1ae306021e
This makes the rpctest package a subpackage of the integration package since its primary purpose is for integration testing.
402 lines
15 KiB
Go
402 lines
15 KiB
Go
// Copyright (c) 2016 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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// This file is ignored during the regular tests due to the following build tag.
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// +build rpctest
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package integration
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import (
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"fmt"
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"runtime"
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"testing"
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"time"
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"github.com/btcsuite/btcd/blockchain"
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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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)
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const (
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// vbLegacyBlockVersion is the highest legacy block version before the
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// version bits scheme became active.
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vbLegacyBlockVersion = 4
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// vbTopBits defines the bits to set in the version to signal that the
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// version bits scheme is being used.
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vbTopBits = 0x20000000
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)
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// assertVersionBit gets the passed block hash from the given test harness and
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// ensures its version either has the provided bit set or unset per the set
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// flag.
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func assertVersionBit(r *rpctest.Harness, t *testing.T, hash *chainhash.Hash, bit uint8, set bool) {
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block, err := r.Node.GetBlock(hash)
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if err != nil {
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t.Fatalf("failed to retrieve block %v: %v", hash, err)
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}
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switch {
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case set && block.Header.Version&(1<<bit) == 0:
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: block %s, version 0x%x "+
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"does not have bit %d set", line, hash,
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block.Header.Version, bit)
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case !set && block.Header.Version&(1<<bit) != 0:
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: block %s, version 0x%x "+
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"has bit %d set", line, hash, block.Header.Version, bit)
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}
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}
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// assertChainHeight retrieves the current chain height from the given test
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// harness and ensures it matches the provided expected height.
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func assertChainHeight(r *rpctest.Harness, t *testing.T, expectedHeight uint32) {
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height, err := r.Node.GetBlockCount()
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if err != nil {
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t.Fatalf("failed to retrieve block height: %v", err)
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}
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if uint32(height) != expectedHeight {
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: block height of %d "+
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"is not the expected %d", line, height, expectedHeight)
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}
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}
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// thresholdStateToStatus converts the passed threshold state to the equivalent
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// status string returned in the getblockchaininfo RPC.
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func thresholdStateToStatus(state blockchain.ThresholdState) (string, error) {
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switch state {
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case blockchain.ThresholdDefined:
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return "defined", nil
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case blockchain.ThresholdStarted:
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return "started", nil
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case blockchain.ThresholdLockedIn:
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return "lockedin", nil
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case blockchain.ThresholdActive:
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return "active", nil
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case blockchain.ThresholdFailed:
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return "failed", nil
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}
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return "", fmt.Errorf("unrecognized threshold state: %v", state)
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}
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// assertSoftForkStatus retrieves the current blockchain info from the given
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// test harness and ensures the provided soft fork key is both available and its
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// status is the equivalent of the passed state.
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func assertSoftForkStatus(r *rpctest.Harness, t *testing.T, forkKey string, state blockchain.ThresholdState) {
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// Convert the expected threshold state into the equivalent
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// getblockchaininfo RPC status string.
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status, err := thresholdStateToStatus(state)
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if err != nil {
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: unable to convert "+
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"threshold state %v to string", line, state)
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}
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info, err := r.Node.GetBlockChainInfo()
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if err != nil {
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t.Fatalf("failed to retrieve chain info: %v", err)
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}
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// Ensure the key is available.
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desc, ok := info.Bip9SoftForks[forkKey]
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if !ok {
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: softfork status for %q "+
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"is not in getblockchaininfo results", line, forkKey)
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}
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// Ensure the status it the expected value.
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if desc.Status != status {
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_, _, line, _ := runtime.Caller(1)
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t.Fatalf("assertion failed at line %d: softfork status for %q "+
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"is %v instead of expected %v", line, forkKey,
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desc.Status, status)
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}
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}
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// testBIP0009 ensures the BIP0009 soft fork mechanism follows the state
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// transition rules set forth by the BIP for the provided soft fork key. It
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// uses the regression test network to signal support and advance through the
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// various threshold states including failure to achieve locked in status.
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//
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// See TestBIP0009 for an overview of what is tested.
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//
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// NOTE: This only differs from the exported version in that it accepts the
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// specific soft fork deployment to test.
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func testBIP0009(t *testing.T, forkKey string, deploymentID uint32) {
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// Initialize the primary mining node with only the genesis block.
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r, err := rpctest.New(&chaincfg.RegressionNetParams, nil, nil)
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if err != nil {
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t.Fatalf("unable to create primary harness: %v", err)
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}
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if err := r.SetUp(false, 0); err != nil {
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t.Fatalf("unable to setup test chain: %v", err)
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}
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defer r.TearDown()
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// *** ThresholdDefined ***
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//
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// Assert the chain height is the expected value and the soft fork
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// status starts out as defined.
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assertChainHeight(r, t, 0)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdDefined)
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// *** ThresholdDefined part 2 - 1 block prior to ThresholdStarted ***
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//
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// Generate enough blocks to reach the height just before the first
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// state transition without signalling support since the state should
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// move to started once the start time has been reached regardless of
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// support signalling.
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//
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// NOTE: This is two blocks before the confirmation window because the
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// getblockchaininfo RPC reports the status for the block AFTER the
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// current one. All of the heights below are thus offset by one to
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// compensate.
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//
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// Assert the chain height is the expected value and soft fork status is
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// still defined and did NOT move to started.
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confirmationWindow := r.ActiveNet.MinerConfirmationWindow
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for i := uint32(0); i < confirmationWindow-2; i++ {
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_, err := r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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assertChainHeight(r, t, confirmationWindow-2)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdDefined)
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// *** ThresholdStarted ***
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//
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// Generate another block to reach the next window.
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//
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// Assert the chain height is the expected value and the soft fork
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// status is started.
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_, err = r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion, time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block: %v", err)
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}
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assertChainHeight(r, t, confirmationWindow-1)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdStarted)
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// *** ThresholdStarted part 2 - Fail to achieve ThresholdLockedIn ***
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//
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// Generate enough blocks to reach the next window in such a way that
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// the number blocks with the version bit set to signal support is 1
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// less than required to achieve locked in status.
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//
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// Assert the chain height is the expected value and the soft fork
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// status is still started and did NOT move to locked in.
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if deploymentID > uint32(len(r.ActiveNet.Deployments)) {
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t.Fatalf("deployment ID %d does not exist", deploymentID)
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}
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deployment := &r.ActiveNet.Deployments[deploymentID]
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activationThreshold := r.ActiveNet.RuleChangeActivationThreshold
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signalForkVersion := int32(1<<deployment.BitNumber) | vbTopBits
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for i := uint32(0); i < activationThreshold-1; i++ {
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_, err := r.GenerateAndSubmitBlock(nil, signalForkVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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for i := uint32(0); i < confirmationWindow-(activationThreshold-1); i++ {
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_, err := r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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assertChainHeight(r, t, (confirmationWindow*2)-1)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdStarted)
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// *** ThresholdLockedIn ***
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//
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// Generate enough blocks to reach the next window in such a way that
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// the number blocks with the version bit set to signal support is
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// exactly the number required to achieve locked in status.
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//
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// Assert the chain height is the expected value and the soft fork
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// status moved to locked in.
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for i := uint32(0); i < activationThreshold; i++ {
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_, err := r.GenerateAndSubmitBlock(nil, signalForkVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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for i := uint32(0); i < confirmationWindow-activationThreshold; i++ {
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_, err := r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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assertChainHeight(r, t, (confirmationWindow*3)-1)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdLockedIn)
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// *** ThresholdLockedIn part 2 -- 1 block prior to ThresholdActive ***
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//
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// Generate enough blocks to reach the height just before the next
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// window without continuing to signal support since it is already
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// locked in.
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//
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// Assert the chain height is the expected value and the soft fork
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// status is still locked in and did NOT move to active.
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for i := uint32(0); i < confirmationWindow-1; i++ {
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_, err := r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion,
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time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block %d: %v", i, err)
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}
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}
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assertChainHeight(r, t, (confirmationWindow*4)-2)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdLockedIn)
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// *** ThresholdActive ***
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//
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// Generate another block to reach the next window without continuing to
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// signal support since it is already locked in.
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//
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// Assert the chain height is the expected value and the soft fork
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// status moved to active.
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_, err = r.GenerateAndSubmitBlock(nil, vbLegacyBlockVersion, time.Time{})
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if err != nil {
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t.Fatalf("failed to generated block: %v", err)
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}
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assertChainHeight(r, t, (confirmationWindow*4)-1)
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assertSoftForkStatus(r, t, forkKey, blockchain.ThresholdActive)
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}
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// TestBIP0009 ensures the BIP0009 soft fork mechanism follows the state
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// transition rules set forth by the BIP for all soft forks. It uses the
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// regression test network to signal support and advance through the various
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// threshold states including failure to achieve locked in status.
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//
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// Overview:
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// - Assert the chain height is 0 and the state is ThresholdDefined
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// - Generate 1 fewer blocks than needed to reach the first state transition
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// - Assert chain height is expected and state is still ThresholdDefined
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// - Generate 1 more block to reach the first state transition
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// - Assert chain height is expected and state moved to ThresholdStarted
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// - Generate enough blocks to reach the next state transition window, but only
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// signal support in 1 fewer than the required number to achieve
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// ThresholdLockedIn
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// - Assert chain height is expected and state is still ThresholdStarted
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// - Generate enough blocks to reach the next state transition window with only
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// the exact number of blocks required to achieve locked in status signalling
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// support.
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// - Assert chain height is expected and state moved to ThresholdLockedIn
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// - Generate 1 fewer blocks than needed to reach the next state transition
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// - Assert chain height is expected and state is still ThresholdLockedIn
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// - Generate 1 more block to reach the next state transition
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// - Assert chain height is expected and state moved to ThresholdActive
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func TestBIP0009(t *testing.T) {
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t.Parallel()
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testBIP0009(t, "dummy", chaincfg.DeploymentTestDummy)
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}
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// TestBIP0009Mining ensures blocks built via btcd's CPU miner follow the rules
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// set forth by BIP0009 by using the test dummy deployment.
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//
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// Overview:
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// - Generate block 1
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// - Assert bit is NOT set (ThresholdDefined)
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// - Generate enough blocks to reach first state transition
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// - Assert bit is NOT set for block prior to state transition
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// - Assert bit is set for block at state transition (ThresholdStarted)
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// - Generate enough blocks to reach second state transition
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// - Assert bit is set for block at state transition (ThresholdLockedIn)
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// - Generate enough blocks to reach third state transition
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// - Assert bit is set for block prior to state transition (ThresholdLockedIn)
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// - Assert bit is NOT set for block at state transition (ThresholdActive)
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func TestBIP0009Mining(t *testing.T) {
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t.Parallel()
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// Initialize the primary mining node with only the genesis block.
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r, err := rpctest.New(&chaincfg.SimNetParams, nil, nil)
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if err != nil {
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t.Fatalf("unable to create primary harness: %v", err)
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}
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if err := r.SetUp(true, 0); err != nil {
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t.Fatalf("unable to setup test chain: %v", err)
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}
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defer r.TearDown()
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// Assert the chain only consists of the gensis block.
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assertChainHeight(r, t, 0)
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// *** ThresholdDefined ***
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//
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// Generate a block that extends the genesis block. It should not have
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// the test dummy bit set in the version since the first window is
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// in the defined threshold state.
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deployment := &r.ActiveNet.Deployments[chaincfg.DeploymentTestDummy]
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testDummyBitNum := deployment.BitNumber
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hashes, err := r.Node.Generate(1)
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if err != nil {
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t.Fatalf("unable to generate blocks: %v", err)
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}
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assertChainHeight(r, t, 1)
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assertVersionBit(r, t, hashes[0], testDummyBitNum, false)
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// *** ThresholdStarted ***
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//
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// Generate enough blocks to reach the first state transition.
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//
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// The second to last generated block should not have the test bit set
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// in the version.
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//
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// The last generated block should now have the test bit set in the
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// version since the btcd mining code will have recognized the test
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// dummy deployment as started.
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confirmationWindow := r.ActiveNet.MinerConfirmationWindow
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numNeeded := confirmationWindow - 1
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hashes, err = r.Node.Generate(numNeeded)
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if err != nil {
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t.Fatalf("failed to generated %d blocks: %v", numNeeded, err)
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}
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assertChainHeight(r, t, confirmationWindow)
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assertVersionBit(r, t, hashes[len(hashes)-2], testDummyBitNum, false)
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assertVersionBit(r, t, hashes[len(hashes)-1], testDummyBitNum, true)
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// *** ThresholdLockedIn ***
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//
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// Generate enough blocks to reach the next state transition.
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//
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// The last generated block should still have the test bit set in the
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// version since the btcd mining code will have recognized the test
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// dummy deployment as locked in.
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hashes, err = r.Node.Generate(confirmationWindow)
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if err != nil {
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t.Fatalf("failed to generated %d blocks: %v", confirmationWindow,
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err)
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}
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assertChainHeight(r, t, confirmationWindow*2)
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assertVersionBit(r, t, hashes[len(hashes)-1], testDummyBitNum, true)
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// *** ThresholdActivated ***
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//
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// Generate enough blocks to reach the next state transition.
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//
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// The second to last generated block should still have the test bit set
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// in the version since it is still locked in.
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//
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// The last generated block should NOT have the test bit set in the
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// version since the btcd mining code will have recognized the test
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// dummy deployment as activated and thus there is no longer any need
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// to set the bit.
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hashes, err = r.Node.Generate(confirmationWindow)
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if err != nil {
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t.Fatalf("failed to generated %d blocks: %v", confirmationWindow,
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err)
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}
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assertChainHeight(r, t, confirmationWindow*3)
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assertVersionBit(r, t, hashes[len(hashes)-2], testDummyBitNum, true)
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assertVersionBit(r, t, hashes[len(hashes)-1], testDummyBitNum, false)
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}
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