lbcd/blockchain/process.go

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// Copyright (c) 2013-2014 The btcsuite developers
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// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package blockchain
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import (
"fmt"
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"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
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)
// BehaviorFlags is a bitmask defining tweaks to the normal behavior when
// performing chain processing and consensus rules checks.
type BehaviorFlags uint32
const (
// BFFastAdd may be set to indicate that several checks can be avoided
// for the block since it is already known to fit into the chain due to
// already proving it correct links into the chain up to a known
// checkpoint. This is primarily used for headers-first mode.
BFFastAdd BehaviorFlags = 1 << iota
// BFNoPoWCheck may be set to indicate the proof of work check which
// ensures a block hashes to a value less than the required target will
// not be performed.
BFNoPoWCheck
// BFDryRun may be set to indicate the block should not modify the chain
// or memory chain index. This is useful to test that a block is valid
// without modifying the current state.
BFDryRun
// BFNone is a convenience value to specifically indicate no flags.
BFNone BehaviorFlags = 0
)
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// blockExists determines whether a block with the given hash exists either in
// the main chain or any side chains.
func (b *BlockChain) blockExists(hash *wire.ShaHash) (bool, error) {
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// Check memory chain first (could be main chain or side chain blocks).
if _, ok := b.index[*hash]; ok {
return true, nil
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}
// Check in database (rest of main chain not in memory).
return b.db.ExistsSha(hash)
}
// processOrphans determines if there are any orphans which depend on the passed
// block hash (they are no longer orphans if true) and potentially accepts them.
// It repeats the process for the newly accepted blocks (to detect further
// orphans which may no longer be orphans) until there are no more.
//
// The flags do not modify the behavior of this function directly, however they
// are needed to pass along to maybeAcceptBlock.
func (b *BlockChain) processOrphans(hash *wire.ShaHash, flags BehaviorFlags) error {
// Start with processing at least the passed hash. Leave a little room
// for additional orphan blocks that need to be processed without
// needing to grow the array in the common case.
processHashes := make([]*wire.ShaHash, 0, 10)
processHashes = append(processHashes, hash)
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for len(processHashes) > 0 {
// Pop the first hash to process from the slice.
processHash := processHashes[0]
processHashes[0] = nil // Prevent GC leak.
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processHashes = processHashes[1:]
// Look up all orphans that are parented by the block we just
// accepted. This will typically only be one, but it could
// be multiple if multiple blocks are mined and broadcast
// around the same time. The one with the most proof of work
// will eventually win out. An indexing for loop is
// intentionally used over a range here as range does not
// reevaluate the slice on each iteration nor does it adjust the
// index for the modified slice.
for i := 0; i < len(b.prevOrphans[*processHash]); i++ {
orphan := b.prevOrphans[*processHash][i]
if orphan == nil {
log.Warnf("Found a nil entry at index %d in the "+
"orphan dependency list for block %v", i,
processHash)
continue
}
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// Remove the orphan from the orphan pool.
orphanHash := orphan.block.Sha()
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b.removeOrphanBlock(orphan)
i--
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// Potentially accept the block into the block chain.
err := b.maybeAcceptBlock(orphan.block, flags)
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if err != nil {
return err
}
// Add this block to the list of blocks to process so
// any orphan blocks that depend on this block are
// handled too.
processHashes = append(processHashes, orphanHash)
}
}
return nil
}
// ProcessBlock is the main workhorse for handling insertion of new blocks into
// the block chain. It includes functionality such as rejecting duplicate
// blocks, ensuring blocks follow all rules, orphan handling, and insertion into
// the block chain along with best chain selection and reorganization.
//
// It returns a bool which indicates whether or not the block is an orphan and
// any errors that occurred during processing. The returned bool is only valid
// when the error is nil.
func (b *BlockChain) ProcessBlock(block *btcutil.Block, timeSource MedianTimeSource, flags BehaviorFlags) (bool, error) {
fastAdd := flags&BFFastAdd == BFFastAdd
dryRun := flags&BFDryRun == BFDryRun
blockHash := block.Sha()
log.Tracef("Processing block %v", blockHash)
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// The block must not already exist in the main chain or side chains.
exists, err := b.blockExists(blockHash)
if err != nil {
return false, err
}
if exists {
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str := fmt.Sprintf("already have block %v", blockHash)
return false, ruleError(ErrDuplicateBlock, str)
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}
// The block must not already exist as an orphan.
if _, exists := b.orphans[*blockHash]; exists {
str := fmt.Sprintf("already have block (orphan) %v", blockHash)
return false, ruleError(ErrDuplicateBlock, str)
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}
// Perform preliminary sanity checks on the block and its transactions.
err = checkBlockSanity(block, b.chainParams.PowLimit, timeSource, flags)
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if err != nil {
return false, err
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}
// Find the previous checkpoint and perform some additional checks based
// on the checkpoint. This provides a few nice properties such as
// preventing old side chain blocks before the last checkpoint,
// rejecting easy to mine, but otherwise bogus, blocks that could be
// used to eat memory, and ensuring expected (versus claimed) proof of
// work requirements since the previous checkpoint are met.
blockHeader := &block.MsgBlock().Header
checkpointBlock, err := b.findPreviousCheckpoint()
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if err != nil {
return false, err
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}
if checkpointBlock != nil {
// Ensure the block timestamp is after the checkpoint timestamp.
checkpointHeader := &checkpointBlock.MsgBlock().Header
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checkpointTime := checkpointHeader.Timestamp
if blockHeader.Timestamp.Before(checkpointTime) {
str := fmt.Sprintf("block %v has timestamp %v before "+
"last checkpoint timestamp %v", blockHash,
blockHeader.Timestamp, checkpointTime)
return false, ruleError(ErrCheckpointTimeTooOld, str)
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}
if !fastAdd {
// Even though the checks prior to now have already ensured the
// proof of work exceeds the claimed amount, the claimed amount
// is a field in the block header which could be forged. This
// check ensures the proof of work is at least the minimum
// expected based on elapsed time since the last checkpoint and
// maximum adjustment allowed by the retarget rules.
duration := blockHeader.Timestamp.Sub(checkpointTime)
requiredTarget := CompactToBig(b.calcEasiestDifficulty(
checkpointHeader.Bits, duration))
currentTarget := CompactToBig(blockHeader.Bits)
if currentTarget.Cmp(requiredTarget) > 0 {
str := fmt.Sprintf("block target difficulty of %064x "+
"is too low when compared to the previous "+
"checkpoint", currentTarget)
return false, ruleError(ErrDifficultyTooLow, str)
}
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}
}
// Handle orphan blocks.
prevHash := &blockHeader.PrevBlock
if !prevHash.IsEqual(zeroHash) {
prevHashExists, err := b.blockExists(prevHash)
if err != nil {
return false, err
}
if !prevHashExists {
if !dryRun {
log.Infof("Adding orphan block %v with parent %v",
blockHash, prevHash)
b.addOrphanBlock(block)
}
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return true, nil
}
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}
// The block has passed all context independent checks and appears sane
// enough to potentially accept it into the block chain.
err = b.maybeAcceptBlock(block, flags)
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if err != nil {
return false, err
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}
// Don't process any orphans or log when the dry run flag is set.
if !dryRun {
// Accept any orphan blocks that depend on this block (they are
// no longer orphans) and repeat for those accepted blocks until
// there are no more.
err := b.processOrphans(blockHash, flags)
if err != nil {
return false, err
}
log.Debugf("Accepted block %v", blockHash)
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}
return false, nil
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}