Refactor Address struct and its methods
This commit refactors the Address struct and its methods to improve its functionality and usability.The AddressInner struct now holds the payload and network, and the PhantomData<V> type is used to track the network validation state. Also as_unchecked and assume_checked_red methods are added to allow conversion between checked and unchecked network validation state. Signed-off-by: Harshil Jani <harshiljani2002@gmail.com>
This commit is contained in:
parent
0c48c6b009
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29cb34eed7
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@ -639,6 +639,17 @@ impl NetworkValidation for NetworkUnchecked {
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const IS_CHECKED: bool = false;
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const IS_CHECKED: bool = false;
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}
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}
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/// The inner representation of an address, without the network validation tag.
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///
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/// An `Address` is composed of a payload and a network. This struct represents the inner
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/// representation of an address without the network validation tag, which is used to ensure that
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/// addresses are used only on the appropriate network.
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#[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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struct AddressInner {
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payload: Payload,
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network: Network,
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}
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/// A Bitcoin address.
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/// A Bitcoin address.
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///
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///
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/// ### Parsing addresses
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/// ### Parsing addresses
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@ -727,17 +738,15 @@ impl NetworkValidation for NetworkUnchecked {
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/// * [BIP341 - Taproot: SegWit version 1 spending rules](https://github.com/bitcoin/bips/blob/master/bip-0341.mediawiki)
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/// * [BIP341 - Taproot: SegWit version 1 spending rules](https://github.com/bitcoin/bips/blob/master/bip-0341.mediawiki)
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/// * [BIP350 - Bech32m format for v1+ witness addresses](https://github.com/bitcoin/bips/blob/master/bip-0350.mediawiki)
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/// * [BIP350 - Bech32m format for v1+ witness addresses](https://github.com/bitcoin/bips/blob/master/bip-0350.mediawiki)
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#[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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#[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub struct Address<V = NetworkChecked>
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///
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/// The `#[repr(transparent)]` attribute is used to guarantee that the layout of the
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/// `Address` struct is the same as the layout of the `AddressInner` struct. This attribute is
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/// an implementation detail and users should not rely on it in their code.
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///
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#[repr(transparent)]
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pub struct Address<V = NetworkChecked>(AddressInner, PhantomData<V>)
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where
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where
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V: NetworkValidation,
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V: NetworkValidation;
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{
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/// The type of the address.
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pub payload: Payload,
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/// The network on which this address is usable.
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pub network: Network,
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/// Marker of the status of network validation.
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_validation: PhantomData<V>,
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}
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#[cfg(feature = "serde")]
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#[cfg(feature = "serde")]
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struct DisplayUnchecked<'a>(&'a Address<NetworkUnchecked>);
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struct DisplayUnchecked<'a>(&'a Address<NetworkUnchecked>);
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@ -766,6 +775,24 @@ impl serde::Serialize for Address<NetworkUnchecked> {
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/// Methods on [`Address`] that can be called on both `Address<NetworkChecked>` and
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/// Methods on [`Address`] that can be called on both `Address<NetworkChecked>` and
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/// `Address<NetworkUnchecked>`.
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/// `Address<NetworkUnchecked>`.
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impl<V: NetworkValidation> Address<V> {
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impl<V: NetworkValidation> Address<V> {
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/// Returns a reference to the payload of this address.
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pub fn payload(&self) -> &Payload { &self.0.payload }
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/// Returns a reference to the network of this address.
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pub fn network(&self) -> &Network { &self.0.network }
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/// Returns a reference to the unchecked address, which is dangerous to use if the address
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/// is invalid in the context of `NetworkUnchecked`.
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pub fn as_unchecked(&self) -> &Address<NetworkUnchecked> {
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unsafe { &*(self as *const Address<V> as *const Address<NetworkUnchecked>) }
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}
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/// Extracts and returns the network and payload components of the `Address`.
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pub fn into_parts(self) -> (Network, Payload) {
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let AddressInner { payload, network } = self.0;
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(network, payload)
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}
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/// Gets the address type of the address.
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/// Gets the address type of the address.
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///
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///
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/// This method is publicly available as [`address_type`](Address<NetworkChecked>::address_type)
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/// This method is publicly available as [`address_type`](Address<NetworkChecked>::address_type)
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@ -775,7 +802,7 @@ impl<V: NetworkValidation> Address<V> {
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/// # Returns
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/// # Returns
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/// None if unknown, non-standard or related to the future witness version.
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/// None if unknown, non-standard or related to the future witness version.
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fn address_type_internal(&self) -> Option<AddressType> {
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fn address_type_internal(&self) -> Option<AddressType> {
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match self.payload {
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match self.payload() {
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Payload::PubkeyHash(_) => Some(AddressType::P2pkh),
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Payload::PubkeyHash(_) => Some(AddressType::P2pkh),
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Payload::ScriptHash(_) => Some(AddressType::P2sh),
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Payload::ScriptHash(_) => Some(AddressType::P2sh),
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Payload::WitnessProgram(ref prog) => {
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Payload::WitnessProgram(ref prog) => {
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@ -797,21 +824,21 @@ impl<V: NetworkValidation> Address<V> {
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/// Format the address for the usage by `Debug` and `Display` implementations.
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/// Format the address for the usage by `Debug` and `Display` implementations.
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fn fmt_internal(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
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fn fmt_internal(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
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let p2pkh_prefix = match self.network {
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let p2pkh_prefix = match self.network() {
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Network::Bitcoin => PUBKEY_ADDRESS_PREFIX_MAIN,
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Network::Bitcoin => PUBKEY_ADDRESS_PREFIX_MAIN,
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Network::Testnet | Network::Signet | Network::Regtest => PUBKEY_ADDRESS_PREFIX_TEST,
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Network::Testnet | Network::Signet | Network::Regtest => PUBKEY_ADDRESS_PREFIX_TEST,
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};
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};
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let p2sh_prefix = match self.network {
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let p2sh_prefix = match self.network() {
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Network::Bitcoin => SCRIPT_ADDRESS_PREFIX_MAIN,
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Network::Bitcoin => SCRIPT_ADDRESS_PREFIX_MAIN,
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Network::Testnet | Network::Signet | Network::Regtest => SCRIPT_ADDRESS_PREFIX_TEST,
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Network::Testnet | Network::Signet | Network::Regtest => SCRIPT_ADDRESS_PREFIX_TEST,
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};
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};
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let bech32_hrp = match self.network {
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let bech32_hrp = match self.network() {
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Network::Bitcoin => "bc",
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Network::Bitcoin => "bc",
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Network::Testnet | Network::Signet => "tb",
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Network::Testnet | Network::Signet => "tb",
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Network::Regtest => "bcrt",
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Network::Regtest => "bcrt",
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};
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};
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let encoding =
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let encoding =
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AddressEncoding { payload: &self.payload, p2pkh_prefix, p2sh_prefix, bech32_hrp };
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AddressEncoding { payload: self.payload(), p2pkh_prefix, p2sh_prefix, bech32_hrp };
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use fmt::Display;
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use fmt::Display;
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@ -821,8 +848,8 @@ impl<V: NetworkValidation> Address<V> {
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/// Create new address from given components, infering the network validation
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/// Create new address from given components, infering the network validation
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/// marker type of the address.
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/// marker type of the address.
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#[inline]
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#[inline]
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pub fn new(network: Network, payload: Payload) -> Address<V> {
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pub fn new(network: Network, payload: Payload) -> Self {
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Address { network, payload, _validation: PhantomData }
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Self(AddressInner { network, payload }, PhantomData)
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}
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}
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}
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}
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@ -929,7 +956,7 @@ impl Address {
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}
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}
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/// Generates a script pubkey spending to this address.
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/// Generates a script pubkey spending to this address.
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pub fn script_pubkey(&self) -> ScriptBuf { self.payload.script_pubkey() }
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pub fn script_pubkey(&self) -> ScriptBuf { self.payload().script_pubkey() }
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/// Creates a URI string *bitcoin:address* optimized to be encoded in QR codes.
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/// Creates a URI string *bitcoin:address* optimized to be encoded in QR codes.
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///
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///
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@ -959,7 +986,7 @@ impl Address {
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/// # assert_eq!(writer, ADDRESS);
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/// # assert_eq!(writer, ADDRESS);
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/// ```
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/// ```
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pub fn to_qr_uri(&self) -> String {
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pub fn to_qr_uri(&self) -> String {
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let schema = match self.payload {
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let schema = match self.payload() {
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Payload::WitnessProgram { .. } => "BITCOIN",
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Payload::WitnessProgram { .. } => "BITCOIN",
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_ => "bitcoin",
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_ => "bitcoin",
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};
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};
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@ -973,7 +1000,7 @@ impl Address {
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/// given key. For taproot addresses, the supplied key is assumed to be tweaked
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/// given key. For taproot addresses, the supplied key is assumed to be tweaked
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pub fn is_related_to_pubkey(&self, pubkey: &PublicKey) -> bool {
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pub fn is_related_to_pubkey(&self, pubkey: &PublicKey) -> bool {
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let pubkey_hash = pubkey.pubkey_hash();
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let pubkey_hash = pubkey.pubkey_hash();
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let payload = self.payload.inner_prog_as_bytes();
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let payload = self.payload().inner_prog_as_bytes();
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let xonly_pubkey = XOnlyPublicKey::from(pubkey.inner);
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let xonly_pubkey = XOnlyPublicKey::from(pubkey.inner);
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(*pubkey_hash.as_byte_array() == *payload)
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(*pubkey_hash.as_byte_array() == *payload)
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@ -986,19 +1013,24 @@ impl Address {
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/// This will only work for Taproot addresses. The Public Key is
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/// This will only work for Taproot addresses. The Public Key is
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/// assumed to have already been tweaked.
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/// assumed to have already been tweaked.
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pub fn is_related_to_xonly_pubkey(&self, xonly_pubkey: &XOnlyPublicKey) -> bool {
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pub fn is_related_to_xonly_pubkey(&self, xonly_pubkey: &XOnlyPublicKey) -> bool {
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let payload = self.payload.inner_prog_as_bytes();
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let payload = self.payload().inner_prog_as_bytes();
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payload == xonly_pubkey.serialize()
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payload == xonly_pubkey.serialize()
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}
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}
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/// Returns true if the address creates a particular script
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/// Returns true if the address creates a particular script
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/// This function doesn't make any allocations.
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/// This function doesn't make any allocations.
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pub fn matches_script_pubkey(&self, script_pubkey: &Script) -> bool {
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pub fn matches_script_pubkey(&self, script_pubkey: &Script) -> bool {
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self.payload.matches_script_pubkey(script_pubkey)
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self.payload().matches_script_pubkey(script_pubkey)
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}
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}
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}
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}
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/// Methods that can be called only on `Address<NetworkUnchecked>`.
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/// Methods that can be called only on `Address<NetworkUnchecked>`.
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impl Address<NetworkUnchecked> {
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impl Address<NetworkUnchecked> {
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/// Returns a reference to the checked address.
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/// This function is dangerous in case the address is not a valid checked address.
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pub fn assume_checked_ref(&self) -> &Address {
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unsafe { &*(self as *const Address<NetworkUnchecked> as *const Address) }
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}
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/// Parsed addresses do not always have *one* network. The problem is that legacy testnet,
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/// Parsed addresses do not always have *one* network. The problem is that legacy testnet,
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/// regtest and signet addresse use the same prefix instead of multiple different ones. When
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/// regtest and signet addresse use the same prefix instead of multiple different ones. When
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/// parsing, such addresses are always assumed to be testnet addresses (the same is true for
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/// parsing, such addresses are always assumed to be testnet addresses (the same is true for
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@ -1026,8 +1058,8 @@ impl Address<NetworkUnchecked> {
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_ => false,
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_ => false,
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};
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};
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match (self.network, network) {
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match (self.network(), network) {
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(a, b) if a == b => true,
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(a, b) if *a == b => true,
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(Network::Bitcoin, _) | (_, Network::Bitcoin) => false,
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(Network::Bitcoin, _) | (_, Network::Bitcoin) => false,
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(Network::Regtest, _) | (_, Network::Regtest) if !is_legacy => false,
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(Network::Regtest, _) | (_, Network::Regtest) if !is_legacy => false,
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(Network::Testnet, _) | (Network::Regtest, _) | (Network::Signet, _) => true,
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(Network::Testnet, _) | (Network::Regtest, _) | (Network::Signet, _) => true,
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@ -1043,7 +1075,7 @@ impl Address<NetworkUnchecked> {
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if self.is_valid_for_network(required) {
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if self.is_valid_for_network(required) {
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Ok(self.assume_checked())
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Ok(self.assume_checked())
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} else {
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} else {
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Err(Error::NetworkValidation { found: self.network, required, address: self })
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Err(Error::NetworkValidation { found: *self.network(), required, address: self })
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}
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}
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}
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}
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@ -1054,13 +1086,16 @@ impl Address<NetworkUnchecked> {
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/// For details about this mechanism, see section [*Parsing addresses*](Address#parsing-addresses)
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/// For details about this mechanism, see section [*Parsing addresses*](Address#parsing-addresses)
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/// on [`Address`].
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/// on [`Address`].
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#[inline]
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#[inline]
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pub fn assume_checked(self) -> Address { Address::new(self.network, self.payload) }
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pub fn assume_checked(self) -> Address {
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let (network, payload) = self.into_parts();
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Address::new(network, payload)
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}
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}
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}
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// For NetworkUnchecked , it compare Addresses and if network and payload matches then return true.
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// For NetworkUnchecked , it compare Addresses and if network and payload matches then return true.
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impl PartialEq<Address<NetworkUnchecked>> for Address {
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impl PartialEq<Address<NetworkUnchecked>> for Address {
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fn eq(&self, other: &Address<NetworkUnchecked>) -> bool {
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fn eq(&self, other: &Address<NetworkUnchecked>) -> bool {
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self.network == other.network && self.payload == other.payload
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self.network() == other.network() && self.payload() == other.payload()
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}
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}
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}
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}
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@ -1202,7 +1237,7 @@ mod tests {
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addr,
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addr,
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);
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);
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assert_eq!(
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assert_eq!(
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Address::from_script(&addr.script_pubkey(), addr.network).as_ref(),
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Address::from_script(&addr.script_pubkey(), *addr.network()).as_ref(),
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Ok(addr),
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Ok(addr),
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"script round-trip failed for {}",
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"script round-trip failed for {}",
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addr,
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addr,
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@ -155,7 +155,7 @@ mod message_signing {
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match address.address_type() {
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match address.address_type() {
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Some(AddressType::P2pkh) => {
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Some(AddressType::P2pkh) => {
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let pubkey = self.recover_pubkey(secp_ctx, msg_hash)?;
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let pubkey = self.recover_pubkey(secp_ctx, msg_hash)?;
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Ok(*address == Address::p2pkh(&pubkey, address.network))
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Ok(*address == Address::p2pkh(&pubkey, *address.network()))
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}
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}
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Some(address_type) =>
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Some(address_type) =>
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Err(MessageSignatureError::UnsupportedAddressType(address_type)),
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Err(MessageSignatureError::UnsupportedAddressType(address_type)),
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