mirror of
https://github.com/lightningnetwork/lnd.git
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456 lines
13 KiB
Go
456 lines
13 KiB
Go
package lntest
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import (
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"bytes"
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"context"
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"fmt"
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"io/ioutil"
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"os"
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"path/filepath"
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"strings"
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"testing"
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"time"
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"github.com/btcsuite/btcd/btcjson"
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"github.com/btcsuite/btcd/btcutil"
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"github.com/btcsuite/btcd/chaincfg"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/integration/rpctest"
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"github.com/btcsuite/btcd/rpcclient"
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"github.com/btcsuite/btcd/wire"
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"github.com/lightningnetwork/lnd/lntest/node"
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"github.com/lightningnetwork/lnd/lntest/wait"
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"github.com/stretchr/testify/require"
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)
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const (
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// minerLogFilename is the default log filename for the miner node.
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minerLogFilename = "output_btcd_miner.log"
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// minerLogDir is the default log dir for the miner node.
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minerLogDir = ".minerlogs"
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// slowMineDelay defines a wait period between mining new blocks.
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slowMineDelay = 100 * time.Millisecond
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)
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var harnessNetParams = &chaincfg.RegressionNetParams
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type HarnessMiner struct {
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*testing.T
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*rpctest.Harness
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// runCtx is a context with cancel method. It's used to signal when the
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// node needs to quit, and used as the parent context when spawning
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// children contexts for RPC requests.
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runCtx context.Context //nolint:containedctx
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cancel context.CancelFunc
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// logPath is the directory path of the miner's logs.
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logPath string
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// logFilename is the saved log filename of the miner node.
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logFilename string
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}
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// NewMiner creates a new miner using btcd backend with the default log file
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// dir and name.
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func NewMiner(ctxt context.Context, t *testing.T) *HarnessMiner {
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t.Helper()
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return newMiner(ctxt, t, minerLogDir, minerLogFilename)
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}
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// NewTempMiner creates a new miner using btcd backend with the specified log
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// file dir and name.
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func NewTempMiner(ctxt context.Context, t *testing.T,
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tempDir, tempLogFilename string) *HarnessMiner {
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t.Helper()
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return newMiner(ctxt, t, tempDir, tempLogFilename)
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}
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// newMiner creates a new miner using btcd's rpctest.
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func newMiner(ctxb context.Context, t *testing.T, minerDirName,
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logFilename string) *HarnessMiner {
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t.Helper()
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handler := &rpcclient.NotificationHandlers{}
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btcdBinary := node.GetBtcdBinary()
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baseLogPath := fmt.Sprintf("%s/%s", node.GetLogDir(), minerDirName)
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args := []string{
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"--rejectnonstd",
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"--txindex",
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"--nowinservice",
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"--nobanning",
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"--debuglevel=debug",
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"--logdir=" + baseLogPath,
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"--trickleinterval=100ms",
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// Don't disconnect if a reply takes too long.
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"--nostalldetect",
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}
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miner, err := rpctest.New(harnessNetParams, handler, args, btcdBinary)
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require.NoError(t, err, "unable to create mining node")
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ctxt, cancel := context.WithCancel(ctxb)
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return &HarnessMiner{
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T: t,
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Harness: miner,
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runCtx: ctxt,
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cancel: cancel,
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logPath: baseLogPath,
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logFilename: logFilename,
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}
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}
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// saveLogs copies the node logs and save it to the file specified by
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// h.logFilename.
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func (h *HarnessMiner) saveLogs() {
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// After shutting down the miner, we'll make a copy of the log files
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// before deleting the temporary log dir.
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path := fmt.Sprintf("%s/%s", h.logPath, harnessNetParams.Name)
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files, err := ioutil.ReadDir(path)
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require.NoError(h, err, "unable to read log directory")
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for _, file := range files {
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newFilename := strings.Replace(
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file.Name(), "btcd.log", h.logFilename, 1,
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)
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copyPath := fmt.Sprintf("%s/../%s", h.logPath, newFilename)
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logFile := fmt.Sprintf("%s/%s", path, file.Name())
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err := CopyFile(filepath.Clean(copyPath), logFile)
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require.NoError(h, err, "unable to copy file")
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}
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err = os.RemoveAll(h.logPath)
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require.NoErrorf(h, err, "cannot remove dir %s", h.logPath)
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}
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// Stop shuts down the miner and saves its logs.
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func (h *HarnessMiner) Stop() {
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h.cancel()
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require.NoError(h, h.TearDown(), "tear down miner got error")
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h.saveLogs()
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}
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// GetBestBlock makes a RPC request to miner and asserts.
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func (h *HarnessMiner) GetBestBlock() (*chainhash.Hash, int32) {
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blockHash, height, err := h.Client.GetBestBlock()
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require.NoError(h, err, "failed to GetBestBlock")
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return blockHash, height
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}
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// GetRawMempool makes a RPC call to the miner's GetRawMempool and
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// asserts.
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func (h *HarnessMiner) GetRawMempool() []*chainhash.Hash {
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mempool, err := h.Client.GetRawMempool()
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require.NoError(h, err, "unable to get mempool")
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return mempool
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}
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// GenerateBlocks mine 'num' of blocks and returns them.
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func (h *HarnessMiner) GenerateBlocks(num uint32) []*chainhash.Hash {
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blockHashes, err := h.Client.Generate(num)
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require.NoError(h, err, "unable to generate blocks")
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require.Len(h, blockHashes, int(num), "wrong num of blocks generated")
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return blockHashes
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}
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// GetBlock gets a block using its block hash.
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func (h *HarnessMiner) GetBlock(blockHash *chainhash.Hash) *wire.MsgBlock {
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block, err := h.Client.GetBlock(blockHash)
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require.NoError(h, err, "unable to get block")
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return block
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}
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// MineBlocks mine 'num' of blocks and check that blocks are present in
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// node blockchain.
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func (h *HarnessMiner) MineBlocks(num uint32) []*wire.MsgBlock {
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blocks := make([]*wire.MsgBlock, num)
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blockHashes := h.GenerateBlocks(num)
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for i, blockHash := range blockHashes {
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block := h.GetBlock(blockHash)
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blocks[i] = block
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}
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return blocks
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}
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// AssertNumTxsInMempool polls until finding the desired number of transactions
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// in the provided miner's mempool. It will asserrt if this number is not met
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// after the given timeout.
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func (h *HarnessMiner) AssertNumTxsInMempool(n int) []*chainhash.Hash {
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var (
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mem []*chainhash.Hash
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err error
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)
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err = wait.NoError(func() error {
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// We require the RPC call to be succeeded and won't wait for
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// it as it's an unexpected behavior.
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mem = h.GetRawMempool()
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if len(mem) == n {
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return nil
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}
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return fmt.Errorf("want %v, got %v in mempool: %v",
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n, len(mem), mem)
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}, wait.MinerMempoolTimeout)
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require.NoError(h, err, "assert tx in mempool timeout")
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return mem
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}
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// AssertTxInBlock asserts that a given txid can be found in the passed block.
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func (h *HarnessMiner) AssertTxInBlock(block *wire.MsgBlock,
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txid *chainhash.Hash) {
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blockTxes := make([]chainhash.Hash, 0)
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for _, tx := range block.Transactions {
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sha := tx.TxHash()
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blockTxes = append(blockTxes, sha)
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if bytes.Equal(txid[:], sha[:]) {
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return
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}
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}
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require.Failf(h, "tx was not included in block", "tx:%v, block has:%v",
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txid, blockTxes)
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}
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// MineBlocksAndAssertNumTxes mine 'num' of blocks and check that blocks are
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// present in node blockchain. numTxs should be set to the number of
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// transactions (excluding the coinbase) we expect to be included in the first
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// mined block.
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func (h *HarnessMiner) MineBlocksAndAssertNumTxes(num uint32,
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numTxs int) []*wire.MsgBlock {
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// If we expect transactions to be included in the blocks we'll mine,
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// we wait here until they are seen in the miner's mempool.
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txids := h.AssertNumTxsInMempool(numTxs)
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// Mine blocks.
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blocks := h.MineBlocks(num)
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// Finally, assert that all the transactions were included in the first
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// block.
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for _, txid := range txids {
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h.AssertTxInBlock(blocks[0], txid)
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}
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return blocks
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}
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// GetRawTransaction makes a RPC call to the miner's GetRawTransaction and
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// asserts.
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func (h *HarnessMiner) GetRawTransaction(txid *chainhash.Hash) *btcutil.Tx {
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tx, err := h.Client.GetRawTransaction(txid)
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require.NoErrorf(h, err, "failed to get raw tx: %v", txid)
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return tx
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}
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// GetRawTransactionVerbose makes a RPC call to the miner's
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// GetRawTransactionVerbose and asserts.
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func (h *HarnessMiner) GetRawTransactionVerbose(
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txid *chainhash.Hash) *btcjson.TxRawResult {
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tx, err := h.Client.GetRawTransactionVerbose(txid)
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require.NoErrorf(h, err, "failed to get raw tx verbose: %v", txid)
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return tx
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}
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// AssertTxInMempool asserts a given transaction can be found in the mempool.
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func (h *HarnessMiner) AssertTxInMempool(txid *chainhash.Hash) *wire.MsgTx {
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var msgTx *wire.MsgTx
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err := wait.NoError(func() error {
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// We require the RPC call to be succeeded and won't wait for
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// it as it's an unexpected behavior.
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mempool := h.GetRawMempool()
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if len(mempool) == 0 {
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return fmt.Errorf("empty mempool")
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}
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for _, memTx := range mempool {
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// Check the values are equal.
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if *memTx == *txid {
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return nil
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}
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}
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return fmt.Errorf("txid %v not found in mempool: %v", txid,
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mempool)
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}, wait.MinerMempoolTimeout)
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require.NoError(h, err, "timeout checking mempool")
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return msgTx
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}
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// SendOutputsWithoutChange uses the miner to send the given outputs using the
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// specified fee rate and returns the txid.
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func (h *HarnessMiner) SendOutputsWithoutChange(outputs []*wire.TxOut,
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feeRate btcutil.Amount) *chainhash.Hash {
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txid, err := h.Harness.SendOutputsWithoutChange(
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outputs, feeRate,
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)
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require.NoErrorf(h, err, "failed to send output")
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return txid
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}
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// CreateTransaction uses the miner to create a transaction using the given
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// outputs using the specified fee rate and returns the transaction.
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func (h *HarnessMiner) CreateTransaction(outputs []*wire.TxOut,
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feeRate btcutil.Amount) *wire.MsgTx {
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tx, err := h.Harness.CreateTransaction(outputs, feeRate, false)
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require.NoErrorf(h, err, "failed to create transaction")
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return tx
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}
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// SendOutput creates, signs, and finally broadcasts a transaction spending
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// the harness' available mature coinbase outputs to create the new output.
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func (h *HarnessMiner) SendOutput(newOutput *wire.TxOut,
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feeRate btcutil.Amount) *chainhash.Hash {
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hash, err := h.Harness.SendOutputs([]*wire.TxOut{newOutput}, feeRate)
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require.NoErrorf(h, err, "failed to send outputs")
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return hash
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}
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// MineBlocksSlow mines 'num' of blocks. Between each mined block an artificial
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// delay is introduced to give all network participants time to catch up.
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func (h *HarnessMiner) MineBlocksSlow(num uint32) []*wire.MsgBlock {
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blocks := make([]*wire.MsgBlock, num)
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blockHashes := make([]*chainhash.Hash, 0, num)
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for i := uint32(0); i < num; i++ {
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generatedHashes := h.GenerateBlocks(1)
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blockHashes = append(blockHashes, generatedHashes...)
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time.Sleep(slowMineDelay)
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}
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for i, blockHash := range blockHashes {
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block, err := h.Client.GetBlock(blockHash)
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require.NoError(h, err, "get blocks")
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blocks[i] = block
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}
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return blocks
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}
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// AssertOutpointInMempool asserts a given outpoint can be found in the mempool.
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func (h *HarnessMiner) AssertOutpointInMempool(op wire.OutPoint) *wire.MsgTx {
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var msgTx *wire.MsgTx
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err := wait.NoError(func() error {
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// We require the RPC call to be succeeded and won't wait for
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// it as it's an unexpected behavior.
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mempool := h.GetRawMempool()
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if len(mempool) == 0 {
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return fmt.Errorf("empty mempool")
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}
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for _, txid := range mempool {
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// We don't use `ht.Miner.GetRawTransaction` which
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// asserts a txid must be found. While iterating here,
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// the actual mempool state might have been changed,
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// causing a given txid being removed and cannot be
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// found. For instance, the aggregation logic used in
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// sweeping HTLC outputs will update the mempool by
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// replacing the HTLC spending txes with a single one.
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tx, err := h.Client.GetRawTransaction(txid)
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if err != nil {
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return err
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}
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msgTx = tx.MsgTx()
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for _, txIn := range msgTx.TxIn {
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if txIn.PreviousOutPoint == op {
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return nil
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}
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}
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}
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return fmt.Errorf("outpoint %v not found in mempool", op)
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}, wait.MinerMempoolTimeout)
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require.NoError(h, err, "timeout checking mempool")
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return msgTx
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}
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// GetNumTxsFromMempool polls until finding the desired number of transactions
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// in the miner's mempool and returns the full transactions to the caller.
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func (h *HarnessMiner) GetNumTxsFromMempool(n int) []*wire.MsgTx {
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txids := h.AssertNumTxsInMempool(n)
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var txes []*wire.MsgTx
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for _, txid := range txids {
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tx := h.GetRawTransaction(txid)
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txes = append(txes, tx.MsgTx())
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}
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return txes
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}
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// NewMinerAddress creates a new address for the miner and asserts.
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func (h *HarnessMiner) NewMinerAddress() btcutil.Address {
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addr, err := h.NewAddress()
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require.NoError(h, err, "failed to create new miner address")
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return addr
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}
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// MineBlocksWithTxes mines a single block to include the specifies
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// transactions only.
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func (h *HarnessMiner) MineBlockWithTxes(txes []*btcutil.Tx) *wire.MsgBlock {
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var emptyTime time.Time
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// Generate a block.
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b, err := h.GenerateAndSubmitBlock(txes, -1, emptyTime)
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require.NoError(h, err, "unable to mine block")
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block, err := h.Client.GetBlock(b.Hash())
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require.NoError(h, err, "unable to get block")
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return block
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}
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// MineEmptyBlocks mines a given number of empty blocks.
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func (h *HarnessMiner) MineEmptyBlocks(num int) []*wire.MsgBlock {
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var emptyTime time.Time
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blocks := make([]*wire.MsgBlock, num)
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for i := 0; i < num; i++ {
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// Generate an empty block.
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b, err := h.GenerateAndSubmitBlock(nil, -1, emptyTime)
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require.NoError(h, err, "unable to mine empty block")
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block := h.GetBlock(b.Hash())
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blocks[i] = block
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}
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return blocks
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}
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