5de5b7354c
Since the protocol encodes timestamps differently depending on the message, the code currently decodes into a local variable and then converts it to a time.Time. However, this causes an allocation due to the local having to escape to the heap in order for the readElement function to write to it. So, in order to avoid that, this introduces two new types for a timestamp named uint32Time and int64Time that are encoded as the respective type on the read. When calling the readElements function, the time.Time field in the message is cast to a pointer of the appropriate type which effectively allows the allocations to be avoided. The following is a before and after comparison of the allocations with the benchmarks that did not change removed: benchmark old allocs new allocs delta ---------------------------------------------------------------------- ReadBlockHeader 1 0 -100.00% DecodeHeaders 4001 2001 -49.99% DecodeAddr 4001 3001 -24.99% DecodeMerkleBlock 108 107 -0.93%
139 lines
4.8 KiB
Go
139 lines
4.8 KiB
Go
// Copyright (c) 2013-2015 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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package wire
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import (
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"bytes"
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"io"
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"time"
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)
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// BlockVersion is the current latest supported block version.
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const BlockVersion = 4
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// MaxBlockHeaderPayload is the maximum number of bytes a block header can be.
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// Version 4 bytes + Timestamp 4 bytes + Bits 4 bytes + Nonce 4 bytes +
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// PrevBlock and MerkleRoot hashes.
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const MaxBlockHeaderPayload = 16 + (HashSize * 2)
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// BlockHeader defines information about a block and is used in the bitcoin
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// block (MsgBlock) and headers (MsgHeaders) messages.
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type BlockHeader struct {
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// Version of the block. This is not the same as the protocol version.
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Version int32
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// Hash of the previous block in the block chain.
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PrevBlock ShaHash
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// Merkle tree reference to hash of all transactions for the block.
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MerkleRoot ShaHash
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// Time the block was created. This is, unfortunately, encoded as a
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// uint32 on the wire and therefore is limited to 2106.
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Timestamp time.Time
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// Difficulty target for the block.
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Bits uint32
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// Nonce used to generate the block.
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Nonce uint32
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}
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// blockHeaderLen is a constant that represents the number of bytes for a block
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// header.
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const blockHeaderLen = 80
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// BlockSha computes the block identifier hash for the given block header.
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func (h *BlockHeader) BlockSha() ShaHash {
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// Encode the header and double sha256 everything prior to the number of
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// transactions. Ignore the error returns since there is no way the
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// encode could fail except being out of memory which would cause a
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// run-time panic.
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var buf bytes.Buffer
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_ = writeBlockHeader(&buf, 0, h)
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return DoubleSha256SH(buf.Bytes())
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}
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// BtcDecode decodes r using the bitcoin protocol encoding into the receiver.
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// This is part of the Message interface implementation.
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// See Deserialize for decoding block headers stored to disk, such as in a
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// database, as opposed to decoding block headers from the wire.
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func (h *BlockHeader) BtcDecode(r io.Reader, pver uint32) error {
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return readBlockHeader(r, pver, h)
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}
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// BtcEncode encodes the receiver to w using the bitcoin protocol encoding.
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// This is part of the Message interface implementation.
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// See Serialize for encoding block headers to be stored to disk, such as in a
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// database, as opposed to encoding block headers for the wire.
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func (h *BlockHeader) BtcEncode(w io.Writer, pver uint32) error {
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return writeBlockHeader(w, pver, h)
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}
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// Deserialize decodes a block header from r into the receiver using a format
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// that is suitable for long-term storage such as a database while respecting
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// the Version field.
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func (h *BlockHeader) Deserialize(r io.Reader) error {
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// At the current time, there is no difference between the wire encoding
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// at protocol version 0 and the stable long-term storage format. As
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// a result, make use of readBlockHeader.
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return readBlockHeader(r, 0, h)
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}
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// Serialize encodes a block header from r into the receiver using a format
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// that is suitable for long-term storage such as a database while respecting
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// the Version field.
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func (h *BlockHeader) Serialize(w io.Writer) error {
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// At the current time, there is no difference between the wire encoding
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// at protocol version 0 and the stable long-term storage format. As
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// a result, make use of writeBlockHeader.
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return writeBlockHeader(w, 0, h)
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}
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// NewBlockHeader returns a new BlockHeader using the provided previous block
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// hash, merkle root hash, difficulty bits, and nonce used to generate the
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// block with defaults for the remaining fields.
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func NewBlockHeader(prevHash *ShaHash, merkleRootHash *ShaHash, bits uint32,
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nonce uint32) *BlockHeader {
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// Limit the timestamp to one second precision since the protocol
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// doesn't support better.
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return &BlockHeader{
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Version: BlockVersion,
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PrevBlock: *prevHash,
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MerkleRoot: *merkleRootHash,
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Timestamp: time.Unix(time.Now().Unix(), 0),
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Bits: bits,
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Nonce: nonce,
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}
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}
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// readBlockHeader reads a bitcoin block header from r. See Deserialize for
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// decoding block headers stored to disk, such as in a database, as opposed to
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// decoding from the wire.
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func readBlockHeader(r io.Reader, pver uint32, bh *BlockHeader) error {
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err := readElements(r, &bh.Version, &bh.PrevBlock, &bh.MerkleRoot,
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(*uint32Time)(&bh.Timestamp), &bh.Bits, &bh.Nonce)
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if err != nil {
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return err
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}
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return nil
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}
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// writeBlockHeader writes a bitcoin block header to w. See Serialize for
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// encoding block headers to be stored to disk, such as in a database, as
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// opposed to encoding for the wire.
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func writeBlockHeader(w io.Writer, pver uint32, bh *BlockHeader) error {
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sec := uint32(bh.Timestamp.Unix())
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err := writeElements(w, bh.Version, &bh.PrevBlock, &bh.MerkleRoot,
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sec, bh.Bits, bh.Nonce)
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if err != nil {
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return err
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}
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return nil
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}
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