// SPDX-License-Identifier: CC0-1.0 //! # Rust Bitcoin Library //! //! This is a library that supports the Bitcoin network protocol and associated primitives. It is //! designed for Rust programs built to work with the Bitcoin network. //! //! Except for its dependency on libsecp256k1 (and optionally libbitcoinconsensus), this library is //! written entirely in Rust. It illustrates the benefits of strong type safety, including ownership //! and lifetime, for financial and/or cryptographic software. //! //! See README.md for detailed documentation about development and supported environments. //! //! # Cargo features //! //! * `base64` (dependency) - enables encoding of PSBTs and message signatures. //! * `bitcoinconsensus` (dependency) - enables validating scripts and transactions. //! * `default` - enables `std` and `secp-recovery`. //! * `ordered` (dependency) - adds implementations of `ArbitraryOrd` to some structs. //! * `rand` (transitive dependency) - makes it more convenient to generate random values. //! * `rand-std` - same as `rand` but also enables `std` here and in `secp256k1`. //! * `serde` (dependency) - implements `serde`-based serialization and deserialization. //! * `secp-lowmemory` - optimizations for low-memory devices. //! * `secp-recovery` - enables calculating public key from a signature and message. //! * `std` - the usual dependency on `std`. #![cfg_attr(all(not(feature = "std"), not(test)), no_std)] // Experimental features we need. #![cfg_attr(docsrs, feature(doc_auto_cfg))] #![cfg_attr(bench, feature(test))] // Coding conventions. #![warn(missing_docs)] #![doc(test(attr(warn(unused))))] // Instead of littering the codebase for non-fuzzing and bench code just globally allow. #![cfg_attr(fuzzing, allow(dead_code, unused_imports))] #![cfg_attr(bench, allow(dead_code, unused_imports))] // Exclude lints we don't think are valuable. #![allow(clippy::needless_question_mark)] // https://github.com/rust-bitcoin/rust-bitcoin/pull/2134 #![allow(clippy::manual_range_contains)] // More readable than clippy's format. #![allow(clippy::needless_borrows_for_generic_args)] // https://github.com/rust-lang/rust-clippy/issues/12454 // We only support machines with index size of 4 bytes or more. // // Bitcoin consensus code relies on being able to have containers with more than 65536 (2^16) // entries in them so we cannot support consensus logic on machines that only have 16-bit memory // addresses. // // We specifically do not use `target_pointer_width` because of the possibility that pointer width // does not equal index size. // // ref: https://github.com/rust-bitcoin/rust-bitcoin/pull/2929#discussion_r1661848565 internals::const_assert!( core::mem::size_of::() >= 4; "platforms that have usize less than 32 bits are not supported" ); #[cfg(bench)] extern crate test; #[macro_use] extern crate alloc; #[cfg(feature = "base64")] /// Encodes and decodes base64 as bytes or utf8. pub extern crate base64; /// Bitcoin base58 encoding and decoding. pub extern crate base58; /// Rust implementation of cryptographic hash function algorithms. pub extern crate hashes; /// Re-export the `hex-conservative` crate. pub extern crate hex; /// Re-export the `bitcoin-io` crate. pub extern crate io; /// Re-export the `ordered` crate. #[cfg(feature = "ordered")] pub extern crate ordered; /// Rust wrapper library for Pieter Wuille's libsecp256k1. Implements ECDSA and BIP 340 signatures /// for the SECG elliptic curve group secp256k1 and related utilities. pub extern crate secp256k1; #[cfg(feature = "serde")] #[macro_use] extern crate serde; mod internal_macros; #[cfg(feature = "serde")] mod serde_utils; #[macro_use] pub mod p2p; pub mod address; pub mod bip152; pub mod bip158; pub mod bip32; pub mod blockdata; pub mod consensus; #[cfg(feature = "bitcoinconsensus")] pub mod consensus_validation; // Private until we either make this a crate or flatten it - still to be decided. pub(crate) mod crypto; pub mod hash_types; pub mod merkle_tree; pub mod network; pub mod policy; pub mod pow; pub mod psbt; pub mod sign_message; pub mod taproot; #[rustfmt::skip] // Keep public re-exports separate. #[doc(inline)] pub use crate::{ address::{Address, AddressType, KnownHrp}, amount::{Amount, Denomination, SignedAmount}, bip158::{FilterHash, FilterHeader}, bip32::XKeyIdentifier, blockdata::block::{self, Block, BlockHash, WitnessCommitment}, blockdata::constants, blockdata::fee_rate::FeeRate, blockdata::locktime::{self, absolute, relative}, blockdata::opcodes::{self, Opcode}, blockdata::script::witness_program::{self, WitnessProgram}, blockdata::script::witness_version::{self, WitnessVersion}, blockdata::script::{self, Script, ScriptBuf, ScriptHash, WScriptHash}, blockdata::transaction::{self, OutPoint, Transaction, TxIn, TxOut, Txid, Wtxid}, blockdata::weight::Weight, blockdata::witness::{self, Witness}, crypto::ecdsa, crypto::key::{self, PrivateKey, PubkeyHash, PublicKey, CompressedPublicKey, WPubkeyHash, XOnlyPublicKey}, crypto::sighash::{self, LegacySighash, SegwitV0Sighash, TapSighash, TapSighashTag}, merkle_tree::{MerkleBlock, TxMerkleNode, WitnessMerkleNode}, network::{Network, NetworkKind}, network::params::{self, Params}, pow::{CompactTarget, Target, Work}, psbt::Psbt, sighash::{EcdsaSighashType, TapSighashType}, taproot::{TapBranchTag, TapLeafHash, TapLeafTag, TapNodeHash, TapTweakHash, TapTweakTag}, }; #[doc(inline)] pub use primitives::Sequence; pub use units::{BlockHeight, BlockInterval}; #[rustfmt::skip] #[allow(unused_imports)] mod prelude { #[cfg(all(not(feature = "std"), not(test)))] pub use alloc::{string::{String, ToString}, vec::Vec, boxed::Box, borrow::{Borrow, BorrowMut, Cow, ToOwned}, slice, rc}; #[cfg(all(not(feature = "std"), not(test), target_has_atomic = "ptr"))] pub use alloc::sync; #[cfg(any(feature = "std", test))] pub use std::{string::{String, ToString}, vec::Vec, boxed::Box, borrow::{Borrow, BorrowMut, Cow, ToOwned}, rc, sync}; #[cfg(all(not(feature = "std"), not(test)))] pub use alloc::collections::{BTreeMap, BTreeSet, btree_map, BinaryHeap}; #[cfg(any(feature = "std", test))] pub use std::collections::{BTreeMap, BTreeSet, btree_map, BinaryHeap}; pub use crate::io::sink; pub use hex::DisplayHex; } pub mod amount { //! Bitcoin amounts. //! //! This module mainly introduces the [Amount] and [SignedAmount] types. //! We refer to the documentation on the types for more information. use crate::consensus::{encode, Decodable, Encodable}; use crate::io::{BufRead, Write}; #[rustfmt::skip] // Keep public re-exports separate. #[doc(inline)] pub use units::amount::{ Amount, CheckedSum, Denomination, Display, ParseAmountError, SignedAmount, }; #[cfg(feature = "serde")] pub use units::amount::serde; impl Decodable for Amount { #[inline] fn consensus_decode(r: &mut R) -> Result { Ok(Amount::from_sat(Decodable::consensus_decode(r)?)) } } impl Encodable for Amount { #[inline] fn consensus_encode(&self, w: &mut W) -> Result { self.to_sat().consensus_encode(w) } } } /// Unit parsing utilities. pub mod parse { /// Re-export everything from the [`units::parse`] module. #[doc(inline)] pub use units::parse::{ hex_check_unprefixed, hex_remove_prefix, hex_u128, hex_u128_unchecked, hex_u128_unprefixed, hex_u32, hex_u32_unchecked, hex_u32_unprefixed, int, ContainsPrefixError, MissingPrefixError, ParseIntError, PrefixedHexError, UnprefixedHexError, }; } mod encode_impls { //! Encodable/Decodable implementations. // While we are deprecating, re-exporting, and generally moving things around just put these here. use units::{BlockHeight, BlockInterval}; use crate::consensus::{encode, Decodable, Encodable}; use crate::io::{BufRead, Write}; /// Implements Encodable and Decodable for a simple wrapper type. /// /// Wrapper type is required to implement `to_u32()` and `From`. macro_rules! impl_encodable_for_u32_wrapper { ($ty:ident) => { impl Decodable for $ty { #[inline] fn consensus_decode(r: &mut R) -> Result { let inner = u32::consensus_decode(r)?; Ok($ty::from(inner)) } } impl Encodable for $ty { #[inline] fn consensus_encode( &self, w: &mut W, ) -> Result { let inner = self.to_u32(); inner.consensus_encode(w) } } }; } impl_encodable_for_u32_wrapper!(BlockHeight); impl_encodable_for_u32_wrapper!(BlockInterval); }