lbcd/wire/protocol.go
2021-10-18 16:36:42 -07:00

178 lines
4.8 KiB
Go

// Copyright (c) 2013-2016 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package wire
import (
"fmt"
"strconv"
"strings"
)
// XXX pedro: we will probably need to bump this.
const (
// ProtocolVersion is the latest protocol version this package supports.
ProtocolVersion uint32 = 70013
// MultipleAddressVersion is the protocol version which added multiple
// addresses per message (pver >= MultipleAddressVersion).
MultipleAddressVersion uint32 = 209
// NetAddressTimeVersion is the protocol version which added the
// timestamp field (pver >= NetAddressTimeVersion).
NetAddressTimeVersion uint32 = 31402
// BIP0031Version is the protocol version AFTER which a pong message
// and nonce field in ping were added (pver > BIP0031Version).
BIP0031Version uint32 = 60000
// BIP0035Version is the protocol version which added the mempool
// message (pver >= BIP0035Version).
BIP0035Version uint32 = 60002
// BIP0037Version is the protocol version which added new connection
// bloom filtering related messages and extended the version message
// with a relay flag (pver >= BIP0037Version).
BIP0037Version uint32 = 70001
// RejectVersion is the protocol version which added a new reject
// message.
RejectVersion uint32 = 70002
// BIP0111Version is the protocol version which added the SFNodeBloom
// service flag.
BIP0111Version uint32 = 70011
// SendHeadersVersion is the protocol version which added a new
// sendheaders message.
SendHeadersVersion uint32 = 70012
// FeeFilterVersion is the protocol version which added a new
// feefilter message.
FeeFilterVersion uint32 = 70013
)
// ServiceFlag identifies services supported by a bitcoin peer.
type ServiceFlag uint64
const (
// SFNodeNetwork is a flag used to indicate a peer is a full node.
SFNodeNetwork ServiceFlag = 1 << iota
// SFNodeGetUTXO is a flag used to indicate a peer supports the
// getutxos and utxos commands (BIP0064).
SFNodeGetUTXO
// SFNodeBloom is a flag used to indicate a peer supports bloom
// filtering.
SFNodeBloom
// SFNodeWitness is a flag used to indicate a peer supports blocks
// and transactions including witness data (BIP0144).
SFNodeWitness
// SFNodeXthin is a flag used to indicate a peer supports xthin blocks.
SFNodeXthin
// SFNodeBit5 is a flag used to indicate a peer supports a service
// defined by bit 5.
SFNodeBit5
// SFNodeCF is a flag used to indicate a peer supports committed
// filters (CFs).
SFNodeCF
// SFNode2X is a flag used to indicate a peer is running the Segwit2X
// software.
SFNode2X
)
// Map of service flags back to their constant names for pretty printing.
var sfStrings = map[ServiceFlag]string{
SFNodeNetwork: "SFNodeNetwork",
SFNodeGetUTXO: "SFNodeGetUTXO",
SFNodeBloom: "SFNodeBloom",
SFNodeWitness: "SFNodeWitness",
SFNodeXthin: "SFNodeXthin",
SFNodeBit5: "SFNodeBit5",
SFNodeCF: "SFNodeCF",
SFNode2X: "SFNode2X",
}
// orderedSFStrings is an ordered list of service flags from highest to
// lowest.
var orderedSFStrings = []ServiceFlag{
SFNodeNetwork,
SFNodeGetUTXO,
SFNodeBloom,
SFNodeWitness,
SFNodeXthin,
SFNodeBit5,
SFNodeCF,
SFNode2X,
}
// String returns the ServiceFlag in human-readable form.
func (f ServiceFlag) String() string {
// No flags are set.
if f == 0 {
return "0x0"
}
// Add individual bit flags.
s := ""
for _, flag := range orderedSFStrings {
if f&flag == flag {
s += sfStrings[flag] + "|"
f -= flag
}
}
// Add any remaining flags which aren't accounted for as hex.
s = strings.TrimRight(s, "|")
if f != 0 {
s += "|0x" + strconv.FormatUint(uint64(f), 16)
}
s = strings.TrimLeft(s, "|")
return s
}
// BitcoinNet represents which bitcoin network a message belongs to.
type BitcoinNet uint32
// Constants used to indicate the message bitcoin network. They can also be
// used to seek to the next message when a stream's state is unknown, but
// this package does not provide that functionality since it's generally a
// better idea to simply disconnect clients that are misbehaving over TCP.
const (
// MainNet represents the main bitcoin network.
MainNet BitcoinNet = 0xf1aae4fa
// TestNet represents the regression test network.
TestNet BitcoinNet = 0xd1aae4fa
// TestNet3 represents the test network (version 3).
TestNet3 BitcoinNet = 0xe1aae4fa
// SimNet represents the simulation test network.
SimNet BitcoinNet = 0x12141c16
)
// bnStrings is a map of bitcoin networks back to their constant names for
// pretty printing.
var bnStrings = map[BitcoinNet]string{
MainNet: "MainNet",
TestNet: "TestNet",
TestNet3: "TestNet3",
SimNet: "SimNet",
}
// String returns the BitcoinNet in human-readable form.
func (n BitcoinNet) String() string {
if s, ok := bnStrings[n]; ok {
return s
}
return fmt.Sprintf("Unknown BitcoinNet (%d)", uint32(n))
}