Crate miniscript

Miniscript and Output Descriptors

Bitcoin Script

In Bitcoin, spending policies are defined and enforced by means of a stack-based programming language known as Bitcoin Script. While this language appears to be designed with tractable analysis in mind (e.g. there are no looping or jumping constructions), in practice this is extremely difficult. As a result, typical wallet software supports only a small set of script templates, cannot interoperate with other similar software, and each wallet contains independently written ad-hoc manually verified code to handle these templates. Users who require more complex spending policies, or who want to combine signing infrastructure which was not explicitly designed to work together, are simply out of luck.

Miniscript

Miniscript is an alternative to Bitcoin Script which eliminates these problems. It can be efficiently and simply encoded as Script to ensure that it works on the Bitcoin blockchain, but its design is very different. Essentially, a Miniscript is a monotone function (tree of ANDs, ORs and thresholds) of signature requirements, hash preimage requirements, and timelocks.

A full description of Miniscript is available here.

Miniscript also admits a more human-readable encoding.

Output Descriptors

While spending policies in Bitcoin are entirely defined by Script; there are multiple ways of embedding these Scripts in transaction outputs; for example, P2SH or Segwit v0. These different embeddings are expressed by Output Descriptors, which are described here.

Examples

Deriving an address from a descriptor

use std::str::FromStr;

let desc = miniscript::Descriptor::<bitcoin::PublicKey>::from_str("\
    sh(wsh(or_d(\
    c:pk_k(020e0338c96a8870479f2396c373cc7696ba124e8635d41b0ea581112b67817261),\
    c:pk_k(0250863ad64a87ae8a2fe83c1af1a8403cb53f53e486d8511dad8a04887e5b2352)\
    )))\
    ").unwrap();

// Derive the P2SH address.
assert_eq!(
    desc.address(bitcoin::Network::Bitcoin).unwrap().to_string(),
    "3CJxbQBfWAe1ZkKiGQNEYrioV73ZwvBWns"
);

// Check whether the descriptor is safe. This checks whether all spend paths are accessible in
// the Bitcoin network. It may be possible that some of the spend paths require more than 100
// elements in Wsh scripts or they contain a combination of timelock and heightlock.
assert!(desc.sanity_check().is_ok());

// Estimate the satisfaction cost.
// scriptSig: OP_PUSH34 <OP_0 OP_32 <32-byte-hash>>
// = (1 + 1 + 1 + 32) * 4 = 140 WU
// redeemScript: varint <OP_33 <pk1> OP_CHECKSIG OP_IFDUP OP_NOTIF OP_33 <pk2> OP_CHECKSIG OP_ENDIF>
// = 1 + (1 + 33 + 1 + 1 + 1 + 1 + 33 + 1 + 1) = 74 WU
// stackItem[Sig]: varint <sig+sighash>
// = 1 + 73 = 74 WU
// Expected satisfaction weight: 140 + 74 + 74 = 288
assert_eq!(desc.max_weight_to_satisfy().unwrap(), 288);

Re-exports

• pub use crate::descriptor::DefiniteDescriptorKey;
• pub use crate::descriptor::Descriptor;
• pub use crate::descriptor::DescriptorPublicKey;
• pub use crate::interpreter::Interpreter;
• pub use crate::miniscript::analyzable::AnalysisError;
• pub use crate::miniscript::analyzable::ExtParams;
• pub use crate::miniscript::decode::Terminal;
• pub use crate::miniscript::satisfy::Preimage32;
• pub use crate::miniscript::satisfy::Satisfier;
• pub use crate::miniscript::hash256;
• pub use crate::miniscript::Miniscript;
• pub use bitcoin;

Modules

• descriptor
  Output Descriptors
• expression
  Function-like Expression Language
• interpreter
  Interpreter
• iter
  Abstract Tree Iteration
• miniscript
  Abstract Syntax Tree
• plan
  A spending plan or plan for short is a representation of a particular spending path on a descriptor. This allows us to analayze a choice of spending path without producing any signatures or other witness data for it.
• policy
  Script Policies
• psbt
  Partially-Signed Bitcoin Transactions

Macros

• translate_hash_clone
  Macro for translation of associated types where the associated type is the same Handy for Derived -> concrete keys where the associated types are the same.
• translate_hash_fail
  Macro for failing translation for other associated types. Handy for testing String -> concrete keys as we don’t want to specify these functions repeatedly.

Structs

• AbsLockTime
  An absolute locktime that implements Ord.

Enums

• BareCtx
  Bare ScriptContext To be used as raw script pubkeys In general, it is not recommended to use Bare descriptors as they as strongly limited by standardness policies.
• Error
  Miniscript
• Legacy
  Legacy ScriptContext To be used as P2SH scripts For creation of Bare scriptpubkeys, construct the Miniscript under Bare ScriptContext
• Segwitv0
  Segwitv0 ScriptContext
• SigType
  Signature algorithm type
• Tap
  Tap ScriptContext
• TranslateErr
  An enum for representing translation errors

Traits

• ForEachKey
  Either a key or keyhash, but both contain Pk Trait describing the ability to iterate over every key
• MiniscriptKey
  Public key trait which can be converted to Hash type
• ScriptContext
  The ScriptContext for Miniscript. Additional type information associated with miniscript that is used for carrying out checks that dependent on the context under which the script is used. For example, disallowing uncompressed keys in Segwit context
• ToPublicKey
  Trait describing public key types which can be converted to bitcoin pubkeys
• TranslatePk
  Converts a descriptor using abstract keys to one using specific keys. Uses translator t to do the actual translation function calls.
• Translator
  Describes an object that can translate various keys and hashes from one key to the type associated with the other key. Used by the TranslatePk trait to do the actual translations.

Functions

• script_num_size
  The size of an encoding of a number in Script