Merge pull request #618 from elsirion/possible_networks
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commit
8ae030b951
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@ -367,6 +367,40 @@ impl Address {
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};
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};
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format!("{}:{:#}", schema, self)
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format!("{}:{:#}", schema, self)
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}
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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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/// 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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/// bech32 signet addresses). So if one wants to check if an address belongs to a certain
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/// network a simple comparison is not enough anymore. Instead this function can be used.
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///
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/// ```rust
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/// use bitcoin::{Address, Network};
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///
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/// let address: Address = "2N83imGV3gPwBzKJQvWJ7cRUY2SpUyU6A5e".parse().unwrap();
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/// assert!(address.is_valid_for_network(Network::Testnet));
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/// assert!(address.is_valid_for_network(Network::Regtest));
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/// assert!(address.is_valid_for_network(Network::Signet));
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///
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/// assert_eq!(address.is_valid_for_network(Network::Bitcoin), false);
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///
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/// let address: Address = "32iVBEu4dxkUQk9dJbZUiBiQdmypcEyJRf".parse().unwrap();
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/// assert!(address.is_valid_for_network(Network::Bitcoin));
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/// assert_eq!(address.is_valid_for_network(Network::Testnet), false);
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/// ```
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pub fn is_valid_for_network(&self, network: Network) -> bool {
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let is_legacy = match self.address_type() {
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Some(AddressType::P2pkh) | Some(AddressType::P2sh) => true,
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_ => false
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};
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match (self.network, network) {
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(a, b) if a == b => true,
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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::Testnet, _) | (Network::Regtest, _) | (Network::Signet, _) => true
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}
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}
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}
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}
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// Alternate formatting `{:#}` is used to return uppercase version of bech32 addresses which should
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// Alternate formatting `{:#}` is used to return uppercase version of bech32 addresses which should
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@ -844,4 +878,60 @@ mod tests {
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}
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}
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}
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}
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#[test]
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fn test_valid_networks() {
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let legacy_payload = &[
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Payload::PubkeyHash(PubkeyHash::default()),
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Payload::ScriptHash(ScriptHash::default())
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];
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let segwit_payload = (0..=16).map(|version| {
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Payload::WitnessProgram {
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version: bech32::u5::try_from_u8(version).unwrap(),
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program: vec![]
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}
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}).collect::<Vec<_>>();
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const LEGACY_EQUIVALENCE_CLASSES: &[&[Network]] = &[
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&[Network::Bitcoin],
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&[Network::Testnet, Network::Regtest, Network::Signet],
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];
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const SEGWIT_EQUIVALENCE_CLASSES: &[&[Network]] = &[
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&[Network::Bitcoin],
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&[Network::Regtest],
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&[Network::Testnet, Network::Signet],
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];
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fn test_addr_type(payloads: &[Payload], equivalence_classes: &[&[Network]]) {
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for pl in payloads {
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for addr_net in equivalence_classes.iter().map(|ec| ec.iter()).flatten() {
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for valid_net in equivalence_classes.iter()
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.filter(|ec| ec.contains(addr_net))
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.map(|ec| ec.iter())
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.flatten()
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{
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let addr = Address {
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payload: pl.clone(),
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network: *addr_net
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};
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assert!(addr.is_valid_for_network(*valid_net));
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}
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for invalid_net in equivalence_classes.iter()
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.filter(|ec| !ec.contains(addr_net))
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.map(|ec| ec.iter())
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.flatten()
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{
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let addr = Address {
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payload: pl.clone(),
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network: *addr_net
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};
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assert!(!addr.is_valid_for_network(*invalid_net));
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}
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}
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}
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}
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test_addr_type(legacy_payload, LEGACY_EQUIVALENCE_CLASSES);
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test_addr_type(&segwit_payload, SEGWIT_EQUIVALENCE_CLASSES);
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}
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}
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}
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