lbcd/blockchain/chain_test.go

803 lines
26 KiB
Go
Raw Normal View History

// Copyright (c) 2013-2017 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package blockchain
import (
"reflect"
2014-07-02 18:04:59 +02:00
"testing"
"time"
2014-07-02 18:04:59 +02:00
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
)
// TestHaveBlock tests the HaveBlock API to ensure proper functionality.
func TestHaveBlock(t *testing.T) {
// Load up blocks such that there is a side chain.
// (genesis block) -> 1 -> 2 -> 3 -> 4
// \-> 3a
testFiles := []string{
"blk_0_to_4.dat.bz2",
"blk_3A.dat.bz2",
}
var blocks []*btcutil.Block
for _, file := range testFiles {
blockTmp, err := loadBlocks(file)
if err != nil {
t.Errorf("Error loading file: %v\n", err)
return
}
blocks = append(blocks, blockTmp...)
}
// Create a new database and chain instance to run tests against.
blockchain: Add block validation infrastructure. This adds a full-blown testing infrastructure in order to test consensus validation rules. It is built around the idea of dynamically generating full blocks that target specific rules linked together to form a block chain. In order to properly test the rules, each test instance starts with a valid block that is then modified in the specific way needed to test a specific rule. Blocks which exercise following rules have been added for this initial version. These tests were largely ported from the original Java-based 'official' block acceptance tests as well as some additional tests available in the Core python port. It is expected that further tests can be added over time as consensus rules change. * Enough valid blocks to have a stable base of mature coinbases to spend for futher tests * Basic forking and chain reorganization * Double spends on forks * Too much proof-of-work coinbase (extending main chain, in block that forces a reorg, and in a valid fork) * Max and too many signature operations via various combinations of OP_CHECKSIG, OP_MULTISIG, OP_CHECKSIGVERIFY, and OP_MULTISIGVERIFY * Too many and max signature operations with offending sigop after invalid data push * Max and too many signature operations via pay-to-script-hash redeem scripts * Attempt to spend tx created on a different fork * Attempt to spend immature coinbase (on main chain and fork) * Max size block and block that exceeds the max size * Children of rejected blocks are either orphans or rejected * Coinbase script too small and too large * Max length coinbase script * Attempt to spend tx in blocks that failed to connect * Valid non-coinbase tx in place of coinbase * Block with no transactions * Invalid proof-of-work * Block with a timestamp too far in the future * Invalid merkle root * Invalid proof-of-work limit (bits header field) * Negative proof-of-work limit (bits header field) * Two coinbase transactions * Duplicate transactions * Spend from transaction that does not exist * Timestamp exactly at and one second after the median time * Blocks with same hash via merkle root tricks * Spend from transaction index that is out of range * Transaction that spends more that its inputs provide * Transaction with same hash as an existing tx that has not been fully spent (BIP0030) * Non-final coinbase and non-coinbase txns * Max size block with canonical encoding which exceeds max size with non-canonical encoding * Spend from transaction earlier in same block * Spend from transaction later in same block * Double spend transaction from earlier in same block * Coinbase that pays more than subsidy + fees * Coinbase that includes subsidy + fees * Invalid opcode in dead execution path * Reorganization of txns with OP_RETURN outputs * Spend of an OP_RETURN output * Transaction with multiple OP_RETURN outputs * Large max-sized block reorganization test (disabled by default since it takes a long time and a lot of memory to run) Finally, the README.md files in the main and docs directories have been updated to reflect the use of the new testing framework.
2016-09-14 01:11:12 +02:00
chain, teardownFunc, err := chainSetup("haveblock",
&chaincfg.MainNetParams)
if err != nil {
t.Errorf("Failed to setup chain instance: %v", err)
return
}
defer teardownFunc()
// Since we're not dealing with the real block chain, set the coinbase
// maturity to 1.
chain.TstSetCoinbaseMaturity(1)
for i := 1; i < len(blocks); i++ {
_, isOrphan, err := chain.ProcessBlock(blocks[i], BFNone)
if err != nil {
t.Errorf("ProcessBlock fail on block %v: %v\n", i, err)
return
}
if isOrphan {
t.Errorf("ProcessBlock incorrectly returned block %v "+
"is an orphan\n", i)
return
}
}
// Insert an orphan block.
_, isOrphan, err := chain.ProcessBlock(btcutil.NewBlock(&Block100000),
BFNone)
if err != nil {
t.Errorf("Unable to process block: %v", err)
return
}
if !isOrphan {
t.Errorf("ProcessBlock indicated block is an not orphan when " +
"it should be\n")
return
}
tests := []struct {
hash string
want bool
}{
// Genesis block should be present (in the main chain).
{hash: chaincfg.MainNetParams.GenesisHash.String(), want: true},
// Block 3a should be present (on a side chain).
{hash: "00000000474284d20067a4d33f6a02284e6ef70764a3a26d6a5b9df52ef663dd", want: true},
// Block 100000 should be present (as an orphan).
{hash: "000000000003ba27aa200b1cecaad478d2b00432346c3f1f3986da1afd33e506", want: true},
// Random hashes should not be available.
{hash: "123", want: false},
}
for i, test := range tests {
hash, err := chainhash.NewHashFromStr(test.hash)
if err != nil {
t.Errorf("NewHashFromStr: %v", err)
continue
}
result, err := chain.HaveBlock(hash)
if err != nil {
t.Errorf("HaveBlock #%d unexpected error: %v", i, err)
return
}
if result != test.want {
t.Errorf("HaveBlock #%d got %v want %v", i, result,
test.want)
continue
}
}
}
// TestCalcSequenceLock tests the LockTimeToSequence function, and the
// CalcSequenceLock method of a Chain instance. The tests exercise several
// combinations of inputs to the CalcSequenceLock function in order to ensure
// the returned SequenceLocks are correct for each test instance.
func TestCalcSequenceLock(t *testing.T) {
netParams := &chaincfg.SimNetParams
// We need to activate CSV in order to test the processing logic, so
// manually craft the block version that's used to signal the soft-fork
// activation.
csvBit := netParams.Deployments[chaincfg.DeploymentCSV].BitNumber
blockVersion := int32(0x20000000 | (uint32(1) << csvBit))
// Generate enough synthetic blocks to activate CSV.
chain := newFakeChain(netParams)
blockchain: Refactor to use new chain view. - Remove inMainChain from block nodes since that can now be efficiently determined by using the chain view - Track the best chain via a chain view instead of a single block node - Use the tip of the best chain view everywhere bestNode was used - Update chain view tip instead of updating best node - Change reorg logic to use more efficient chain view fork finding logic - Change block locator code over to use more efficient chain view logic - Remove now unused block-index-based block locator code - Move BlockLocator definition to chain.go - Move BlockLocatorFromHash and LatestBlockLocator to chain.go - Update both to use more efficient chain view logic - Rework IsCheckpointCandidate to use block index and chain view - Optimize MainChainHasBlock to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize BlockHeightByHash to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize BlockHashByHeight to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize HeightRange to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Optimize BlockByHeight to use chain view for main chain check - Optimize BlockByHash to use chain view for main chain check
2017-08-18 14:25:54 +02:00
node := chain.bestChain.Tip()
blockTime := node.Header().Timestamp
numBlocksToActivate := (netParams.MinerConfirmationWindow * 3)
for i := uint32(0); i < numBlocksToActivate; i++ {
blockTime = blockTime.Add(time.Second)
node = newFakeNode(node, blockVersion, 0, blockTime)
chain.index.AddNode(node)
blockchain: Refactor to use new chain view. - Remove inMainChain from block nodes since that can now be efficiently determined by using the chain view - Track the best chain via a chain view instead of a single block node - Use the tip of the best chain view everywhere bestNode was used - Update chain view tip instead of updating best node - Change reorg logic to use more efficient chain view fork finding logic - Change block locator code over to use more efficient chain view logic - Remove now unused block-index-based block locator code - Move BlockLocator definition to chain.go - Move BlockLocatorFromHash and LatestBlockLocator to chain.go - Update both to use more efficient chain view logic - Rework IsCheckpointCandidate to use block index and chain view - Optimize MainChainHasBlock to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize BlockHeightByHash to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize BlockHashByHeight to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Removed error return since it can no longer fail - Optimize HeightRange to use chain view instead of hitting db - Move to chain.go since it no longer involves database I/O - Optimize BlockByHeight to use chain view for main chain check - Optimize BlockByHash to use chain view for main chain check
2017-08-18 14:25:54 +02:00
chain.bestChain.SetTip(node)
}
// Create a utxo view with a fake utxo for the inputs used in the
// transactions created below. This utxo is added such that it has an
// age of 4 blocks.
targetTx := btcutil.NewTx(&wire.MsgTx{
TxOut: []*wire.TxOut{{
PkScript: nil,
Value: 10,
}},
})
utxoView := NewUtxoViewpoint()
utxoView.AddTxOuts(targetTx, int32(numBlocksToActivate)-4)
utxoView.SetBestHash(&node.hash)
// Create a utxo that spends the fake utxo created above for use in the
// transactions created in the tests. It has an age of 4 blocks. Note
// that the sequence lock heights are always calculated from the same
// point of view that they were originally calculated from for a given
// utxo. That is to say, the height prior to it.
utxo := wire.OutPoint{
Hash: *targetTx.Hash(),
Index: 0,
}
prevUtxoHeight := int32(numBlocksToActivate) - 4
// Obtain the median time past from the PoV of the input created above.
// The MTP for the input is the MTP from the PoV of the block *prior*
// to the one that included it.
medianTime := node.RelativeAncestor(5).CalcPastMedianTime().Unix()
// The median time calculated from the PoV of the best block in the
// test chain. For unconfirmed inputs, this value will be used since
// the MTP will be calculated from the PoV of the yet-to-be-mined
// block.
nextMedianTime := node.CalcPastMedianTime().Unix()
nextBlockHeight := int32(numBlocksToActivate) + 1
// Add an additional transaction which will serve as our unconfirmed
// output.
unConfTx := &wire.MsgTx{
TxOut: []*wire.TxOut{{
PkScript: nil,
Value: 5,
}},
}
unConfUtxo := wire.OutPoint{
Hash: unConfTx.TxHash(),
Index: 0,
}
// Adding a utxo with a height of 0x7fffffff indicates that the output
// is currently unmined.
utxoView.AddTxOuts(btcutil.NewTx(unConfTx), 0x7fffffff)
tests := []struct {
tx *wire.MsgTx
view *UtxoViewpoint
mempool bool
want *SequenceLock
}{
// A transaction of version one should disable sequence locks
// as the new sequence number semantics only apply to
// transactions version 2 or higher.
{
tx: &wire.MsgTx{
Version: 1,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 3),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: -1,
BlockHeight: -1,
},
},
// A transaction with a single input with max sequence number.
// This sequence number has the high bit set, so sequence locks
// should be disabled.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: wire.MaxTxInSequenceNum,
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: -1,
BlockHeight: -1,
},
},
// A transaction with a single input whose lock time is
// expressed in seconds. However, the specified lock time is
// below the required floor for time based lock times since
// they have time granularity of 512 seconds. As a result, the
// seconds lock-time should be just before the median time of
// the targeted block.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 2),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: medianTime - 1,
BlockHeight: -1,
},
},
// A transaction with a single input whose lock time is
// expressed in seconds. The number of seconds should be 1023
// seconds after the median past time of the last block in the
// chain.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 1024),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: medianTime + 1023,
BlockHeight: -1,
},
},
// A transaction with multiple inputs. The first input has a
// lock time expressed in seconds. The second input has a
// sequence lock in blocks with a value of 4. The last input
// has a sequence number with a value of 5, but has the disable
// bit set. So the first lock should be selected as it's the
// latest lock that isn't disabled.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 2560),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 4),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 5) |
wire.SequenceLockTimeDisabled,
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: medianTime + (5 << wire.SequenceLockTimeGranularity) - 1,
BlockHeight: prevUtxoHeight + 3,
},
},
// Transaction with a single input. The input's sequence number
// encodes a relative lock-time in blocks (3 blocks). The
// sequence lock should have a value of -1 for seconds, but a
// height of 2 meaning it can be included at height 3.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 3),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: -1,
BlockHeight: prevUtxoHeight + 2,
},
},
// A transaction with two inputs with lock times expressed in
// seconds. The selected sequence lock value for seconds should
// be the time further in the future.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 5120),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 2560),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: medianTime + (10 << wire.SequenceLockTimeGranularity) - 1,
BlockHeight: -1,
},
},
// A transaction with two inputs with lock times expressed in
// blocks. The selected sequence lock value for blocks should
// be the height further in the future, so a height of 10
// indicating it can be included at height 11.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 1),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 11),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: -1,
BlockHeight: prevUtxoHeight + 10,
},
},
// A transaction with multiple inputs. Two inputs are time
// based, and the other two are block based. The lock lying
// further into the future for both inputs should be chosen.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 2560),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(true, 6656),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 3),
}, {
PreviousOutPoint: utxo,
Sequence: LockTimeToSequence(false, 9),
}},
},
view: utxoView,
want: &SequenceLock{
Seconds: medianTime + (13 << wire.SequenceLockTimeGranularity) - 1,
BlockHeight: prevUtxoHeight + 8,
},
},
// A transaction with a single unconfirmed input. As the input
// is confirmed, the height of the input should be interpreted
// as the height of the *next* block. So, a 2 block relative
// lock means the sequence lock should be for 1 block after the
// *next* block height, indicating it can be included 2 blocks
// after that.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: unConfUtxo,
Sequence: LockTimeToSequence(false, 2),
}},
},
view: utxoView,
mempool: true,
want: &SequenceLock{
Seconds: -1,
BlockHeight: nextBlockHeight + 1,
},
},
// A transaction with a single unconfirmed input. The input has
// a time based lock, so the lock time should be based off the
// MTP of the *next* block.
{
tx: &wire.MsgTx{
Version: 2,
TxIn: []*wire.TxIn{{
PreviousOutPoint: unConfUtxo,
Sequence: LockTimeToSequence(true, 1024),
}},
},
view: utxoView,
mempool: true,
want: &SequenceLock{
Seconds: nextMedianTime + 1023,
BlockHeight: -1,
},
},
}
t.Logf("Running %v SequenceLock tests", len(tests))
for i, test := range tests {
utilTx := btcutil.NewTx(test.tx)
seqLock, err := chain.CalcSequenceLock(utilTx, test.view, test.mempool)
if err != nil {
t.Fatalf("test #%d, unable to calc sequence lock: %v", i, err)
}
if seqLock.Seconds != test.want.Seconds {
t.Fatalf("test #%d got %v seconds want %v seconds",
i, seqLock.Seconds, test.want.Seconds)
}
if seqLock.BlockHeight != test.want.BlockHeight {
t.Fatalf("test #%d got height of %v want height of %v ",
i, seqLock.BlockHeight, test.want.BlockHeight)
}
}
}
// nodeHashes is a convenience function that returns the hashes for all of the
// passed indexes of the provided nodes. It is used to construct expected hash
// slices in the tests.
func nodeHashes(nodes []*blockNode, indexes ...int) []chainhash.Hash {
hashes := make([]chainhash.Hash, 0, len(indexes))
for _, idx := range indexes {
hashes = append(hashes, nodes[idx].hash)
}
return hashes
}
// nodeHeaders is a convenience function that returns the headers for all of
// the passed indexes of the provided nodes. It is used to construct expected
// located headers in the tests.
func nodeHeaders(nodes []*blockNode, indexes ...int) []wire.BlockHeader {
headers := make([]wire.BlockHeader, 0, len(indexes))
for _, idx := range indexes {
headers = append(headers, nodes[idx].Header())
}
return headers
}
// TestLocateInventory ensures that locating inventory via the LocateHeaders and
// LocateBlocks functions behaves as expected.
func TestLocateInventory(t *testing.T) {
// Construct a synthetic block chain with a block index consisting of
// the following structure.
// genesis -> 1 -> 2 -> ... -> 15 -> 16 -> 17 -> 18
// \-> 16a -> 17a
tip := tstTip
chain := newFakeChain(&chaincfg.MainNetParams)
branch0Nodes := chainedNodes(chain.bestChain.Genesis(), 18)
branch1Nodes := chainedNodes(branch0Nodes[14], 2)
for _, node := range branch0Nodes {
chain.index.AddNode(node)
}
for _, node := range branch1Nodes {
chain.index.AddNode(node)
}
chain.bestChain.SetTip(tip(branch0Nodes))
// Create chain views for different branches of the overall chain to
// simulate a local and remote node on different parts of the chain.
localView := newChainView(tip(branch0Nodes))
remoteView := newChainView(tip(branch1Nodes))
// Create a chain view for a completely unrelated block chain to
// simulate a remote node on a totally different chain.
unrelatedBranchNodes := chainedNodes(nil, 5)
unrelatedView := newChainView(tip(unrelatedBranchNodes))
tests := []struct {
name string
locator BlockLocator // locator for requested inventory
hashStop chainhash.Hash // stop hash for locator
maxAllowed uint32 // max to locate, 0 = wire const
headers []wire.BlockHeader // expected located headers
hashes []chainhash.Hash // expected located hashes
}{
{
// Empty block locators and unknown stop hash. No
// inventory should be located.
name: "no locators, no stop",
locator: nil,
hashStop: chainhash.Hash{},
headers: nil,
hashes: nil,
},
{
// Empty block locators and stop hash in side chain.
// The expected result is the requested block.
name: "no locators, stop in side",
locator: nil,
hashStop: tip(branch1Nodes).hash,
headers: nodeHeaders(branch1Nodes, 1),
hashes: nodeHashes(branch1Nodes, 1),
},
{
// Empty block locators and stop hash in main chain.
// The expected result is the requested block.
name: "no locators, stop in main",
locator: nil,
hashStop: branch0Nodes[12].hash,
headers: nodeHeaders(branch0Nodes, 12),
hashes: nodeHashes(branch0Nodes, 12),
},
{
// Locators based on remote being on side chain and a
// stop hash local node doesn't know about. The
// expected result is the blocks after the fork point in
// the main chain and the stop hash has no effect.
name: "remote side chain, unknown stop",
locator: remoteView.BlockLocator(nil),
hashStop: chainhash.Hash{0x01},
headers: nodeHeaders(branch0Nodes, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 15, 16, 17),
},
{
// Locators based on remote being on side chain and a
// stop hash in side chain. The expected result is the
// blocks after the fork point in the main chain and the
// stop hash has no effect.
name: "remote side chain, stop in side",
locator: remoteView.BlockLocator(nil),
hashStop: tip(branch1Nodes).hash,
headers: nodeHeaders(branch0Nodes, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 15, 16, 17),
},
{
// Locators based on remote being on side chain and a
// stop hash in main chain, but before fork point. The
// expected result is the blocks after the fork point in
// the main chain and the stop hash has no effect.
name: "remote side chain, stop in main before",
locator: remoteView.BlockLocator(nil),
hashStop: branch0Nodes[13].hash,
headers: nodeHeaders(branch0Nodes, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 15, 16, 17),
},
{
// Locators based on remote being on side chain and a
// stop hash in main chain, but exactly at the fork
// point. The expected result is the blocks after the
// fork point in the main chain and the stop hash has no
// effect.
name: "remote side chain, stop in main exact",
locator: remoteView.BlockLocator(nil),
hashStop: branch0Nodes[14].hash,
headers: nodeHeaders(branch0Nodes, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 15, 16, 17),
},
{
// Locators based on remote being on side chain and a
// stop hash in main chain just after the fork point.
// The expected result is the blocks after the fork
// point in the main chain up to and including the stop
// hash.
name: "remote side chain, stop in main after",
locator: remoteView.BlockLocator(nil),
hashStop: branch0Nodes[15].hash,
headers: nodeHeaders(branch0Nodes, 15),
hashes: nodeHashes(branch0Nodes, 15),
},
{
// Locators based on remote being on side chain and a
// stop hash in main chain some time after the fork
// point. The expected result is the blocks after the
// fork point in the main chain up to and including the
// stop hash.
name: "remote side chain, stop in main after more",
locator: remoteView.BlockLocator(nil),
hashStop: branch0Nodes[16].hash,
headers: nodeHeaders(branch0Nodes, 15, 16),
hashes: nodeHashes(branch0Nodes, 15, 16),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash local node doesn't know about.
// The expected result is the blocks after the known
// point in the main chain and the stop hash has no
// effect.
name: "remote main chain past, unknown stop",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: chainhash.Hash{0x01},
headers: nodeHeaders(branch0Nodes, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 13, 14, 15, 16, 17),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash in a side chain. The expected
// result is the blocks after the known point in the
// main chain and the stop hash has no effect.
name: "remote main chain past, stop in side",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: tip(branch1Nodes).hash,
headers: nodeHeaders(branch0Nodes, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 13, 14, 15, 16, 17),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash in the main chain before that
// point. The expected result is the blocks after the
// known point in the main chain and the stop hash has
// no effect.
name: "remote main chain past, stop in main before",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: branch0Nodes[11].hash,
headers: nodeHeaders(branch0Nodes, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 13, 14, 15, 16, 17),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash in the main chain exactly at that
// point. The expected result is the blocks after the
// known point in the main chain and the stop hash has
// no effect.
name: "remote main chain past, stop in main exact",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: branch0Nodes[12].hash,
headers: nodeHeaders(branch0Nodes, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 13, 14, 15, 16, 17),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash in the main chain just after
// that point. The expected result is the blocks after
// the known point in the main chain and the stop hash
// has no effect.
name: "remote main chain past, stop in main after",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: branch0Nodes[13].hash,
headers: nodeHeaders(branch0Nodes, 13),
hashes: nodeHashes(branch0Nodes, 13),
},
{
// Locators based on remote being on main chain in the
// past and a stop hash in the main chain some time
// after that point. The expected result is the blocks
// after the known point in the main chain and the stop
// hash has no effect.
name: "remote main chain past, stop in main after more",
locator: localView.BlockLocator(branch0Nodes[12]),
hashStop: branch0Nodes[15].hash,
headers: nodeHeaders(branch0Nodes, 13, 14, 15),
hashes: nodeHashes(branch0Nodes, 13, 14, 15),
},
{
// Locators based on remote being at exactly the same
// point in the main chain and a stop hash local node
// doesn't know about. The expected result is no
// located inventory.
name: "remote main chain same, unknown stop",
locator: localView.BlockLocator(nil),
hashStop: chainhash.Hash{0x01},
headers: nil,
hashes: nil,
},
{
// Locators based on remote being at exactly the same
// point in the main chain and a stop hash at exactly
// the same point. The expected result is no located
// inventory.
name: "remote main chain same, stop same point",
locator: localView.BlockLocator(nil),
hashStop: tip(branch0Nodes).hash,
headers: nil,
hashes: nil,
},
{
// Locators from remote that don't include any blocks
// the local node knows. This would happen if the
// remote node is on a completely separate chain that
// isn't rooted with the same genesis block. The
// expected result is the blocks after the genesis
// block.
name: "remote unrelated chain",
locator: unrelatedView.BlockLocator(nil),
hashStop: chainhash.Hash{},
headers: nodeHeaders(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
},
{
// Locators from remote for second block in main chain
// and no stop hash, but with an overridden max limit.
// The expected result is the blocks after the second
// block limited by the max.
name: "remote genesis",
locator: locatorHashes(branch0Nodes, 0),
hashStop: chainhash.Hash{},
maxAllowed: 3,
headers: nodeHeaders(branch0Nodes, 1, 2, 3),
hashes: nodeHashes(branch0Nodes, 1, 2, 3),
},
{
// Poorly formed locator.
//
// Locator from remote that only includes a single
// block on a side chain the local node knows. The
// expected result is the blocks after the genesis
// block since even though the block is known, it is on
// a side chain and there are no more locators to find
// the fork point.
name: "weak locator, single known side block",
locator: locatorHashes(branch1Nodes, 1),
hashStop: chainhash.Hash{},
headers: nodeHeaders(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
},
{
// Poorly formed locator.
//
// Locator from remote that only includes multiple
// blocks on a side chain the local node knows however
// none in the main chain. The expected result is the
// blocks after the genesis block since even though the
// blocks are known, they are all on a side chain and
// there are no more locators to find the fork point.
name: "weak locator, multiple known side blocks",
locator: locatorHashes(branch1Nodes, 1),
hashStop: chainhash.Hash{},
headers: nodeHeaders(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
hashes: nodeHashes(branch0Nodes, 0, 1, 2, 3, 4, 5, 6,
7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17),
},
{
// Poorly formed locator.
//
// Locator from remote that only includes multiple
// blocks on a side chain the local node knows however
// none in the main chain but includes a stop hash in
// the main chain. The expected result is the blocks
// after the genesis block up to the stop hash since
// even though the blocks are known, they are all on a
// side chain and there are no more locators to find the
// fork point.
name: "weak locator, multiple known side blocks, stop in main",
locator: locatorHashes(branch1Nodes, 1),
hashStop: branch0Nodes[5].hash,
headers: nodeHeaders(branch0Nodes, 0, 1, 2, 3, 4, 5),
hashes: nodeHashes(branch0Nodes, 0, 1, 2, 3, 4, 5),
},
}
for _, test := range tests {
// Ensure the expected headers are located.
var headers []wire.BlockHeader
if test.maxAllowed != 0 {
// Need to use the unexported function to override the
// max allowed for headers.
chain.chainLock.RLock()
headers = chain.locateHeaders(test.locator,
&test.hashStop, test.maxAllowed)
chain.chainLock.RUnlock()
} else {
headers = chain.LocateHeaders(test.locator,
&test.hashStop)
}
if !reflect.DeepEqual(headers, test.headers) {
t.Errorf("%s: unxpected headers -- got %v, want %v",
test.name, headers, test.headers)
continue
}
// Ensure the expected block hashes are located.
maxAllowed := uint32(wire.MaxBlocksPerMsg)
if test.maxAllowed != 0 {
maxAllowed = test.maxAllowed
}
hashes := chain.LocateBlocks(test.locator, &test.hashStop,
maxAllowed)
if !reflect.DeepEqual(hashes, test.hashes) {
t.Errorf("%s: unxpected hashes -- got %v, want %v",
test.name, hashes, test.hashes)
continue
}
}
}