Struct lightning_signer::policy::simple_validator::SimpleValidator

pub struct SimpleValidator { /* private fields */ }

A simple validator. See SimpleValidatorFactory for construction

Trait Implementations

impl Validator for SimpleValidator

fn validate_ready_channel( &self, wallet: &dyn Wallet, setup: &ChannelSetup, holder_shutdown_key_path: &[u32] ) -> Result<(), ValidationError>

Validate ready channel parameters. The holder_shutdown_key_path should be an empty vector if the setup.holder_shutdown_script is not set or the address is in the allowlist.

fn validate_channel_value( &self, setup: &ChannelSetup ) -> Result<(), ValidationError>

Validate channel value after it is late-filled

fn validate_onchain_tx( &self, wallet: &dyn Wallet, channels: Vec<Option<Arc<Mutex<ChannelSlot>>>>, tx: &Transaction, values_sat: &[u64], opaths: &[Vec<u32>], weight_lower_bound: usize ) -> Result<(), ValidationError>

Validate an onchain transaction (funding tx, simple sweeps). This transaction may fund multiple channels at the same time.

fn decode_commitment_tx( &self, keys: &InMemorySigner, setup: &ChannelSetup, is_counterparty: bool, tx: &Transaction, output_witscripts: &[Vec<u8>] ) -> Result<CommitmentInfo, ValidationError>

Phase 1 CommitmentInfo

fn validate_counterparty_commitment_tx( &self, estate: &EnforcementState, commit_num: u64, commitment_point: &PublicKey, setup: &ChannelSetup, cstate: &ChainState, info2: &CommitmentInfo2 ) -> Result<(), ValidationError>

Validate a counterparty commitment

fn validate_holder_commitment_tx( &self, estate: &EnforcementState, commit_num: u64, commitment_point: &PublicKey, setup: &ChannelSetup, cstate: &ChainState, info2: &CommitmentInfo2 ) -> Result<(), ValidationError>

Validate a holder commitment

fn validate_counterparty_revocation( &self, state: &EnforcementState, revoke_num: u64, commitment_secret: &SecretKey ) -> Result<(), ValidationError>

Check a counterparty’s revocation of an old state. This also makes a note that the counterparty has committed to their current commitment transaction.

fn decode_and_validate_htlc_tx( &self, is_counterparty: bool, setup: &ChannelSetup, txkeys: &TxCreationKeys, tx: &Transaction, redeemscript: &Script, htlc_amount_sat: u64, output_witscript: &Script ) -> Result<(u32, HTLCOutputInCommitment, Sighash, EcdsaSighashType), ValidationError>

Phase 1 decoding of 2nd level HTLC tx and validation by recomposition

fn validate_htlc_tx( &self, setup: &ChannelSetup, _cstate: &ChainState, _is_counterparty: bool, htlc: &HTLCOutputInCommitment, feerate_per_kw: u32 ) -> Result<(), ValidationError>

Phase 2 validation of 2nd level HTLC tx

fn decode_and_validate_mutual_close_tx( &self, wallet: &dyn Wallet, setup: &ChannelSetup, estate: &EnforcementState, tx: &Transaction, wallet_paths: &[Vec<u32>] ) -> Result<ClosingTransaction, ValidationError>

Phase 1 decoding and recomposition of mutual_close

fn validate_mutual_close_tx( &self, wallet: &dyn Wallet, setup: &ChannelSetup, estate: &EnforcementState, to_holder_value_sat: u64, to_counterparty_value_sat: u64, holder_script: &Option<Script>, counterparty_script: &Option<Script>, holder_wallet_path_hint: &[u32] ) -> Result<(), ValidationError>

Phase 2 Validatation of mutual_close

fn validate_delayed_sweep( &self, wallet: &dyn Wallet, setup: &ChannelSetup, cstate: &ChainState, tx: &Transaction, input: usize, amount_sat: u64, wallet_path: &[u32] ) -> Result<(), ValidationError>

Validation of delayed sweep transaction

fn validate_counterparty_htlc_sweep( &self, wallet: &dyn Wallet, setup: &ChannelSetup, cstate: &ChainState, tx: &Transaction, redeemscript: &Script, input: usize, amount_sat: u64, wallet_path: &[u32] ) -> Result<(), ValidationError>

Validation of counterparty htlc sweep transaction (first level commitment htlc outputs)

fn validate_justice_sweep( &self, wallet: &dyn Wallet, _setup: &ChannelSetup, cstate: &ChainState, tx: &Transaction, input: usize, amount_sat: u64, wallet_path: &[u32] ) -> Result<(), ValidationError>

Validation of justice sweep transaction

fn validate_payment_balance( &self, incoming: u64, outgoing: u64, invoiced_amount_msat: Option<u64> ) -> Result<(), ValidationError>

Validation of the payment state for a payment hash. This could include a payment routed through us, or a payment we are making, or both. If we are not making a payment, then the incoming must be greater or equal to the outgoing. Otherwise, the incoming minus outgoing should be enough to pay for the invoice and routing fees, but no larger.

fn enforce_balance(&self) -> bool

Whether the policy specifies that holder balance should be tracked and enforced.

fn minimum_initial_balance(&self, holder_value_msat: u64) -> u64

The minimum initial commitment transaction balance to us, given the funding amount. The result is in satoshi.

fn policy(&self) -> Box<&dyn Policy>

The associated policy

fn set_next_holder_commit_num( &self, estate: &mut EnforcementState, num: u64, current_commitment_info: CommitmentInfo2, counterparty_signatures: CommitmentSignatures ) -> Result<(), ValidationError>

Set next holder commitment number

fn get_current_holder_commitment_info( &self, estate: &mut EnforcementState, commitment_number: u64 ) -> Result<CommitmentInfo2, ValidationError>

Get the current commitment info

fn set_next_counterparty_commit_num( &self, estate: &mut EnforcementState, num: u64, current_point: PublicKey, current_commitment_info: CommitmentInfo2 ) -> Result<(), ValidationError>

Set next counterparty commitment number

fn set_next_counterparty_revoke_num( &self, estate: &mut EnforcementState, num: u64 ) -> Result<(), ValidationError>

Set next counterparty revoked commitment number

fn validate_block( &self, proof: &UnspentProof, height: u32, header: &BlockHeader, prev_filter_header: &FilterHeader, outpoint_watches: &[OutPoint] ) -> Result<(), ValidationError>

Validate a block and a TXOO proof for spent/unspent watched outputs