lbcd/wire/message.go

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// Copyright (c) 2013-2016 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 wire
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import (
"bytes"
"fmt"
"io"
"unicode/utf8"
"github.com/btcsuite/btcd/chaincfg/chainhash"
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)
// MessageHeaderSize is the number of bytes in a bitcoin message header.
// Bitcoin network (magic) 4 bytes + command 12 bytes + payload length 4 bytes +
// checksum 4 bytes.
const MessageHeaderSize = 24
// CommandSize is the fixed size of all commands in the common bitcoin message
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// header. Shorter commands must be zero padded.
const CommandSize = 12
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// MaxMessagePayload is the maximum bytes a message can be regardless of other
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// individual limits imposed by messages themselves.
const MaxMessagePayload = (1024 * 1024 * 32) // 32MB
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// Commands used in bitcoin message headers which describe the type of message.
const (
CmdVersion = "version"
CmdVerAck = "verack"
CmdGetAddr = "getaddr"
CmdAddr = "addr"
CmdGetBlocks = "getblocks"
CmdInv = "inv"
CmdGetData = "getdata"
CmdNotFound = "notfound"
CmdBlock = "block"
CmdTx = "tx"
CmdGetHeaders = "getheaders"
CmdHeaders = "headers"
CmdPing = "ping"
CmdPong = "pong"
CmdAlert = "alert"
CmdMemPool = "mempool"
CmdFilterAdd = "filteradd"
CmdFilterClear = "filterclear"
CmdFilterLoad = "filterload"
CmdMerkleBlock = "merkleblock"
CmdReject = "reject"
CmdSendHeaders = "sendheaders"
CmdFeeFilter = "feefilter"
CmdGetCFilters = "getcfilters"
CmdGetCFHeaders = "getcfheaders"
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CmdGetCFCheckpt = "getcfcheckpt"
CmdCFilter = "cfilter"
CmdCFHeaders = "cfheaders"
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CmdCFCheckpt = "cfcheckpt"
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)
// MessageEncoding represents the wire message encoding format to be used.
type MessageEncoding uint32
const (
// BaseEncoding encodes all messages in the default format specified
// for the Bitcoin wire protocol.
BaseEncoding MessageEncoding = 1 << iota
// WitnessEncoding encodes all messages other than transaction messages
// using the default Bitcoin wire protocol specification. For transaction
// messages, the new encoding format detailed in BIP0144 will be used.
WitnessEncoding
)
// LatestEncoding is the most recently specified encoding for the Bitcoin wire
// protocol.
var LatestEncoding = WitnessEncoding
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// Message is an interface that describes a bitcoin message. A type that
// implements Message has complete control over the representation of its data
// and may therefore contain additional or fewer fields than those which
// are used directly in the protocol encoded message.
type Message interface {
BtcDecode(io.Reader, uint32, MessageEncoding) error
BtcEncode(io.Writer, uint32, MessageEncoding) error
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Command() string
MaxPayloadLength(uint32) uint32
}
// makeEmptyMessage creates a message of the appropriate concrete type based
// on the command.
func makeEmptyMessage(command string) (Message, error) {
var msg Message
switch command {
case CmdVersion:
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msg = &MsgVersion{}
case CmdVerAck:
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msg = &MsgVerAck{}
case CmdGetAddr:
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msg = &MsgGetAddr{}
case CmdAddr:
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msg = &MsgAddr{}
case CmdGetBlocks:
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msg = &MsgGetBlocks{}
case CmdBlock:
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msg = &MsgBlock{}
case CmdInv:
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msg = &MsgInv{}
case CmdGetData:
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msg = &MsgGetData{}
case CmdNotFound:
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msg = &MsgNotFound{}
case CmdTx:
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msg = &MsgTx{}
case CmdPing:
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msg = &MsgPing{}
case CmdPong:
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msg = &MsgPong{}
case CmdGetHeaders:
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msg = &MsgGetHeaders{}
case CmdHeaders:
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msg = &MsgHeaders{}
case CmdAlert:
msg = &MsgAlert{}
case CmdMemPool:
msg = &MsgMemPool{}
case CmdFilterAdd:
msg = &MsgFilterAdd{}
case CmdFilterClear:
msg = &MsgFilterClear{}
case CmdFilterLoad:
msg = &MsgFilterLoad{}
case CmdMerkleBlock:
msg = &MsgMerkleBlock{}
case CmdReject:
msg = &MsgReject{}
case CmdSendHeaders:
msg = &MsgSendHeaders{}
case CmdFeeFilter:
msg = &MsgFeeFilter{}
case CmdGetCFilters:
msg = &MsgGetCFilters{}
case CmdGetCFHeaders:
msg = &MsgGetCFHeaders{}
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case CmdGetCFCheckpt:
msg = &MsgGetCFCheckpt{}
case CmdCFilter:
msg = &MsgCFilter{}
case CmdCFHeaders:
msg = &MsgCFHeaders{}
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case CmdCFCheckpt:
msg = &MsgCFCheckpt{}
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default:
return nil, fmt.Errorf("unhandled command [%s]", command)
}
return msg, nil
}
// messageHeader defines the header structure for all bitcoin protocol messages.
type messageHeader struct {
magic BitcoinNet // 4 bytes
command string // 12 bytes
length uint32 // 4 bytes
checksum [4]byte // 4 bytes
}
// readMessageHeader reads a bitcoin message header from r.
func readMessageHeader(r io.Reader) (int, *messageHeader, error) {
// Since readElements doesn't return the amount of bytes read, attempt
// to read the entire header into a buffer first in case there is a
// short read so the proper amount of read bytes are known. This works
// since the header is a fixed size.
var headerBytes [MessageHeaderSize]byte
n, err := io.ReadFull(r, headerBytes[:])
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if err != nil {
return n, nil, err
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}
hr := bytes.NewReader(headerBytes[:])
// Create and populate a messageHeader struct from the raw header bytes.
hdr := messageHeader{}
var command [CommandSize]byte
readElements(hr, &hdr.magic, &command, &hdr.length, &hdr.checksum)
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// Strip trailing zeros from command string.
hdr.command = string(bytes.TrimRight(command[:], string(0)))
return n, &hdr, nil
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}
// discardInput reads n bytes from reader r in chunks and discards the read
// bytes. This is used to skip payloads when various errors occur and helps
// prevent rogue nodes from causing massive memory allocation through forging
// header length.
func discardInput(r io.Reader, n uint32) {
maxSize := uint32(10 * 1024) // 10k at a time
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numReads := n / maxSize
bytesRemaining := n % maxSize
if n > 0 {
buf := make([]byte, maxSize)
for i := uint32(0); i < numReads; i++ {
io.ReadFull(r, buf)
}
}
if bytesRemaining > 0 {
buf := make([]byte, bytesRemaining)
io.ReadFull(r, buf)
}
}
// WriteMessageN writes a bitcoin Message to w including the necessary header
// information and returns the number of bytes written. This function is the
// same as WriteMessage except it also returns the number of bytes written.
func WriteMessageN(w io.Writer, msg Message, pver uint32, btcnet BitcoinNet) (int, error) {
return WriteMessageWithEncodingN(w, msg, pver, btcnet, BaseEncoding)
}
// WriteMessage writes a bitcoin Message to w including the necessary header
// information. This function is the same as WriteMessageN except it doesn't
// doesn't return the number of bytes written. This function is mainly provided
// for backwards compatibility with the original API, but it's also useful for
// callers that don't care about byte counts.
func WriteMessage(w io.Writer, msg Message, pver uint32, btcnet BitcoinNet) error {
_, err := WriteMessageN(w, msg, pver, btcnet)
return err
}
// WriteMessageWithEncodingN writes a bitcoin Message to w including the
// necessary header information and returns the number of bytes written.
// This function is the same as WriteMessageN except it also allows the caller
// to specify the message encoding format to be used when serializing wire
// messages.
func WriteMessageWithEncodingN(w io.Writer, msg Message, pver uint32,
btcnet BitcoinNet, encoding MessageEncoding) (int, error) {
totalBytes := 0
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// Enforce max command size.
var command [CommandSize]byte
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cmd := msg.Command()
if len(cmd) > CommandSize {
str := fmt.Sprintf("command [%s] is too long [max %v]",
cmd, CommandSize)
return totalBytes, messageError("WriteMessage", str)
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}
copy(command[:], []byte(cmd))
// Encode the message payload.
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var bw bytes.Buffer
err := msg.BtcEncode(&bw, pver, encoding)
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if err != nil {
return totalBytes, err
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}
payload := bw.Bytes()
lenp := len(payload)
// Enforce maximum overall message payload.
if lenp > MaxMessagePayload {
str := fmt.Sprintf("message payload is too large - encoded "+
"%d bytes, but maximum message payload is %d bytes",
lenp, MaxMessagePayload)
return totalBytes, messageError("WriteMessage", str)
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}
// Enforce maximum message payload based on the message type.
mpl := msg.MaxPayloadLength(pver)
if uint32(lenp) > mpl {
str := fmt.Sprintf("message payload is too large - encoded "+
"%d bytes, but maximum message payload size for "+
"messages of type [%s] is %d.", lenp, cmd, mpl)
return totalBytes, messageError("WriteMessage", str)
}
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// Create header for the message.
hdr := messageHeader{}
hdr.magic = btcnet
hdr.command = cmd
hdr.length = uint32(lenp)
copy(hdr.checksum[:], chainhash.DoubleHashB(payload)[0:4])
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// Encode the header for the message. This is done to a buffer
// rather than directly to the writer since writeElements doesn't
// return the number of bytes written.
hw := bytes.NewBuffer(make([]byte, 0, MessageHeaderSize))
writeElements(hw, hdr.magic, command, hdr.length, hdr.checksum)
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// Write header.
n, err := w.Write(hw.Bytes())
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totalBytes += n
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if err != nil {
return totalBytes, err
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}
// Only write the payload if there is one, e.g., verack messages don't
// have one.
if len(payload) > 0 {
n, err = w.Write(payload)
totalBytes += n
}
return totalBytes, err
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}
// ReadMessageWithEncodingN reads, validates, and parses the next bitcoin Message
// from r for the provided protocol version and bitcoin network. It returns the
// number of bytes read in addition to the parsed Message and raw bytes which
// comprise the message. This function is the same as ReadMessageN except it
// allows the caller to specify which message encoding is to to consult when
// decoding wire messages.
func ReadMessageWithEncodingN(r io.Reader, pver uint32, btcnet BitcoinNet,
enc MessageEncoding) (int, Message, []byte, error) {
totalBytes := 0
n, hdr, err := readMessageHeader(r)
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totalBytes += n
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if err != nil {
return totalBytes, nil, nil, err
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}
// Enforce maximum message payload.
if hdr.length > MaxMessagePayload {
str := fmt.Sprintf("message payload is too large - header "+
"indicates %d bytes, but max message payload is %d "+
"bytes.", hdr.length, MaxMessagePayload)
return totalBytes, nil, nil, messageError("ReadMessage", str)
}
// Check for messages from the wrong bitcoin network.
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if hdr.magic != btcnet {
discardInput(r, hdr.length)
str := fmt.Sprintf("message from other network [%v]", hdr.magic)
return totalBytes, nil, nil, messageError("ReadMessage", str)
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}
// Check for malformed commands.
command := hdr.command
if !utf8.ValidString(command) {
discardInput(r, hdr.length)
str := fmt.Sprintf("invalid command %v", []byte(command))
return totalBytes, nil, nil, messageError("ReadMessage", str)
}
// Create struct of appropriate message type based on the command.
msg, err := makeEmptyMessage(command)
if err != nil {
discardInput(r, hdr.length)
return totalBytes, nil, nil, messageError("ReadMessage",
err.Error())
}
// Check for maximum length based on the message type as a malicious client
// could otherwise create a well-formed header and set the length to max
// numbers in order to exhaust the machine's memory.
mpl := msg.MaxPayloadLength(pver)
if hdr.length > mpl {
discardInput(r, hdr.length)
str := fmt.Sprintf("payload exceeds max length - header "+
"indicates %v bytes, but max payload size for "+
"messages of type [%v] is %v.", hdr.length, command, mpl)
return totalBytes, nil, nil, messageError("ReadMessage", str)
}
// Read payload.
payload := make([]byte, hdr.length)
n, err = io.ReadFull(r, payload)
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totalBytes += n
if err != nil {
return totalBytes, nil, nil, err
}
// Test checksum.
checksum := chainhash.DoubleHashB(payload)[0:4]
if !bytes.Equal(checksum[:], hdr.checksum[:]) {
str := fmt.Sprintf("payload checksum failed - header "+
"indicates %v, but actual checksum is %v.",
hdr.checksum, checksum)
return totalBytes, nil, nil, messageError("ReadMessage", str)
}
// Unmarshal message. NOTE: This must be a *bytes.Buffer since the
// MsgVersion BtcDecode function requires it.
pr := bytes.NewBuffer(payload)
err = msg.BtcDecode(pr, pver, enc)
if err != nil {
return totalBytes, nil, nil, err
}
return totalBytes, msg, payload, nil
}
// ReadMessageN reads, validates, and parses the next bitcoin Message from r for
// the provided protocol version and bitcoin network. It returns the number of
// bytes read in addition to the parsed Message and raw bytes which comprise the
// message. This function is the same as ReadMessage except it also returns the
// number of bytes read.
func ReadMessageN(r io.Reader, pver uint32, btcnet BitcoinNet) (int, Message, []byte, error) {
return ReadMessageWithEncodingN(r, pver, btcnet, BaseEncoding)
}
// ReadMessage reads, validates, and parses the next bitcoin Message from r for
// the provided protocol version and bitcoin network. It returns the parsed
// Message and raw bytes which comprise the message. This function only differs
// from ReadMessageN in that it doesn't return the number of bytes read. This
// function is mainly provided for backwards compatibility with the original
// API, but it's also useful for callers that don't care about byte counts.
func ReadMessage(r io.Reader, pver uint32, btcnet BitcoinNet) (Message, []byte, error) {
_, msg, buf, err := ReadMessageN(r, pver, btcnet)
return msg, buf, err
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}