an index, if will fetch the hash that corresponds to // that block height from the node. func (b *Client) getBlockHash( ctx context.Context, identifier *types.PartialBlockIdentifier, ) (string, error) { // Lookup best block if no PartialBlockIdentifier provided. if identifier == nil || (identifier.Hash == nil && identifier.Index == nil) { info, err := b.getBlockchainInfo(ctx) if err != nil { return "", fmt.Errorf("%w: unable to get blockchain info", err) } return info.BestBlockHash, nil } if identifier.Hash != nil { return *identifier.Hash, nil } return b.getHashFromIndex(ctx, *identifier.Index) } // parseBlock returns a *types.Block from a Block func (b *Client) parseBlockData(block *Block) (*types.Block, error) { if block == nil { return nil, errors.New("error parsing nil block") } blockIndex := block.Height previousBlockIndex := blockIndex - 1 previousBlockHash := block.PreviousBlockHash // the genesis block's predecessor is itself if blockIndex == genesisBlockIndex { previousBlockIndex = genesisBlockIndex previousBlockHash = block.Hash } metadata, err := block.Metadata() if err != nil { return nil, fmt.Errorf("%w: unable to create block metadata", err) } return &types.Block{ BlockIdentifier: &types.BlockIdentifier{ Hash: block.Hash, Index: blockIndex, }, ParentBlockIdentifier: &types.BlockIdentifier{ Hash: previousBlockHash, Index: previousBlockIndex, }, Timestamp: block.Time * timeMultiplier, Metadata: metadata, }, nil } // getHashFromIndex performs the `getblockhash` JSON-RPC request for the specified // block index, and returns the hash. // https://bitcoin.org/en/developer-reference#getblockhash func (b *Client) getHashFromIndex( ctx context.Context, index int64, ) (string, error) { // Parameters: // 1. Block height (numeric, required) // https://bitcoin.org/en/developer-reference#getblockhash params := []interface{}{index} response := &blockHashResponse{} if err := b.post(ctx, requestMethodGetBlockHash, params, response); err != nil { return "", fmt.Errorf( "%w: error fetching block hash by index: %d", err, index, ) } return response.Result, nil } // skipTransactionOperations is used to skip operations on transactions that // contain duplicate UTXOs (which are no longer possible after BIP-30). This // function mirrors the behavior of a similar commit in bitcoin-core. // // Source: https://github.com/bitcoin/bitcoin/commit/ab91bf39b7c11e9c86bb2043c24f0f377f1cf514 func skipTransactionOperations(blockNumber int64, blockHash string, transactionHash string) bool { if blockNumber == 91842 && blockHash == "00000000000a4d0a398161ffc163c503763b1f4360639393e0e4c8e300e0caec" && transactionHash == "d5d27987d2a3dfc724e359870c6644b40e497bdc0589a033220fe15429d88599" { return true } if blockNumber == 91880 && blockHash == "00000000000743f190a18c5577a3c2d2a1f610ae9601ac046a38084ccb7cd721" && transactionHash == "e3bf3d07d4b0375638d5f1db5255fe07ba2c4cb067cd81b84ee974b6585fb468" { return true } return false } // parseTransactions returns the transactions for a specified `Block` func (b *Client) parseTransactions( ctx context.Context, block *Block, coins map[string]*storage.AccountCoin, ) ([]*types.Transaction, error) { logger := bitcoinUtils.ExtractLogger(ctx, "client") if block == nil { return nil, errors.New("error parsing nil block") } txs := make([]*types.Transaction, len(block.Txs)) for index, transaction := range block.Txs { txOps, err := b.parseTxOperations(transaction, index, coins) if err != nil { return nil, fmt.Errorf("%w: error parsing transaction operations", err) } if skipTransactionOperations(block.Height, block.Hash, transaction.Hash) { logger.Warnw( "skipping transaction", "block index", block.Height, "block hash", block.Hash, "transaction hash", transaction.Hash, ) status := SuccessStatus for _, op := range txOps { op.Status = &status } } metadata, err := transaction.Metadata() if err != nil { return nil, fmt.Errorf("%w: unable to get metadata for transaction", err) } tx := &types.Transaction{ TransactionIdentifier: &types.TransactionIdentifier{ Hash: transaction.Hash, }, Operations: txOps, Metadata: metadata, } txs[index] = tx // In some cases, a transaction will spent an output // from the same block. for _, op := range tx.Operations { if op.CoinChange == nil { continue } if op.CoinChange.CoinAction != types.CoinCreated { continue } coins[op.CoinChange.CoinIdentifier.Identifier] = &storage.AccountCoin{ Coin: &types.Coin{ CoinIdentifier: op.CoinChange.CoinIdentifier, Amount: op.Amount, }, Account: op.Account, } } } return txs, nil } // parseTransactions returns the transaction operations for a specified transaction. // It uses a map of previous transactions to properly hydrate the input operations. func (b *Client) parseTxOperations( tx *Transaction, txIndex int, coins map[string]*storage.AccountCoin, ) ([]*types.Operation, error) { txOps := []*types.Operation{} for networkIndex, input := range tx.Inputs { if bitcoinIsCoinbaseInput(input, txIndex, networkIndex) { txOp, err := b.coinbaseTxOperation(input, int64(len(txOps)), int64(networkIndex)) if err != nil { return nil, err } txOps = append(txOps, txOp) break } // Fetch the *storage.AccountCoin the input is associated with accountCoin, ok := coins[CoinIdentifier(input.TxHash, input.Vout)] if !ok { return nil, fmt.Errorf( "error finding previous tx: %s, for tx: %s, input index: %d", input.TxHash, tx.Hash, networkIndex, ) } // Parse the input transaction operation txOp, err := b.parseInputTransactionOperation( input, int64(len(txOps)), int64(networkIndex), accountCoin, ) if err != nil { return nil, fmt.Errorf("%w: error parsing tx input", err) } txOps = append(txOps, txOp) } for networkIndex, output := range tx.Outputs { txOp, err := b.parseOutputTransactionOperation( output, tx.Hash, int64(len(txOps)), int64(networkIndex), ) if err != nil { return nil, fmt.Errorf( "%w: error parsing tx output, hash: %s, index: %d", err, tx.Hash, networkIndex, ) } txOps = append(txOps, txOp) } return txOps, nil } // parseOutputTransactionOperation returns the types.Operation for the specified // `bitcoinOutput` transaction output. func (b *Client) parseOutputTransactionOperation( output *Output, txHash string, index int64, networkIndex int64, ) (*types.Operation, error) { amount, err := b.parseAmount(output.Value) if err != nil { return nil, fmt.Errorf( "%w: error parsing output value, hash: %s, index: %d", err, txHash, index, ) } metadata, err := output.Metadata() if err != nil { return nil, fmt.Errorf("%w: unable to get output metadata", err) } coinChange := &types.CoinChange{ CoinIdentifier: &types.CoinIdentifier{ Identifier: fmt.Sprintf("%s:%d", txHash, networkIndex), }, CoinAction: types.CoinCreated, } // If we are unable to parse the output account (i.e. bitcoind // returns a blank/nonstandard ScriptPubKey), we create an address as the // concatenation of the tx hash and index. // // Example: 4852fe372ff7534c16713b3146bbc1e86379c70bea4d5c02fb1fa0112980a081:1 // on testnet account := b.parseOutputAccount(output.ScriptPubKey) if len(account.Address) == 0 { account.Address = fmt.Sprintf("%s:%d", txHash, networkIndex) } // If this is an OP_RETURN locking script, // we don't create a coin because it is provably unspendable. if output.ScriptPubKey.Type == NullData { coinChange = nil } status := SuccessStatus return &types.Operation{ OperationIdentifier: &types.OperationIdentifier{ Index: index, NetworkIndex: &networkIndex, }, Type: OutputOpType, Status: &status, Account: account, Amount: &types.Amount{ Value: strconv.FormatInt(int64(amount), 10), Currency: b.currency, }, CoinChange: coinChange, Metadata: metadata, }, nil } // getInputTxHash returns the transaction hash corresponding to an inputs previous // output. If the input is a coinbase input, then no previous transaction is associated // with the input. func (b *Client) getInputTxHash( input *Input, txIndex int, inputIndex int, ) (string, int64, bool) { if bitcoinIsCoinbaseInput(input, txIndex, inputIndex) { return "", -1, false } return input.TxHash, input.Vout, true } // bitcoinIsCoinbaseInput returns whether the specified input is // the coinbase input. The coinbase input is always the first input in the first // transaction, and does not contain a previous transaction hash. func bitcoinIsCoinbaseInput(input *Input, txIndex int, inputIndex int) bool { return txIndex == 0 && inputIndex == 0 && input.TxHash == "" && input.Coinbase != "" } // parseInputTransactionOperation returns the types.Operation for the specified // Input transaction input. func (b *Client) parseInputTransactionOperation( input *Input, index int64, networkIndex int64, accountCoin *storage.AccountCoin, ) (*types.Operation, error) { metadata, err := input.Metadata() if err != nil { return nil, fmt.Errorf("%w: unable to get input metadata", err) } newValue, err := types.NegateValue(accountCoin.Coin.Amount.Value) if err != nil { return nil, fmt.Errorf("%w: unable to negate previous output", err) } status := SuccessStatus return &types.Operation{ OperationIdentifier: &types.OperationIdentifier{ Index: index, NetworkIndex: &networkIndex, }, Type: InputOpType, Status: &status, Account: accountCoin.Account, Amount: &types.Amount{ Value: newValue, Currency: b.currency, }, CoinChange: &types.CoinChange{ CoinIdentifier: &types.CoinIdentifier{ Identifier: fmt.Sprintf("%s:%d", input.TxHash, input.Vout), }, CoinAction: types.CoinSpent, }, Metadata: metadata, }, nil } // parseAmount returns the atomic value of the specified amount. // https://godoc.org/github.com/btcsuite/btcutil#NewAmount func (b *Client) parseAmount(amount float64) (uint64, error) { atomicAmount, err := btcutil.NewAmount(amount) if err != nil { return uint64(0), fmt.Errorf("%w: error parsing amount", err) } if atomicAmount < 0 { return uint64(0), fmt.Errorf("error unexpected negative amount: %d", atomicAmount) } return uint64(atomicAmount), nil } // parseOutputAccount parses a bitcoinScriptPubKey and returns an account // identifier. The account identifier's address corresponds to the first // address encoded in the script. func (b *Client) parseOutputAccount( scriptPubKey *ScriptPubKey, ) *types.AccountIdentifier { if len(scriptPubKey.Addresses) != 1 { return &types.AccountIdentifier{Address: scriptPubKey.Hex} } return &types.AccountIdentifier{Address: scriptPubKey.Addresses[0]} } // coinbaseTxOperation constructs a transaction operation for the coinbase input. // This reflects an input that does not correspond to a previous output. func (b *Client) coinbaseTxOperation( input *Input, index int64, networkIndex int64, ) (*types.Operation, error) { metadata, err := input.Metadata() if err != nil { return nil, fmt.Errorf("%w: unable to get input metadata", err) } status := SuccessStatus return &types.Operation{ OperationIdentifier: &types.OperationIdentifier{ Index: index, NetworkIndex: &networkIndex, }, Type: CoinbaseOpType, Status: &status, Metadata: metadata, }, nil } // post makes a HTTP request to a Bitcoin node func (b *Client) post( ctx context.Context, method requestMethod, params []interface{}, response jSONRPCResponse, ) error { rpcRequest := &request{ JSONRPC: jSONRPCVersion, ID: requestID, Method: string(method), Params: params, } requestBody, err := json.Marshal(rpcRequest) if err != nil { return fmt.Errorf("%w: error marshalling RPC request", err) } req, err := http.NewRequest(http.MethodPost, b.baseURL, bytes.NewReader(requestBody)) if err != nil { return fmt.Errorf("%w: error constructing request", err) } req.Header.Set("Content-Type", "application/json") req.SetBasicAuth(rpcUsername, rpcPassword) // Perform the post request res, err := b.httpClient.Do(req.WithContext(ctx)) if err != nil { return fmt.Errorf("%w: error posting to rpc-api", err) } defer res.Body.Close() // We expect JSON-RPC responses to return `200 OK` statuses if res.StatusCode != http.StatusOK { val, _ := ioutil.ReadAll(res.Body) return fmt.Errorf("invalid response: %s %s", res.Status, string(val)) } if err = json.NewDecoder(res.Body).Decode(response); err != nil { return fmt.Errorf("%w: error decoding response body", err) } // Handle errors that are returned in JSON-RPC responses with `200 OK` statuses return response.Err() }