// Rust Bitcoin Library // Written in 2014 by // Andrew Poelstra // // To the extent possible under law, the author(s) have dedicated all // copyright and related and neighboring rights to this software to // the public domain worldwide. This software is distributed without // any warranty. // // You should have received a copy of the CC0 Public Domain Dedication // along with this software. // If not, see . // //! Bitcoin network constants. //! //! This module provides various constants relating to the Bitcoin network //! protocol, such as protocol versioning and magic header bytes. //! //! The [`Network`][1] type implements the [`Decodable`][2] and //! [`Encodable`][3] traits and encodes the magic bytes of the given //! network. //! //! [1]: enum.Network.html //! [2]: ../../consensus/encode/trait.Decodable.html //! [3]: ../../consensus/encode/trait.Encodable.html //! //! # Example: encoding a network's magic bytes //! //! ```rust //! use bitcoin::network::constants::Network; //! use bitcoin::consensus::encode::serialize; //! //! let network = Network::Bitcoin; //! let bytes = serialize(&network.magic()); //! //! assert_eq!(&bytes[..], &[0xF9, 0xBE, 0xB4, 0xD9]); //! ``` use core::{fmt, ops, convert::From}; use crate::io; use crate::consensus::encode::{self, Encodable, Decodable}; /// Version of the protocol as appearing in network message headers /// This constant is used to signal to other peers which features you support. /// Increasing it implies that your software also supports every feature prior to this version. /// Doing so without support may lead to you incorrectly banning other peers or other peers banning you. /// These are the features required for each version: /// 70016 - Support receiving `wtxidrelay` message between `version` and `verack` message /// 70015 - Support receiving invalid compact blocks from a peer without banning them /// 70014 - Support compact block messages `sendcmpct`, `cmpctblock`, `getblocktxn` and `blocktxn` /// 70013 - Support `feefilter` message /// 70012 - Support `sendheaders` message and announce new blocks via headers rather than inv /// 70011 - Support NODE_BLOOM service flag and don't support bloom filter messages if it is not set /// 70002 - Support `reject` message /// 70001 - Support bloom filter messages `filterload`, `filterclear` `filteradd`, `merkleblock` and FILTERED_BLOCK inventory type /// 60002 - Support `mempool` message /// 60001 - Support `pong` message and nonce in `ping` message pub const PROTOCOL_VERSION: u32 = 70001; user_enum! { /// The cryptocurrency to act on #[derive(Copy, PartialEq, Eq, PartialOrd, Ord, Clone, Hash, Debug)] pub enum Network { /// Classic Bitcoin Bitcoin <-> "bitcoin", /// Bitcoin's testnet Testnet <-> "testnet", /// Bitcoin's signet Signet <-> "signet", /// Bitcoin's regtest Regtest <-> "regtest" } } impl Network { /// Creates a `Network` from the magic bytes. /// /// # Examples /// /// ```rust /// use bitcoin::network::constants::Network; /// /// assert_eq!(Some(Network::Bitcoin), Network::from_magic(0xD9B4BEF9)); /// assert_eq!(None, Network::from_magic(0xFFFFFFFF)); /// ``` pub fn from_magic(magic: u32) -> Option { // Note: any new entries here must be added to `magic` below match magic { 0xD9B4BEF9 => Some(Network::Bitcoin), 0x0709110B => Some(Network::Testnet), 0x40CF030A => Some(Network::Signet), 0xDAB5BFFA => Some(Network::Regtest), _ => None } } /// Return the network magic bytes, which should be encoded little-endian /// at the start of every message /// /// # Examples /// /// ```rust /// use bitcoin::network::constants::Network; /// /// let network = Network::Bitcoin; /// assert_eq!(network.magic(), 0xD9B4BEF9); /// ``` pub fn magic(self) -> u32 { // Note: any new entries here must be added to `from_magic` above match self { Network::Bitcoin => 0xD9B4BEF9, Network::Testnet => 0x0709110B, Network::Signet => 0x40CF030A, Network::Regtest => 0xDAB5BFFA, } } } /// Flags to indicate which network services a node supports. #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] pub struct ServiceFlags(u64); impl ServiceFlags { /// NONE means no services supported. pub const NONE: ServiceFlags = ServiceFlags(0); /// NETWORK means that the node is capable of serving the complete block chain. It is currently /// set by all Bitcoin Core non pruned nodes, and is unset by SPV clients or other light /// clients. pub const NETWORK: ServiceFlags = ServiceFlags(1 << 0); /// GETUTXO means the node is capable of responding to the getutxo protocol request. Bitcoin /// Core does not support this but a patch set called Bitcoin XT does. /// See BIP 64 for details on how this is implemented. pub const GETUTXO: ServiceFlags = ServiceFlags(1 << 1); /// BLOOM means the node is capable and willing to handle bloom-filtered connections. Bitcoin /// Core nodes used to support this by default, without advertising this bit, but no longer do /// as of protocol version 70011 (= NO_BLOOM_VERSION) pub const BLOOM: ServiceFlags = ServiceFlags(1 << 2); /// WITNESS indicates that a node can be asked for blocks and transactions including witness /// data. pub const WITNESS: ServiceFlags = ServiceFlags(1 << 3); /// COMPACT_FILTERS means the node will service basic block filter requests. /// See BIP157 and BIP158 for details on how this is implemented. pub const COMPACT_FILTERS: ServiceFlags = ServiceFlags(1 << 6); /// NETWORK_LIMITED means the same as NODE_NETWORK with the limitation of only serving the last /// 288 (2 day) blocks. /// See BIP159 for details on how this is implemented. pub const NETWORK_LIMITED: ServiceFlags = ServiceFlags(1 << 10); // NOTE: When adding new flags, remember to update the Display impl accordingly. /// Add [ServiceFlags] together. /// /// Returns itself. pub fn add(&mut self, other: ServiceFlags) -> ServiceFlags { self.0 |= other.0; *self } /// Remove [ServiceFlags] from this. /// /// Returns itself. pub fn remove(&mut self, other: ServiceFlags) -> ServiceFlags { self.0 ^= other.0; *self } /// Check whether [ServiceFlags] are included in this one. pub fn has(self, flags: ServiceFlags) -> bool { (self.0 | flags.0) == self.0 } /// Get the integer representation of this [ServiceFlags]. pub fn as_u64(self) -> u64 { self.0 } } impl fmt::LowerHex for ServiceFlags { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt::LowerHex::fmt(&self.0, f) } } impl fmt::UpperHex for ServiceFlags { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt::UpperHex::fmt(&self.0, f) } } impl fmt::Display for ServiceFlags { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut flags = *self; if flags == ServiceFlags::NONE { return write!(f, "ServiceFlags(NONE)"); } let mut first = true; macro_rules! write_flag { ($f:ident) => { if flags.has(ServiceFlags::$f) { if !first { write!(f, "|")?; } first = false; write!(f, stringify!($f))?; flags.remove(ServiceFlags::$f); } } } write!(f, "ServiceFlags(")?; write_flag!(NETWORK); write_flag!(GETUTXO); write_flag!(BLOOM); write_flag!(WITNESS); write_flag!(COMPACT_FILTERS); write_flag!(NETWORK_LIMITED); // If there are unknown flags left, we append them in hex. if flags != ServiceFlags::NONE { if !first { write!(f, "|")?; } write!(f, "0x{:x}", flags)?; } write!(f, ")") } } impl From for ServiceFlags { fn from(f: u64) -> Self { ServiceFlags(f) } } impl Into for ServiceFlags { fn into(self) -> u64 { self.0 } } impl ops::BitOr for ServiceFlags { type Output = Self; fn bitor(mut self, rhs: Self) -> Self { self.add(rhs) } } impl ops::BitOrAssign for ServiceFlags { fn bitor_assign(&mut self, rhs: Self) { self.add(rhs); } } impl ops::BitXor for ServiceFlags { type Output = Self; fn bitxor(mut self, rhs: Self) -> Self { self.remove(rhs) } } impl ops::BitXorAssign for ServiceFlags { fn bitxor_assign(&mut self, rhs: Self) { self.remove(rhs); } } impl Encodable for ServiceFlags { #[inline] fn consensus_encode(&self, mut s: S) -> Result { self.0.consensus_encode(&mut s) } } impl Decodable for ServiceFlags { #[inline] fn consensus_decode(mut d: D) -> Result { Ok(ServiceFlags(Decodable::consensus_decode(&mut d)?)) } } #[cfg(test)] mod tests { use super::{Network, ServiceFlags}; use crate::consensus::encode::{deserialize, serialize}; #[test] fn serialize_test() { assert_eq!(serialize(&Network::Bitcoin.magic()), &[0xf9, 0xbe, 0xb4, 0xd9]); assert_eq!(serialize(&Network::Testnet.magic()), &[0x0b, 0x11, 0x09, 0x07]); assert_eq!(serialize(&Network::Signet.magic()), &[0x0a, 0x03, 0xcf, 0x40]); assert_eq!(serialize(&Network::Regtest.magic()), &[0xfa, 0xbf, 0xb5, 0xda]); assert_eq!(deserialize(&[0xf9, 0xbe, 0xb4, 0xd9]).ok(), Some(Network::Bitcoin.magic())); assert_eq!(deserialize(&[0x0b, 0x11, 0x09, 0x07]).ok(), Some(Network::Testnet.magic())); assert_eq!(deserialize(&[0x0a, 0x03, 0xcf, 0x40]).ok(), Some(Network::Signet.magic())); assert_eq!(deserialize(&[0xfa, 0xbf, 0xb5, 0xda]).ok(), Some(Network::Regtest.magic())); } #[test] fn string_test() { assert_eq!(Network::Bitcoin.to_string(), "bitcoin"); assert_eq!(Network::Testnet.to_string(), "testnet"); assert_eq!(Network::Regtest.to_string(), "regtest"); assert_eq!(Network::Signet.to_string(), "signet"); assert_eq!("bitcoin".parse::().unwrap(), Network::Bitcoin); assert_eq!("testnet".parse::().unwrap(), Network::Testnet); assert_eq!("regtest".parse::().unwrap(), Network::Regtest); assert_eq!("signet".parse::().unwrap(), Network::Signet); assert!("fakenet".parse::().is_err()); } #[test] fn service_flags_test() { let all = [ ServiceFlags::NETWORK, ServiceFlags::GETUTXO, ServiceFlags::BLOOM, ServiceFlags::WITNESS, ServiceFlags::COMPACT_FILTERS, ServiceFlags::NETWORK_LIMITED, ]; let mut flags = ServiceFlags::NONE; for f in all.iter() { assert!(!flags.has(*f)); } flags |= ServiceFlags::WITNESS; assert_eq!(flags, ServiceFlags::WITNESS); let mut flags2 = flags | ServiceFlags::GETUTXO; for f in all.iter() { assert_eq!(flags2.has(*f), *f == ServiceFlags::WITNESS || *f == ServiceFlags::GETUTXO); } flags2 ^= ServiceFlags::WITNESS; assert_eq!(flags2, ServiceFlags::GETUTXO); flags2 |= ServiceFlags::COMPACT_FILTERS; flags2 ^= ServiceFlags::GETUTXO; assert_eq!(flags2, ServiceFlags::COMPACT_FILTERS); // Test formatting. assert_eq!("ServiceFlags(NONE)", ServiceFlags::NONE.to_string()); assert_eq!("ServiceFlags(WITNESS)", ServiceFlags::WITNESS.to_string()); let flag = ServiceFlags::WITNESS | ServiceFlags::BLOOM | ServiceFlags::NETWORK; assert_eq!("ServiceFlags(NETWORK|BLOOM|WITNESS)", flag.to_string()); let flag = ServiceFlags::WITNESS | 0xf0.into(); assert_eq!("ServiceFlags(WITNESS|COMPACT_FILTERS|0xb0)", flag.to_string()); } }