c531dc0bde
This one will replace blockCache in Blockchain itself as it can and should be external from it. The idea is that we only feed successive blocks into the Blockchain and it only stores valid proper Blockchain and nothing else.
148 lines
3.6 KiB
Go
148 lines
3.6 KiB
Go
package core
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import (
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"github.com/CityOfZion/neo-go/pkg/core/transaction"
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"github.com/CityOfZion/neo-go/pkg/crypto"
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"github.com/CityOfZion/neo-go/pkg/io"
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"github.com/CityOfZion/neo-go/pkg/util"
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"github.com/Workiva/go-datastructures/queue"
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log "github.com/sirupsen/logrus"
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)
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// Block represents one block in the chain.
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type Block struct {
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// The base of the block.
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BlockBase
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// Transaction list.
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Transactions []*transaction.Transaction `json:"tx"`
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// True if this block is created from trimmed data.
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Trimmed bool `json:"-"`
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}
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// Header returns the Header of the Block.
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func (b *Block) Header() *Header {
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return &Header{
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BlockBase: b.BlockBase,
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}
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}
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// rebuildMerkleRoot rebuild the merkleroot of the block.
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func (b *Block) rebuildMerkleRoot() error {
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hashes := make([]util.Uint256, len(b.Transactions))
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for i, tx := range b.Transactions {
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hashes[i] = tx.Hash()
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}
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merkle, err := crypto.NewMerkleTree(hashes)
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if err != nil {
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return err
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}
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b.MerkleRoot = merkle.Root()
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return nil
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}
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// Verify the integrity of the block.
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func (b *Block) Verify(full bool) bool {
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// The first TX has to be a miner transaction.
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if b.Transactions[0].Type != transaction.MinerType {
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return false
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}
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// If the first TX is a minerTX then all others cant.
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for _, tx := range b.Transactions[1:] {
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if tx.Type == transaction.MinerType {
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return false
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}
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}
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// TODO: When full is true, do a full verification.
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if full {
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log.Warn("full verification of blocks is not yet implemented")
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}
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return true
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}
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// NewBlockFromTrimmedBytes returns a new block from trimmed data.
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// This is commonly used to create a block from stored data.
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// Blocks created from trimmed data will have their Trimmed field
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// set to true.
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func NewBlockFromTrimmedBytes(b []byte) (*Block, error) {
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block := &Block{
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Trimmed: true,
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}
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br := io.NewBinReaderFromBuf(b)
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block.decodeHashableFields(br)
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var padding uint8
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br.ReadLE(&padding)
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block.Script = &transaction.Witness{}
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block.Script.DecodeBinary(br)
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lenTX := br.ReadVarUint()
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block.Transactions = make([]*transaction.Transaction, lenTX)
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for i := 0; i < int(lenTX); i++ {
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var hash util.Uint256
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br.ReadLE(&hash)
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block.Transactions[i] = transaction.NewTrimmedTX(hash)
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}
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return block, br.Err
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}
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// Trim returns a subset of the block data to save up space
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// in storage.
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// Notice that only the hashes of the transactions are stored.
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func (b *Block) Trim() ([]byte, error) {
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buf := io.NewBufBinWriter()
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b.encodeHashableFields(buf.BinWriter)
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buf.WriteLE(uint8(1))
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b.Script.EncodeBinary(buf.BinWriter)
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buf.WriteVarUint(uint64(len(b.Transactions)))
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for _, tx := range b.Transactions {
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buf.WriteLE(tx.Hash())
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}
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if buf.Err != nil {
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return nil, buf.Err
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}
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return buf.Bytes(), nil
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}
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// DecodeBinary decodes the block from the given BinReader, implementing
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// Serializable interface.
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func (b *Block) DecodeBinary(br *io.BinReader) {
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b.BlockBase.DecodeBinary(br)
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lentx := br.ReadVarUint()
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b.Transactions = make([]*transaction.Transaction, lentx)
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for i := 0; i < int(lentx); i++ {
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b.Transactions[i] = &transaction.Transaction{}
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b.Transactions[i].DecodeBinary(br)
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}
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}
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// EncodeBinary encodes the block to the given BinWriter, implementing
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// Serializable interface.
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func (b *Block) EncodeBinary(bw *io.BinWriter) {
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b.BlockBase.EncodeBinary(bw)
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bw.WriteVarUint(uint64(len(b.Transactions)))
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for _, tx := range b.Transactions {
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tx.EncodeBinary(bw)
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}
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}
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// Compare implements the queue Item interface.
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func (b *Block) Compare(item queue.Item) int {
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other := item.(*Block)
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switch {
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case b.Index > other.Index:
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return 1
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case b.Index == other.Index:
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return 0
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default:
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return -1
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}
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}
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