Trait miniscript::ScriptContext
source · pub trait ScriptContext:
Debug
+ Clone
+ Ord
+ PartialOrd
+ Eq
+ PartialEq
+ Hash
+ Sealedwhere
Self::Key: MiniscriptKey<Sha256 = Hash> + MiniscriptKey<Hash256 = Hash> + MiniscriptKey<Ripemd160 = Hash> + MiniscriptKey<Hash160 = Hash>,{
type Key: ParseableKey;
Show 15 methods
// Required methods
fn check_terminal_non_malleable<Pk: MiniscriptKey>(
_frag: &Terminal<Pk, Self>,
) -> Result<(), ScriptContextError>;
fn max_satisfaction_size<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Option<usize>;
fn sig_type() -> SigType;
fn pk_len<Pk: MiniscriptKey>(pk: &Pk) -> usize;
fn name_str() -> &'static str;
// Provided methods
fn check_witness<Pk: MiniscriptKey>(
_witness: &[Vec<u8>],
) -> Result<(), ScriptContextError> { ... }
fn check_global_consensus_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn check_global_policy_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn check_local_consensus_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn check_local_policy_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn check_global_validity<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn check_local_validity<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError> { ... }
fn top_level_type_check<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), Error> { ... }
fn other_top_level_checks<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), Error> { ... }
fn top_level_checks<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), Error> { ... }
}
Expand description
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
Required Associated Types§
sourcetype Key: ParseableKey
type Key: ParseableKey
The consensus key associated with the type. Must be a parseable key
Required Methods§
sourcefn check_terminal_non_malleable<Pk: MiniscriptKey>(
_frag: &Terminal<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_terminal_non_malleable<Pk: MiniscriptKey>( _frag: &Terminal<Pk, Self>, ) -> Result<(), ScriptContextError>
Depending on ScriptContext, fragments can be malleable. For Example, under Legacy context, PkH is malleable because it is possible to estimate the cost of satisfaction because of compressed keys This is currently only used in compiler code for removing malleable compilations. This does NOT recursively check if the children of the fragment are valid or not. Since the compilation proceeds in a leaf to root fashion, a recursive check is unnecessary.
sourcefn max_satisfaction_size<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Option<usize>
fn max_satisfaction_size<Pk: MiniscriptKey>( ms: &Miniscript<Pk, Self>, ) -> Option<usize>
Depending on script context, the size of a satifaction witness may slightly differ.
sourcefn pk_len<Pk: MiniscriptKey>(pk: &Pk) -> usize
fn pk_len<Pk: MiniscriptKey>(pk: &Pk) -> usize
Get the len of public key when serialized based on context Note that this includes the serialization prefix. Returns 34/66 for Bare/Legacy based on key compressedness 34 for Segwitv0, 33 for Tap
Provided Methods§
sourcefn check_witness<Pk: MiniscriptKey>(
_witness: &[Vec<u8>],
) -> Result<(), ScriptContextError>
fn check_witness<Pk: MiniscriptKey>( _witness: &[Vec<u8>], ) -> Result<(), ScriptContextError>
Check whether the given satisfaction is valid under the ScriptContext For example, segwit satisfactions may fail if the witness len is more 3600 or number of stack elements are more than 100.
sourcefn check_global_consensus_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_global_consensus_validity<Pk: MiniscriptKey>( _ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Depending on script Context, some of the Terminals might not be valid under the current consensus rules. Or some of the script resource limits may have been exceeded. These miniscripts would never be accepted by the Bitcoin network and hence it is safe to discard them For example, in Segwit Context with MiniscriptKey as bitcoin::PublicKey uncompressed public keys are non-standard and thus invalid. In LegacyP2SH context, scripts above 520 bytes are invalid. Post Tapscript upgrade, this would have to consider other nodes. This does NOT recursively check the miniscript fragments.
sourcefn check_global_policy_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_global_policy_validity<Pk: MiniscriptKey>( _ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Depending on script Context, some of the script resource limits may have been exceeded under the current bitcoin core policy rules These miniscripts would never be accepted by the Bitcoin network and hence it is safe to discard them. (unless explicitly disabled by non-standard flag) For example, in Segwit Context with MiniscriptKey as bitcoin::PublicKey scripts over 3600 bytes are invalid. Post Tapscript upgrade, this would have to consider other nodes. This does NOT recursively check the miniscript fragments.
sourcefn check_local_consensus_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_local_consensus_validity<Pk: MiniscriptKey>( _ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Consensus rules at the Miniscript satisfaction time. It is possible that some paths of miniscript may exceed resource limits and our current satisfier and lifting analysis would not work correctly. For example, satisfaction path(Legacy/Segwitv0) may require more than 201 opcodes.
sourcefn check_local_policy_validity<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_local_policy_validity<Pk: MiniscriptKey>( _ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Policy rules at the Miniscript satisfaction time. It is possible that some paths of miniscript may exceed resource limits and our current satisfier and lifting analysis would not work correctly. For example, satisfaction path in Legacy context scriptSig more than 1650 bytes
sourcefn check_global_validity<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_global_validity<Pk: MiniscriptKey>( ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Check the consensus + policy(if not disabled) rules that are not based satisfaction
sourcefn check_local_validity<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), ScriptContextError>
fn check_local_validity<Pk: MiniscriptKey>( ms: &Miniscript<Pk, Self>, ) -> Result<(), ScriptContextError>
Check the consensus + policy(if not disabled) rules including the ones for satisfaction
sourcefn top_level_type_check<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), Error>
fn top_level_type_check<Pk: MiniscriptKey>( ms: &Miniscript<Pk, Self>, ) -> Result<(), Error>
Check whether the top-level is type B
sourcefn other_top_level_checks<Pk: MiniscriptKey>(
_ms: &Miniscript<Pk, Self>,
) -> Result<(), Error>
fn other_top_level_checks<Pk: MiniscriptKey>( _ms: &Miniscript<Pk, Self>, ) -> Result<(), Error>
Other top level checks that are context specific
sourcefn top_level_checks<Pk: MiniscriptKey>(
ms: &Miniscript<Pk, Self>,
) -> Result<(), Error>
fn top_level_checks<Pk: MiniscriptKey>( ms: &Miniscript<Pk, Self>, ) -> Result<(), Error>
Check top level consensus rules.