// 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" ) 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 ) // 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", } // orderedSFStrings is an ordered list of service flags from highest to // lowest. var orderedSFStrings = []ServiceFlag{ SFNodeNetwork, SFNodeGetUTXO, SFNodeBloom, SFNodeWitness, } // 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 = 0xd9b4bef9 // TestNet represents the regression test network. TestNet BitcoinNet = 0xdab5bffa // TestNet3 represents the test network (version 3). TestNet3 BitcoinNet = 0x0709110b // 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)) }