rust-bitcoin-unsafe-fast/src/util/bip32.rs

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// Rust Bitcoin Library
// Written in 2014 by
// Andrew Poelstra <apoelstra@wpsoftware.net>
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//
//! BIP32 Implementation
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//!
//! Implementation of BIP32 hierarchical deterministic wallets, as defined
//! at https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki
use std::default::Default;
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use std::{error, fmt};
use std::str::FromStr;
#[cfg(feature = "serde")] use serde;
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use hash_types::XpubIdentifier;
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use hashes::{sha512, Hash, HashEngine, Hmac, HmacEngine};
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use secp256k1::{self, Secp256k1};
use network::constants::Network;
use util::{base58, endian};
use util::key::{PublicKey, PrivateKey};
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/// A chain code
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub struct ChainCode([u8; 32]);
impl_array_newtype!(ChainCode, u8, 32);
impl_array_newtype_show!(ChainCode);
impl_bytes_newtype!(ChainCode, 32);
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/// A fingerprint
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub struct Fingerprint([u8; 4]);
impl_array_newtype!(Fingerprint, u8, 4);
impl_array_newtype_show!(Fingerprint);
impl_bytes_newtype!(Fingerprint, 4);
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impl Default for Fingerprint {
fn default() -> Fingerprint { Fingerprint([0; 4]) }
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}
/// Extended private key
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub struct ExtendedPrivKey {
/// The network this key is to be used on
pub network: Network,
/// How many derivations this key is from the master (which is 0)
pub depth: u8,
/// Fingerprint of the parent key (0 for master)
pub parent_fingerprint: Fingerprint,
/// Child number of the key used to derive from parent (0 for master)
pub child_number: ChildNumber,
/// Private key
pub private_key: PrivateKey,
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/// Chain code
pub chain_code: ChainCode
}
serde_string_impl!(ExtendedPrivKey, "a BIP-32 extended private key");
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/// Extended public key
#[derive(Copy, Clone, PartialEq, Eq, Debug, PartialOrd, Ord, Hash)]
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pub struct ExtendedPubKey {
/// The network this key is to be used on
pub network: Network,
/// How many derivations this key is from the master (which is 0)
pub depth: u8,
/// Fingerprint of the parent key
pub parent_fingerprint: Fingerprint,
/// Child number of the key used to derive from parent (0 for master)
pub child_number: ChildNumber,
/// Public key
pub public_key: PublicKey,
/// Chain code
pub chain_code: ChainCode
}
serde_string_impl!(ExtendedPubKey, "a BIP-32 extended public key");
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/// A child number for a derived key
#[derive(Copy, Clone, PartialEq, Eq, Debug, PartialOrd, Ord, Hash)]
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pub enum ChildNumber {
/// Non-hardened key
Normal {
/// Key index, within [0, 2^31 - 1]
index: u32
},
/// Hardened key
Hardened {
/// Key index, within [0, 2^31 - 1]
index: u32
},
}
impl ChildNumber {
/// Create a [`Normal`] from an index, returns an error if the index is not within
/// [0, 2^31 - 1].
///
/// [`Normal`]: #variant.Normal
pub fn from_normal_idx(index: u32) -> Result<Self, Error> {
if index & (1 << 31) == 0 {
Ok(ChildNumber::Normal { index: index })
} else {
Err(Error::InvalidChildNumber(index))
}
}
/// Create a [`Hardened`] from an index, returns an error if the index is not within
/// [0, 2^31 - 1].
///
/// [`Hardened`]: #variant.Hardened
pub fn from_hardened_idx(index: u32) -> Result<Self, Error> {
if index & (1 << 31) == 0 {
Ok(ChildNumber::Hardened { index: index })
} else {
Err(Error::InvalidChildNumber(index))
}
}
/// Returns `true` if the child number is a [`Normal`] value.
///
/// [`Normal`]: #variant.Normal
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pub fn is_normal(self) -> bool {
!self.is_hardened()
}
/// Returns `true` if the child number is a [`Hardened`] value.
///
/// [`Hardened`]: #variant.Hardened
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pub fn is_hardened(self) -> bool {
match self {
ChildNumber::Hardened {..} => true,
ChildNumber::Normal {..} => false,
}
}
/// Returns the child number that is a single increment from this one.
pub fn increment(self) -> Result<ChildNumber, Error> {
match self {
ChildNumber::Normal{ index: idx } => ChildNumber::from_normal_idx(idx+1),
ChildNumber::Hardened{ index: idx } => ChildNumber::from_hardened_idx(idx+1),
}
}
}
impl From<u32> for ChildNumber {
fn from(number: u32) -> Self {
if number & (1 << 31) != 0 {
ChildNumber::Hardened { index: number ^ (1 << 31) }
} else {
ChildNumber::Normal { index: number }
}
}
}
impl From<ChildNumber> for u32 {
fn from(cnum: ChildNumber) -> Self {
match cnum {
ChildNumber::Normal { index } => index,
ChildNumber::Hardened { index } => index | (1 << 31),
}
}
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}
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impl fmt::Display for ChildNumber {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
ChildNumber::Hardened { index } => write!(f, "{}'", index),
ChildNumber::Normal { index } => write!(f, "{}", index),
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}
}
}
impl FromStr for ChildNumber {
type Err = Error;
fn from_str(inp: &str) -> Result<ChildNumber, Error> {
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let is_hardened = inp.chars().last().map_or(false, |l| l == '\'' || l == 'h');
Ok(if is_hardened {
ChildNumber::from_hardened_idx(inp[0..inp.len() - 1].parse().map_err(|_| Error::InvalidChildNumberFormat)?)?
} else {
ChildNumber::from_normal_idx(inp.parse().map_err(|_| Error::InvalidChildNumberFormat)?)?
})
}
}
#[cfg(feature = "serde")]
impl<'de> serde::Deserialize<'de> for ChildNumber {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
u32::deserialize(deserializer).map(ChildNumber::from)
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}
}
#[cfg(feature = "serde")]
impl serde::Serialize for ChildNumber {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer,
{
u32::from(*self).serialize(serializer)
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}
}
/// A BIP-32 derivation path.
#[derive(Clone, PartialEq, Eq, Ord, PartialOrd, Hash)]
pub struct DerivationPath(Vec<ChildNumber>);
impl_index_newtype!(DerivationPath, ChildNumber);
serde_string_impl!(DerivationPath, "a BIP-32 derivation path");
impl From<Vec<ChildNumber>> for DerivationPath {
fn from(numbers: Vec<ChildNumber>) -> Self {
DerivationPath(numbers)
}
}
impl Into<Vec<ChildNumber>> for DerivationPath {
fn into(self) -> Vec<ChildNumber> {
self.0
}
}
impl<'a> From<&'a [ChildNumber]> for DerivationPath {
fn from(numbers: &'a [ChildNumber]) -> Self {
DerivationPath(numbers.to_vec())
}
}
impl ::std::iter::FromIterator<ChildNumber> for DerivationPath {
fn from_iter<T>(iter: T) -> Self where T: IntoIterator<Item = ChildNumber> {
DerivationPath(Vec::from_iter(iter))
}
}
impl<'a> ::std::iter::IntoIterator for &'a DerivationPath {
type Item = &'a ChildNumber;
type IntoIter = ::std::slice::Iter<'a, ChildNumber>;
fn into_iter(self) -> Self::IntoIter {
self.0.iter()
}
}
impl AsRef<[ChildNumber]> for DerivationPath {
fn as_ref(&self) -> &[ChildNumber] {
&self.0
}
}
impl FromStr for DerivationPath {
type Err = Error;
fn from_str(path: &str) -> Result<DerivationPath, Error> {
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let mut parts = path.split('/');
// First parts must be `m`.
if parts.next().unwrap() != "m" {
return Err(Error::InvalidDerivationPathFormat);
}
let ret: Result<Vec<ChildNumber>, Error> = parts.map(str::parse).collect();
Ok(DerivationPath(ret?))
}
}
/// An iterator over children of a [DerivationPath].
///
/// It is returned by the methods [DerivationPath::children_since],
/// [DerivationPath::normal_children] and [DerivationPath::hardened_children].
pub struct DerivationPathIterator<'a> {
base: &'a DerivationPath,
next_child: Option<ChildNumber>,
}
impl<'a> DerivationPathIterator<'a> {
/// Start a new [DerivationPathIterator] at the given child.
pub fn start_from(path: &'a DerivationPath, start: ChildNumber) -> DerivationPathIterator<'a> {
DerivationPathIterator {
base: path,
next_child: Some(start),
}
}
}
impl<'a> Iterator for DerivationPathIterator<'a> {
type Item = DerivationPath;
fn next(&mut self) -> Option<Self::Item> {
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let ret = self.next_child?;
self.next_child = ret.increment().ok();
Some(self.base.child(ret))
}
}
impl DerivationPath {
/// Create a new [DerivationPath] that is a child of this one.
pub fn child(&self, cn: ChildNumber) -> DerivationPath {
let mut path = self.0.clone();
path.push(cn);
DerivationPath(path)
}
/// Convert into a [DerivationPath] that is a child of this one.
pub fn into_child(self, cn: ChildNumber) -> DerivationPath {
let mut path = self.0;
path.push(cn);
DerivationPath(path)
}
/// Get an [Iterator] over the children of this [DerivationPath]
/// starting with the given [ChildNumber].
pub fn children_from(&self, cn: ChildNumber) -> DerivationPathIterator {
DerivationPathIterator::start_from(&self, cn)
}
/// Get an [Iterator] over the unhardened children of this [DerivationPath].
pub fn normal_children(&self) -> DerivationPathIterator {
DerivationPathIterator::start_from(&self, ChildNumber::Normal{ index: 0 })
}
/// Get an [Iterator] over the hardened children of this [DerivationPath].
pub fn hardened_children(&self) -> DerivationPathIterator {
DerivationPathIterator::start_from(&self, ChildNumber::Hardened{ index: 0 })
}
/// Concatenate `self` with `path` and return the resulting new path.
///
/// ```
/// use bitcoin::util::bip32::{DerivationPath, ChildNumber};
/// use std::str::FromStr;
///
/// let base = DerivationPath::from_str("m/42").unwrap();
///
/// let deriv_1 = base.extend(DerivationPath::from_str("m/0/1").unwrap());
/// let deriv_2 = base.extend(&[
/// ChildNumber::from_normal_idx(0).unwrap(),
/// ChildNumber::from_normal_idx(1).unwrap()
/// ]);
///
/// assert_eq!(deriv_1, deriv_2);
/// ```
pub fn extend<T: AsRef<[ChildNumber]>>(&self, path: T) -> DerivationPath {
let mut new_path = self.clone();
new_path.0.extend_from_slice(path.as_ref());
new_path
}
}
impl fmt::Display for DerivationPath {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("m")?;
for cn in self.0.iter() {
f.write_str("/")?;
fmt::Display::fmt(cn, f)?;
}
Ok(())
}
}
impl fmt::Debug for DerivationPath {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self, f)
}
}
/// Full information on the used extended public key: fingerprint of the
/// master extended public key and a derivation path from it.
pub type KeySource = (Fingerprint, DerivationPath);
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/// A BIP32 error
#[derive(Clone, PartialEq, Eq, Debug)]
pub enum Error {
/// A pk->pk derivation was attempted on a hardened key
CannotDeriveFromHardenedKey,
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/// A secp256k1 error occurred
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Ecdsa(secp256k1::Error),
/// A child number was provided that was out of range
InvalidChildNumber(u32),
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/// Error creating a master seed --- for application use
RngError(String),
/// Invalid childnumber format.
InvalidChildNumberFormat,
/// Invalid derivation path format.
InvalidDerivationPathFormat,
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}
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impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::CannotDeriveFromHardenedKey => f.write_str("cannot derive hardened key from public key"),
Error::Ecdsa(ref e) => fmt::Display::fmt(e, f),
Error::InvalidChildNumber(ref n) => write!(f, "child number {} is invalid (not within [0, 2^31 - 1])", n),
Error::RngError(ref s) => write!(f, "rng error {}", s),
Error::InvalidChildNumberFormat => f.write_str("invalid child number format"),
Error::InvalidDerivationPathFormat => f.write_str("invalid derivation path format"),
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}
}
}
impl error::Error for Error {
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fn cause(&self) -> Option<&dyn error::Error> {
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if let Error::Ecdsa(ref e) = *self {
Some(e)
} else {
None
}
}
}
impl From<secp256k1::Error> for Error {
fn from(e: secp256k1::Error) -> Error { Error::Ecdsa(e) }
}
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impl ExtendedPrivKey {
/// Construct a new master key from a seed value
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pub fn new_master(network: Network, seed: &[u8]) -> Result<ExtendedPrivKey, Error> {
let mut hmac_engine: HmacEngine<sha512::Hash> = HmacEngine::new(b"Bitcoin seed");
hmac_engine.input(seed);
let hmac_result: Hmac<sha512::Hash> = Hmac::from_engine(hmac_engine);
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Ok(ExtendedPrivKey {
network: network,
depth: 0,
parent_fingerprint: Default::default(),
child_number: ChildNumber::from_normal_idx(0)?,
private_key: PrivateKey {
compressed: true,
network: network,
key: secp256k1::SecretKey::from_slice(
&hmac_result[..32]
).map_err(Error::Ecdsa)?,
},
chain_code: ChainCode::from(&hmac_result[32..]),
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})
}
/// Attempts to derive an extended private key from a path.
///
/// The `path` argument can be both of type `DerivationPath` or `Vec<ChildNumber>`.
pub fn derive_priv<C: secp256k1::Signing, P: AsRef<[ChildNumber]>>(
&self,
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secp: &Secp256k1<C>,
path: &P,
) -> Result<ExtendedPrivKey, Error> {
let mut sk: ExtendedPrivKey = *self;
for cnum in path.as_ref() {
sk = sk.ckd_priv(secp, *cnum)?;
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}
Ok(sk)
}
/// Private->Private child key derivation
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pub fn ckd_priv<C: secp256k1::Signing>(&self, secp: &Secp256k1<C>, i: ChildNumber) -> Result<ExtendedPrivKey, Error> {
let mut hmac_engine: HmacEngine<sha512::Hash> = HmacEngine::new(&self.chain_code[..]);
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match i {
ChildNumber::Normal {..} => {
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// Non-hardened key: compute public data and use that
hmac_engine.input(&PublicKey::from_private_key(secp, &self.private_key).key.serialize()[..]);
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}
ChildNumber::Hardened {..} => {
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// Hardened key: use only secret data to prevent public derivation
hmac_engine.input(&[0u8]);
hmac_engine.input(&self.private_key[..]);
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}
}
hmac_engine.input(&endian::u32_to_array_be(u32::from(i)));
let hmac_result: Hmac<sha512::Hash> = Hmac::from_engine(hmac_engine);
let mut sk = PrivateKey {
compressed: true,
network: self.network,
key: secp256k1::SecretKey::from_slice(&hmac_result[..32]).map_err(Error::Ecdsa)?,
};
sk.key.add_assign(&self.private_key[..]).map_err(Error::Ecdsa)?;
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Ok(ExtendedPrivKey {
network: self.network,
depth: self.depth + 1,
parent_fingerprint: self.fingerprint(secp),
child_number: i,
private_key: sk,
chain_code: ChainCode::from(&hmac_result[32..])
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})
}
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/// Returns the HASH160 of the public key belonging to the xpriv
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pub fn identifier<C: secp256k1::Signing>(&self, secp: &Secp256k1<C>) -> XpubIdentifier {
ExtendedPubKey::from_private(secp, self).identifier()
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}
/// Returns the first four bytes of the identifier
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pub fn fingerprint<C: secp256k1::Signing>(&self, secp: &Secp256k1<C>) -> Fingerprint {
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Fingerprint::from(&self.identifier(secp)[0..4])
}
}
impl ExtendedPubKey {
/// Derives a public key from a private key
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pub fn from_private<C: secp256k1::Signing>(secp: &Secp256k1<C>, sk: &ExtendedPrivKey) -> ExtendedPubKey {
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ExtendedPubKey {
network: sk.network,
depth: sk.depth,
parent_fingerprint: sk.parent_fingerprint,
child_number: sk.child_number,
public_key: PublicKey::from_private_key(secp, &sk.private_key),
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chain_code: sk.chain_code
}
}
/// Attempts to derive an extended public key from a path.
///
/// The `path` argument can be both of type `DerivationPath` or `Vec<ChildNumber>`.
pub fn derive_pub<C: secp256k1::Verification, P: AsRef<[ChildNumber]>>(
&self,
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secp: &Secp256k1<C>,
path: &P,
) -> Result<ExtendedPubKey, Error> {
let mut pk: ExtendedPubKey = *self;
for cnum in path.as_ref() {
pk = pk.ckd_pub(secp, *cnum)?
}
Ok(pk)
}
/// Compute the scalar tweak added to this key to get a child key
pub fn ckd_pub_tweak(&self, i: ChildNumber) -> Result<(PrivateKey, ChainCode), Error> {
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match i {
ChildNumber::Hardened {..} => {
Err(Error::CannotDeriveFromHardenedKey)
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}
ChildNumber::Normal { index: n } => {
let mut hmac_engine: HmacEngine<sha512::Hash> = HmacEngine::new(&self.chain_code[..]);
hmac_engine.input(&self.public_key.key.serialize()[..]);
hmac_engine.input(&endian::u32_to_array_be(n));
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let hmac_result: Hmac<sha512::Hash> = Hmac::from_engine(hmac_engine);
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let private_key = PrivateKey {
compressed: true,
network: self.network,
key: secp256k1::SecretKey::from_slice(&hmac_result[..32])?,
};
let chain_code = ChainCode::from(&hmac_result[32..]);
Ok((private_key, chain_code))
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}
}
}
/// Public->Public child key derivation
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pub fn ckd_pub<C: secp256k1::Verification>(
&self,
secp: &Secp256k1<C>,
i: ChildNumber,
) -> Result<ExtendedPubKey, Error> {
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let (sk, chain_code) = self.ckd_pub_tweak(i)?;
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let mut pk = self.public_key;
pk.key.add_exp_assign(secp, &sk[..]).map_err(Error::Ecdsa)?;
Ok(ExtendedPubKey {
network: self.network,
depth: self.depth + 1,
parent_fingerprint: self.fingerprint(),
child_number: i,
public_key: pk,
chain_code: chain_code
})
}
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/// Returns the HASH160 of the public key of the xpub
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pub fn identifier(&self) -> XpubIdentifier {
let mut engine = XpubIdentifier::engine();
self.public_key.write_into(&mut engine);
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XpubIdentifier::from_engine(engine)
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}
/// Returns the first four bytes of the identifier
pub fn fingerprint(&self) -> Fingerprint {
Fingerprint::from(&self.identifier()[0..4])
}
}
impl fmt::Display for ExtendedPrivKey {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let mut ret = [0; 78];
ret[0..4].copy_from_slice(&match self.network {
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Network::Bitcoin => [0x04, 0x88, 0xAD, 0xE4],
Network::Testnet | Network::Regtest => [0x04, 0x35, 0x83, 0x94],
}[..]);
ret[4] = self.depth as u8;
ret[5..9].copy_from_slice(&self.parent_fingerprint[..]);
ret[9..13].copy_from_slice(&endian::u32_to_array_be(u32::from(self.child_number)));
ret[13..45].copy_from_slice(&self.chain_code[..]);
ret[45] = 0;
ret[46..78].copy_from_slice(&self.private_key[..]);
fmt.write_str(&base58::check_encode_slice(&ret[..]))
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}
}
impl FromStr for ExtendedPrivKey {
type Err = base58::Error;
fn from_str(inp: &str) -> Result<ExtendedPrivKey, base58::Error> {
let data = base58::from_check(inp)?;
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if data.len() != 78 {
return Err(base58::Error::InvalidLength(data.len()));
}
let cn_int: u32 = endian::slice_to_u32_be(&data[9..13]);
let child_number: ChildNumber = ChildNumber::from(cn_int);
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let network = if data[0..4] == [0x04u8, 0x88, 0xAD, 0xE4] {
Network::Bitcoin
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} else if data[0..4] == [0x04u8, 0x35, 0x83, 0x94] {
Network::Testnet
} else {
return Err(base58::Error::InvalidVersion((&data[0..4]).to_vec()));
};
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Ok(ExtendedPrivKey {
network: network,
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depth: data[4],
parent_fingerprint: Fingerprint::from(&data[5..9]),
child_number: child_number,
chain_code: ChainCode::from(&data[13..45]),
private_key: PrivateKey {
compressed: true,
network: network,
key: secp256k1::SecretKey::from_slice(
&data[46..78]
).map_err(|e|
base58::Error::Other(e.to_string())
)?,
},
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})
}
}
impl fmt::Display for ExtendedPubKey {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let mut ret = [0; 78];
ret[0..4].copy_from_slice(&match self.network {
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Network::Bitcoin => [0x04u8, 0x88, 0xB2, 0x1E],
Network::Testnet | Network::Regtest => [0x04u8, 0x35, 0x87, 0xCF],
}[..]);
ret[4] = self.depth as u8;
ret[5..9].copy_from_slice(&self.parent_fingerprint[..]);
ret[9..13].copy_from_slice(&endian::u32_to_array_be(u32::from(self.child_number)));
ret[13..45].copy_from_slice(&self.chain_code[..]);
ret[45..78].copy_from_slice(&self.public_key.key.serialize()[..]);
fmt.write_str(&base58::check_encode_slice(&ret[..]))
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}
}
impl FromStr for ExtendedPubKey {
type Err = base58::Error;
fn from_str(inp: &str) -> Result<ExtendedPubKey, base58::Error> {
let data = base58::from_check(inp)?;
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if data.len() != 78 {
return Err(base58::Error::InvalidLength(data.len()));
}
let cn_int: u32 = endian::slice_to_u32_be(&data[9..13]);
let child_number: ChildNumber = ChildNumber::from(cn_int);
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Ok(ExtendedPubKey {
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network: if data[0..4] == [0x04u8, 0x88, 0xB2, 0x1E] {
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Network::Bitcoin
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} else if data[0..4] == [0x04u8, 0x35, 0x87, 0xCF] {
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Network::Testnet
} else {
return Err(base58::Error::InvalidVersion((&data[0..4]).to_vec()));
},
depth: data[4],
parent_fingerprint: Fingerprint::from(&data[5..9]),
child_number: child_number,
chain_code: ChainCode::from(&data[13..45]),
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public_key: PublicKey::from_slice(
&data[45..78]).map_err(|e|
base58::Error::Other(e.to_string()))?
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})
}
}
#[cfg(test)]
mod tests {
use super::*;
use super::ChildNumber::{Hardened, Normal};
use std::str::FromStr;
use std::string::ToString;
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use secp256k1::{self, Secp256k1};
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use hashes::hex::FromHex;
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use network::constants::Network::{self, Bitcoin};
#[test]
fn test_parse_derivation_path() {
assert_eq!(DerivationPath::from_str("42"), Err(Error::InvalidDerivationPathFormat));
assert_eq!(DerivationPath::from_str("n/0'/0"), Err(Error::InvalidDerivationPathFormat));
assert_eq!(DerivationPath::from_str("4/m/5"), Err(Error::InvalidDerivationPathFormat));
assert_eq!(DerivationPath::from_str("m//3/0'"), Err(Error::InvalidChildNumberFormat));
assert_eq!(DerivationPath::from_str("m/0h/0x"), Err(Error::InvalidChildNumberFormat));
assert_eq!(DerivationPath::from_str("m/2147483648"), Err(Error::InvalidChildNumber(2147483648)));
assert_eq!(DerivationPath::from_str("m"), Ok(vec![].into()));
assert_eq!(
DerivationPath::from_str("m/0'"),
Ok(vec![ChildNumber::from_hardened_idx(0).unwrap()].into())
);
assert_eq!(
DerivationPath::from_str("m/0'/1"),
Ok(vec![ChildNumber::from_hardened_idx(0).unwrap(), ChildNumber::from_normal_idx(1).unwrap()].into())
);
assert_eq!(
DerivationPath::from_str("m/0h/1/2'"),
Ok(vec![
ChildNumber::from_hardened_idx(0).unwrap(),
ChildNumber::from_normal_idx(1).unwrap(),
ChildNumber::from_hardened_idx(2).unwrap(),
].into())
);
assert_eq!(
DerivationPath::from_str("m/0'/1/2h/2"),
Ok(vec![
ChildNumber::from_hardened_idx(0).unwrap(),
ChildNumber::from_normal_idx(1).unwrap(),
ChildNumber::from_hardened_idx(2).unwrap(),
ChildNumber::from_normal_idx(2).unwrap(),
].into())
);
assert_eq!(
DerivationPath::from_str("m/0'/1/2'/2/1000000000"),
Ok(vec![
ChildNumber::from_hardened_idx(0).unwrap(),
ChildNumber::from_normal_idx(1).unwrap(),
ChildNumber::from_hardened_idx(2).unwrap(),
ChildNumber::from_normal_idx(2).unwrap(),
ChildNumber::from_normal_idx(1000000000).unwrap(),
].into())
);
}
#[test]
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fn test_derivation_path_conversion_index() {
let path = DerivationPath::from_str("m/0h/1/2'").unwrap();
let numbers: Vec<ChildNumber> = path.clone().into();
let path2: DerivationPath = numbers.into();
assert_eq!(path, path2);
assert_eq!(&path[..2], &[ChildNumber::from_hardened_idx(0).unwrap(), ChildNumber::from_normal_idx(1).unwrap()]);
let indexed: DerivationPath = path[..2].into();
assert_eq!(indexed, DerivationPath::from_str("m/0h/1").unwrap());
assert_eq!(indexed.child(ChildNumber::from_hardened_idx(2).unwrap()), path);
}
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fn test_path<C: secp256k1::Signing + secp256k1::Verification>(secp: &Secp256k1<C>,
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network: Network,
seed: &[u8],
path: DerivationPath,
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expected_sk: &str,
expected_pk: &str) {
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let mut sk = ExtendedPrivKey::new_master(network, seed).unwrap();
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let mut pk = ExtendedPubKey::from_private(secp, &sk);
// Check derivation convenience method for ExtendedPrivKey
assert_eq!(
&sk.derive_priv(secp, &path).unwrap().to_string()[..],
expected_sk
);
// Check derivation convenience method for ExtendedPubKey, should error
// appropriately if any ChildNumber is hardened
if path.0.iter().any(|cnum| cnum.is_hardened()) {
assert_eq!(
pk.derive_pub(secp, &path),
Err(Error::CannotDeriveFromHardenedKey)
);
} else {
assert_eq!(
&pk.derive_pub(secp, &path).unwrap().to_string()[..],
expected_pk
);
}
// Derive keys, checking hardened and non-hardened derivation one-by-one
for &num in path.0.iter() {
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sk = sk.ckd_priv(secp, num).unwrap();
match num {
Normal {..} => {
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let pk2 = pk.ckd_pub(secp, num).unwrap();
pk = ExtendedPubKey::from_private(secp, &sk);
assert_eq!(pk, pk2);
}
Hardened {..} => {
assert_eq!(
pk.ckd_pub(secp, num),
Err(Error::CannotDeriveFromHardenedKey)
);
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pk = ExtendedPubKey::from_private(secp, &sk);
}
}
}
// Check result against expected base58
assert_eq!(&sk.to_string()[..], expected_sk);
assert_eq!(&pk.to_string()[..], expected_pk);
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// Check decoded base58 against result
let decoded_sk = ExtendedPrivKey::from_str(expected_sk);
let decoded_pk = ExtendedPubKey::from_str(expected_pk);
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assert_eq!(Ok(sk), decoded_sk);
assert_eq!(Ok(pk), decoded_pk);
}
#[test]
fn test_increment() {
let idx = 9345497; // randomly generated, I promise
let cn = ChildNumber::from_normal_idx(idx).unwrap();
assert_eq!(cn.increment().ok(), Some(ChildNumber::from_normal_idx(idx+1).unwrap()));
let cn = ChildNumber::from_hardened_idx(idx).unwrap();
assert_eq!(cn.increment().ok(), Some(ChildNumber::from_hardened_idx(idx+1).unwrap()));
let max = (1<<31)-1;
let cn = ChildNumber::from_normal_idx(max).unwrap();
assert_eq!(cn.increment().err(), Some(Error::InvalidChildNumber(1<<31)));
let cn = ChildNumber::from_hardened_idx(max).unwrap();
assert_eq!(cn.increment().err(), Some(Error::InvalidChildNumber(1<<31)));
let cn = ChildNumber::from_normal_idx(350).unwrap();
let path = DerivationPath::from_str("m/42'").unwrap();
let mut iter = path.children_from(cn);
assert_eq!(iter.next(), Some("m/42'/350".parse().unwrap()));
assert_eq!(iter.next(), Some("m/42'/351".parse().unwrap()));
let path = DerivationPath::from_str("m/42'/350'").unwrap();
let mut iter = path.normal_children();
assert_eq!(iter.next(), Some("m/42'/350'/0".parse().unwrap()));
assert_eq!(iter.next(), Some("m/42'/350'/1".parse().unwrap()));
let path = DerivationPath::from_str("m/42'/350'").unwrap();
let mut iter = path.hardened_children();
assert_eq!(iter.next(), Some("m/42'/350'/0'".parse().unwrap()));
assert_eq!(iter.next(), Some("m/42'/350'/1'".parse().unwrap()));
let cn = ChildNumber::from_hardened_idx(42350).unwrap();
let path = DerivationPath::from_str("m/42'").unwrap();
let mut iter = path.children_from(cn);
assert_eq!(iter.next(), Some("m/42'/42350'".parse().unwrap()));
assert_eq!(iter.next(), Some("m/42'/42351'".parse().unwrap()));
let cn = ChildNumber::from_hardened_idx(max).unwrap();
let path = DerivationPath::from_str("m/42'").unwrap();
let mut iter = path.children_from(cn);
assert!(iter.next().is_some());
assert!(iter.next().is_none());
}
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#[test]
fn test_vector_1() {
let secp = Secp256k1::new();
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let seed = Vec::from_hex("000102030405060708090a0b0c0d0e0f").unwrap();
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// m
test_path(&secp, Bitcoin, &seed, "m".parse().unwrap(),
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"xprv9s21ZrQH143K3QTDL4LXw2F7HEK3wJUD2nW2nRk4stbPy6cq3jPPqjiChkVvvNKmPGJxWUtg6LnF5kejMRNNU3TGtRBeJgk33yuGBxrMPHi",
"xpub661MyMwAqRbcFtXgS5sYJABqqG9YLmC4Q1Rdap9gSE8NqtwybGhePY2gZ29ESFjqJoCu1Rupje8YtGqsefD265TMg7usUDFdp6W1EGMcet8");
// m/0h
test_path(&secp, Bitcoin, &seed, "m/0h".parse().unwrap(),
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"xprv9uHRZZhk6KAJC1avXpDAp4MDc3sQKNxDiPvvkX8Br5ngLNv1TxvUxt4cV1rGL5hj6KCesnDYUhd7oWgT11eZG7XnxHrnYeSvkzY7d2bhkJ7",
"xpub68Gmy5EdvgibQVfPdqkBBCHxA5htiqg55crXYuXoQRKfDBFA1WEjWgP6LHhwBZeNK1VTsfTFUHCdrfp1bgwQ9xv5ski8PX9rL2dZXvgGDnw");
// m/0h/1
test_path(&secp, Bitcoin, &seed, "m/0h/1".parse().unwrap(),
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"xprv9wTYmMFdV23N2TdNG573QoEsfRrWKQgWeibmLntzniatZvR9BmLnvSxqu53Kw1UmYPxLgboyZQaXwTCg8MSY3H2EU4pWcQDnRnrVA1xe8fs",
"xpub6ASuArnXKPbfEwhqN6e3mwBcDTgzisQN1wXN9BJcM47sSikHjJf3UFHKkNAWbWMiGj7Wf5uMash7SyYq527Hqck2AxYysAA7xmALppuCkwQ");
// m/0h/1/2h
test_path(&secp, Bitcoin, &seed, "m/0h/1/2h".parse().unwrap(),
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"xprv9z4pot5VBttmtdRTWfWQmoH1taj2axGVzFqSb8C9xaxKymcFzXBDptWmT7FwuEzG3ryjH4ktypQSAewRiNMjANTtpgP4mLTj34bhnZX7UiM",
"xpub6D4BDPcP2GT577Vvch3R8wDkScZWzQzMMUm3PWbmWvVJrZwQY4VUNgqFJPMM3No2dFDFGTsxxpG5uJh7n7epu4trkrX7x7DogT5Uv6fcLW5");
// m/0h/1/2h/2
test_path(&secp, Bitcoin, &seed, "m/0h/1/2h/2".parse().unwrap(),
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"xprvA2JDeKCSNNZky6uBCviVfJSKyQ1mDYahRjijr5idH2WwLsEd4Hsb2Tyh8RfQMuPh7f7RtyzTtdrbdqqsunu5Mm3wDvUAKRHSC34sJ7in334",
"xpub6FHa3pjLCk84BayeJxFW2SP4XRrFd1JYnxeLeU8EqN3vDfZmbqBqaGJAyiLjTAwm6ZLRQUMv1ZACTj37sR62cfN7fe5JnJ7dh8zL4fiyLHV");
// m/0h/1/2h/2/1000000000
test_path(&secp, Bitcoin, &seed, "m/0h/1/2h/2/1000000000".parse().unwrap(),
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"xprvA41z7zogVVwxVSgdKUHDy1SKmdb533PjDz7J6N6mV6uS3ze1ai8FHa8kmHScGpWmj4WggLyQjgPie1rFSruoUihUZREPSL39UNdE3BBDu76",
"xpub6H1LXWLaKsWFhvm6RVpEL9P4KfRZSW7abD2ttkWP3SSQvnyA8FSVqNTEcYFgJS2UaFcxupHiYkro49S8yGasTvXEYBVPamhGW6cFJodrTHy");
}
#[test]
fn test_vector_2() {
let secp = Secp256k1::new();
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let seed = Vec::from_hex("fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542").unwrap();
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// m
test_path(&secp, Bitcoin, &seed, "m".parse().unwrap(),
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"xprv9s21ZrQH143K31xYSDQpPDxsXRTUcvj2iNHm5NUtrGiGG5e2DtALGdso3pGz6ssrdK4PFmM8NSpSBHNqPqm55Qn3LqFtT2emdEXVYsCzC2U",
"xpub661MyMwAqRbcFW31YEwpkMuc5THy2PSt5bDMsktWQcFF8syAmRUapSCGu8ED9W6oDMSgv6Zz8idoc4a6mr8BDzTJY47LJhkJ8UB7WEGuduB");
// m/0
test_path(&secp, Bitcoin, &seed, "m/0".parse().unwrap(),
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"xprv9vHkqa6EV4sPZHYqZznhT2NPtPCjKuDKGY38FBWLvgaDx45zo9WQRUT3dKYnjwih2yJD9mkrocEZXo1ex8G81dwSM1fwqWpWkeS3v86pgKt",
"xpub69H7F5d8KSRgmmdJg2KhpAK8SR3DjMwAdkxj3ZuxV27CprR9LgpeyGmXUbC6wb7ERfvrnKZjXoUmmDznezpbZb7ap6r1D3tgFxHmwMkQTPH");
// m/0/2147483647h
test_path(&secp, Bitcoin, &seed, "m/0/2147483647h".parse().unwrap(),
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"xprv9wSp6B7kry3Vj9m1zSnLvN3xH8RdsPP1Mh7fAaR7aRLcQMKTR2vidYEeEg2mUCTAwCd6vnxVrcjfy2kRgVsFawNzmjuHc2YmYRmagcEPdU9",
"xpub6ASAVgeehLbnwdqV6UKMHVzgqAG8Gr6riv3Fxxpj8ksbH9ebxaEyBLZ85ySDhKiLDBrQSARLq1uNRts8RuJiHjaDMBU4Zn9h8LZNnBC5y4a");
// m/0/2147483647h/1
test_path(&secp, Bitcoin, &seed, "m/0/2147483647h/1".parse().unwrap(),
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"xprv9zFnWC6h2cLgpmSA46vutJzBcfJ8yaJGg8cX1e5StJh45BBciYTRXSd25UEPVuesF9yog62tGAQtHjXajPPdbRCHuWS6T8XA2ECKADdw4Ef",
"xpub6DF8uhdarytz3FWdA8TvFSvvAh8dP3283MY7p2V4SeE2wyWmG5mg5EwVvmdMVCQcoNJxGoWaU9DCWh89LojfZ537wTfunKau47EL2dhHKon");
// m/0/2147483647h/1/2147483646h
test_path(&secp, Bitcoin, &seed, "m/0/2147483647h/1/2147483646h".parse().unwrap(),
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"xprvA1RpRA33e1JQ7ifknakTFpgNXPmW2YvmhqLQYMmrj4xJXXWYpDPS3xz7iAxn8L39njGVyuoseXzU6rcxFLJ8HFsTjSyQbLYnMpCqE2VbFWc",
"xpub6ERApfZwUNrhLCkDtcHTcxd75RbzS1ed54G1LkBUHQVHQKqhMkhgbmJbZRkrgZw4koxb5JaHWkY4ALHY2grBGRjaDMzQLcgJvLJuZZvRcEL");
// m/0/2147483647h/1/2147483646h/2
test_path(&secp, Bitcoin, &seed, "m/0/2147483647h/1/2147483646h/2".parse().unwrap(),
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"xprvA2nrNbFZABcdryreWet9Ea4LvTJcGsqrMzxHx98MMrotbir7yrKCEXw7nadnHM8Dq38EGfSh6dqA9QWTyefMLEcBYJUuekgW4BYPJcr9E7j",
"xpub6FnCn6nSzZAw5Tw7cgR9bi15UV96gLZhjDstkXXxvCLsUXBGXPdSnLFbdpq8p9HmGsApME5hQTZ3emM2rnY5agb9rXpVGyy3bdW6EEgAtqt");
}
#[test]
fn test_vector_3() {
let secp = Secp256k1::new();
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let seed = Vec::from_hex("4b381541583be4423346c643850da4b320e46a87ae3d2a4e6da11eba819cd4acba45d239319ac14f863b8d5ab5a0d0c64d2e8a1e7d1457df2e5a3c51c73235be").unwrap();
// m
test_path(&secp, Bitcoin, &seed, "m".parse().unwrap(),
"xprv9s21ZrQH143K25QhxbucbDDuQ4naNntJRi4KUfWT7xo4EKsHt2QJDu7KXp1A3u7Bi1j8ph3EGsZ9Xvz9dGuVrtHHs7pXeTzjuxBrCmmhgC6",
"xpub661MyMwAqRbcEZVB4dScxMAdx6d4nFc9nvyvH3v4gJL378CSRZiYmhRoP7mBy6gSPSCYk6SzXPTf3ND1cZAceL7SfJ1Z3GC8vBgp2epUt13");
// m/0h
test_path(&secp, Bitcoin, &seed, "m/0h".parse().unwrap(),
"xprv9uPDJpEQgRQfDcW7BkF7eTya6RPxXeJCqCJGHuCJ4GiRVLzkTXBAJMu2qaMWPrS7AANYqdq6vcBcBUdJCVVFceUvJFjaPdGZ2y9WACViL4L",
"xpub68NZiKmJWnxxS6aaHmn81bvJeTESw724CRDs6HbuccFQN9Ku14VQrADWgqbhhTHBaohPX4CjNLf9fq9MYo6oDaPPLPxSb7gwQN3ih19Zm4Y");
}
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#[test]
#[cfg(feature = "serde")]
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pub fn encode_decode_childnumber() {
serde_round_trip!(ChildNumber::from_normal_idx(0).unwrap());
serde_round_trip!(ChildNumber::from_normal_idx(1).unwrap());
serde_round_trip!(ChildNumber::from_normal_idx((1 << 31) - 1).unwrap());
serde_round_trip!(ChildNumber::from_hardened_idx(0).unwrap());
serde_round_trip!(ChildNumber::from_hardened_idx(1).unwrap());
serde_round_trip!(ChildNumber::from_hardened_idx((1 << 31) - 1).unwrap());
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}
#[test]
#[cfg(feature = "serde")]
pub fn encode_fingerprint_chaincode() {
use serde_json;
let fp = Fingerprint::from(&[1u8,2,3,42][..]);
let cc = ChainCode::from(
&[1u8,2,3,4,5,6,7,8,9,0,1,2,3,4,5,6,7,8,9,0,1,2,3,4,5,6,7,8,9,0,1,2][..]
);
serde_round_trip!(fp);
serde_round_trip!(cc);
assert_eq!("\"0102032a\"", serde_json::to_string(&fp).unwrap());
assert_eq!(
"\"0102030405060708090001020304050607080900010203040506070809000102\"",
serde_json::to_string(&cc).unwrap()
);
assert_eq!("0102032a", fp.to_string());
assert_eq!(
"0102030405060708090001020304050607080900010203040506070809000102",
cc.to_string()
);
}
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}