ryansquared/keyfork-mnemonic-refactors #49

Manually merged
ryan merged 5 commits from ryansquared/keyfork-mnemonic-refactors into main 2024-08-05 22:01:41 +00:00
5 changed files with 53 additions and 30 deletions
Showing only changes of commit f5627e5bd9 - Show all commits

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@ -249,7 +249,7 @@ pub trait Format {
// create our shared key // create our shared key
let our_key = EphemeralSecret::random(); let our_key = EphemeralSecret::random();
let our_pubkey_mnemonic = Mnemonic::from_bytes(PublicKey::from(&our_key).as_bytes())?; let our_pubkey_mnemonic = Mnemonic::try_from_slice(PublicKey::from(&our_key).as_bytes())?;
let shared_secret = our_key.diffie_hellman(&PublicKey::from(their_pubkey)); let shared_secret = our_key.diffie_hellman(&PublicKey::from(their_pubkey));
assert!( assert!(
shared_secret.was_contributory(), shared_secret.was_contributory(),
@ -302,7 +302,7 @@ pub trait Format {
let mut mnemonic_bytes = [0u8; ENCRYPTED_LENGTH as usize]; let mut mnemonic_bytes = [0u8; ENCRYPTED_LENGTH as usize];
mnemonic_bytes.copy_from_slice(&encrypted_bytes); mnemonic_bytes.copy_from_slice(&encrypted_bytes);
let payload_mnemonic = Mnemonic::from_nonstandard_bytes(mnemonic_bytes); let payload_mnemonic = Mnemonic::from_array(mnemonic_bytes);
#[cfg(feature = "qrcode")] #[cfg(feature = "qrcode")]
{ {
@ -439,7 +439,7 @@ pub fn remote_decrypt(w: &mut impl Write) -> Result<(), Box<dyn std::error::Erro
while iter_count.is_none() || iter_count.is_some_and(|i| i > 0) { while iter_count.is_none() || iter_count.is_some_and(|i| i > 0) {
iter += 1; iter += 1;
let our_key = EphemeralSecret::random(); let our_key = EphemeralSecret::random();
let key_mnemonic = Mnemonic::from_bytes(PublicKey::from(&our_key).as_bytes())?; let key_mnemonic = Mnemonic::try_from_slice(PublicKey::from(&our_key).as_bytes())?;
#[cfg(feature = "qrcode")] #[cfg(feature = "qrcode")]
{ {

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@ -109,7 +109,7 @@ impl MnemonicSeedSource {
MnemonicSeedSource::Tarot => todo!(), MnemonicSeedSource::Tarot => todo!(),
MnemonicSeedSource::Dice => todo!(), MnemonicSeedSource::Dice => todo!(),
}; };
let mnemonic = keyfork_mnemonic_util::Mnemonic::from_bytes(&seed)?; let mnemonic = keyfork_mnemonic_util::Mnemonic::try_from_slice(&seed)?;
Ok(mnemonic.to_string()) Ok(mnemonic.to_string())
} }
} }

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@ -85,7 +85,7 @@ pub struct Recover {
impl Recover { impl Recover {
pub fn handle(&self, _k: &Keyfork) -> Result<()> { pub fn handle(&self, _k: &Keyfork) -> Result<()> {
let seed = self.command.handle()?; let seed = self.command.handle()?;
let mnemonic = Mnemonic::from_bytes(&seed)?; let mnemonic = Mnemonic::try_from_slice(&seed)?;
tokio::runtime::Builder::new_multi_thread() tokio::runtime::Builder::new_multi_thread()
.enable_all() .enable_all()
.build() .build()

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@ -195,7 +195,7 @@ fn generate_shard_secret(
fn bottoms_up(key_discovery: &Path, threshold: u8, output_shardfile: &Path, output_cert: &Path, user_id: &str,) -> Result<()> { fn bottoms_up(key_discovery: &Path, threshold: u8, output_shardfile: &Path, output_cert: &Path, user_id: &str,) -> Result<()> {
let entropy = keyfork_entropy::generate_entropy_of_const_size::<{ 256 / 8 }>()?; let entropy = keyfork_entropy::generate_entropy_of_const_size::<{ 256 / 8 }>()?;
let mnemonic = Mnemonic::from_nonstandard_bytes(entropy); let mnemonic = Mnemonic::from_array(entropy);
let seed = mnemonic.generate_seed(None); let seed = mnemonic.generate_seed(None);
// TODO: should this allow for customizing the account index from 0? Potential for key reuse // TODO: should this allow for customizing the account index from 0? Potential for key reuse

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@ -6,7 +6,7 @@
//! use keyfork_mnemonic_util::Mnemonic; //! use keyfork_mnemonic_util::Mnemonic;
//! let data = b"Hello, world! I am a mnemonic :)"; //! let data = b"Hello, world! I am a mnemonic :)";
//! assert_eq!(data.len(), 32); //! assert_eq!(data.len(), 32);
//! let mnemonic = Mnemonic::from_bytes(data).unwrap(); //! let mnemonic = Mnemonic::try_from_slice(data).unwrap();
//! println!("Our mnemonic is: {mnemonic}"); //! println!("Our mnemonic is: {mnemonic}");
//! ``` //! ```
//! //!
@ -270,9 +270,9 @@ where
/// ```rust /// ```rust
/// use keyfork_mnemonic_util::Mnemonic; /// use keyfork_mnemonic_util::Mnemonic;
/// let data = b"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; /// let data = b"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA";
/// let mnemonic = Mnemonic::from_bytes(data.as_slice()).unwrap(); /// let mnemonic = Mnemonic::try_from_slice(data.as_slice()).unwrap();
/// ``` /// ```
pub fn from_bytes(bytes: &[u8]) -> Result<MnemonicBase<W>, MnemonicGenerationError> { pub fn try_from_slice(bytes: &[u8]) -> Result<MnemonicBase<W>, MnemonicGenerationError> {
let bit_count = bytes.len() * 8; let bit_count = bytes.len() * 8;
if bit_count % 32 != 0 { if bit_count % 32 != 0 {
@ -292,21 +292,21 @@ where
/// ```rust /// ```rust
/// use keyfork_mnemonic_util::Mnemonic; /// use keyfork_mnemonic_util::Mnemonic;
/// let data = b"hello world!"; /// let data = b"hello world!";
/// let mnemonic = Mnemonic::from_nonstandard_bytes(*data); /// let mnemonic = Mnemonic::from_array(*data);
/// ``` /// ```
/// ///
/// If an invalid size is requested, the code will fail to compile: /// If an invalid size is requested, the code will fail to compile:
/// ///
/// ```rust,compile_fail /// ```rust,compile_fail
/// use keyfork_mnemonic_util::Mnemonic; /// use keyfork_mnemonic_util::Mnemonic;
/// let mnemonic = Mnemonic::from_nonstandard_bytes([0u8; 53]); /// let mnemonic = Mnemonic::from_array([0u8; 53]);
/// ``` /// ```
/// ///
/// ```rust,compile_fail /// ```rust,compile_fail
/// use keyfork_mnemonic_util::Mnemonic; /// use keyfork_mnemonic_util::Mnemonic;
/// let mnemonic = Mnemonic::from_nonstandard_bytes([0u8; 1024 + 4]); /// let mnemonic = Mnemonic::from_array([0u8; 1024 + 4]);
/// ``` /// ```
pub fn from_nonstandard_bytes<const N: usize>(bytes: [u8; N]) -> MnemonicBase<W> { pub fn from_array<const N: usize>(bytes: [u8; N]) -> MnemonicBase<W> {
#[allow(clippy::let_unit_value)] #[allow(clippy::let_unit_value)]
{ {
let () = AssertValidMnemonicSize::<N>::OK_CHUNKS; let () = AssertValidMnemonicSize::<N>::OK_CHUNKS;
@ -315,16 +315,6 @@ where
Self::from_raw_bytes(&bytes) Self::from_raw_bytes(&bytes)
} }
/// Generate a [`Mnemonic`] from the provided data and [`Wordlist`]. The data is expected to be
/// of 128, 192, or 256 bits, as per BIP-0039.
///
/// # Errors
/// An error may be returned if the data is not within the expected lengths.
#[deprecated = "use Mnemonic::from_bytes"]
pub fn from_entropy(bytes: &[u8]) -> Result<MnemonicBase<W>, MnemonicGenerationError> {
MnemonicBase::from_bytes(bytes)
}
/// Create a Mnemonic using an arbitrary length of given data. The length does not need to /// Create a Mnemonic using an arbitrary length of given data. The length does not need to
/// conform to BIP-0039 standards, but should be a multiple of 32 bits or 4 bytes. /// conform to BIP-0039 standards, but should be a multiple of 32 bits or 4 bytes.
/// ///
@ -332,8 +322,8 @@ where
/// This function can potentially produce mnemonics that are not BIP-0039 compliant or can't /// This function can potentially produce mnemonics that are not BIP-0039 compliant or can't
/// properly be encoded as a mnemonic. It is assumed the caller asserts the byte count is `% 4 /// properly be encoded as a mnemonic. It is assumed the caller asserts the byte count is `% 4
/// == 0`. If the assumption is incorrect, code may panic. The /// == 0`. If the assumption is incorrect, code may panic. The
/// [`MnemonicBase::from_nonstandard_bytes`] function may be used to generate entropy if the /// [`MnemonicBase::from_array`] function may be used to generate entropy if the length of the
/// length of the data is known at compile-time. /// data is known at compile-time.
/// ///
/// # Examples /// # Examples
/// ```rust /// ```rust
@ -461,6 +451,39 @@ where
} }
} }
impl<W> MnemonicBase<W>
where
W: Wordlist,
{
/// Generate a [`Mnemonic`] from the provided data and [`Wordlist`]. The data is expected to be
/// of 128, 192, or 256 bits, as per BIP-0039.
///
/// # Errors
/// An error may be returned if the data is not within the expected lengths.
#[deprecated = "use Mnemonic::try_from_slice"]
pub fn from_bytes(bytes: &[u8]) -> Result<MnemonicBase<W>, MnemonicGenerationError> {
MnemonicBase::try_from_slice(bytes)
}
/// Generate a [`Mnemonic`] from the provided data and [`Wordlist`]. The data is expected to be
/// of 128, 192, or 256 bits, as per BIP-0039.
///
/// # Errors
/// An error may be returned if the data is not within the expected lengths.
#[deprecated = "use Mnemonic::try_from_slice"]
pub fn from_entropy(bytes: &[u8]) -> Result<MnemonicBase<W>, MnemonicGenerationError> {
MnemonicBase::try_from_slice(bytes)
}
/// Generate a [`Mnemonic`] from the provided data and [`Wordlist`]. The data may be of a size
/// of a factor of 4, up to 1024 bytes.
///
#[deprecated = "Use Mnemonic::from_array"]
pub fn from_nonstandard_bytes<const N: usize>(bytes: [u8; N]) -> MnemonicBase<W> {
MnemonicBase::from_array(bytes)
}
}
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use std::{collections::HashSet, fs::File, io::Read}; use std::{collections::HashSet, fs::File, io::Read};
@ -477,7 +500,7 @@ mod tests {
let mut random_handle = File::open("/dev/random").unwrap(); let mut random_handle = File::open("/dev/random").unwrap();
let entropy = &mut [0u8; 256 / 8]; let entropy = &mut [0u8; 256 / 8];
random_handle.read_exact(&mut entropy[..]).unwrap(); random_handle.read_exact(&mut entropy[..]).unwrap();
let mnemonic = super::Mnemonic::from_bytes(&entropy[..256 / 8]).unwrap(); let mnemonic = super::Mnemonic::try_from_slice(&entropy[..256 / 8]).unwrap();
let new_entropy = mnemonic.as_bytes(); let new_entropy = mnemonic.as_bytes();
assert_eq!(new_entropy, entropy); assert_eq!(new_entropy, entropy);
} }
@ -493,7 +516,7 @@ mod tests {
}; };
let hex = hex::decode(hex_.as_str().unwrap()).unwrap(); let hex = hex::decode(hex_.as_str().unwrap()).unwrap();
let mnemonic = Mnemonic::from_bytes(&hex).unwrap(); let mnemonic = Mnemonic::try_from_slice(&hex).unwrap();
assert_eq!(mnemonic.to_string(), seed.as_str().unwrap()); assert_eq!(mnemonic.to_string(), seed.as_str().unwrap());
} }
@ -504,7 +527,7 @@ mod tests {
let mut random_handle = File::open("/dev/random").unwrap(); let mut random_handle = File::open("/dev/random").unwrap();
let entropy = &mut [0u8; 256 / 8]; let entropy = &mut [0u8; 256 / 8];
random_handle.read_exact(&mut entropy[..]).unwrap(); random_handle.read_exact(&mut entropy[..]).unwrap();
let my_mnemonic = Mnemonic::from_bytes(&entropy[..256 / 8]).unwrap(); let my_mnemonic = Mnemonic::try_from_slice(&entropy[..256 / 8]).unwrap();
let their_mnemonic = bip39::Mnemonic::from_entropy(&entropy[..256 / 8]).unwrap(); let their_mnemonic = bip39::Mnemonic::from_entropy(&entropy[..256 / 8]).unwrap();
assert_eq!(my_mnemonic.to_string(), their_mnemonic.to_string()); assert_eq!(my_mnemonic.to_string(), their_mnemonic.to_string());
assert_eq!(my_mnemonic.generate_seed(None), their_mnemonic.to_seed("")); assert_eq!(my_mnemonic.generate_seed(None), their_mnemonic.to_seed(""));
@ -528,7 +551,7 @@ mod tests {
for _ in 0..tests { for _ in 0..tests {
random.read_exact(&mut entropy[..]).unwrap(); random.read_exact(&mut entropy[..]).unwrap();
let mnemonic = Mnemonic::from_bytes(&entropy[..256 / 8]).unwrap(); let mnemonic = Mnemonic::try_from_slice(&entropy[..256 / 8]).unwrap();
let words = mnemonic.words(); let words = mnemonic.words();
hs.clear(); hs.clear();
hs.extend(words); hs.extend(words);
@ -559,7 +582,7 @@ mod tests {
let mut entropy = [0u8; 1024]; let mut entropy = [0u8; 1024];
let mut random = std::fs::File::open("/dev/urandom").unwrap(); let mut random = std::fs::File::open("/dev/urandom").unwrap();
random.read_exact(&mut entropy[..]).unwrap(); random.read_exact(&mut entropy[..]).unwrap();
let mnemonic = Mnemonic::from_nonstandard_bytes(entropy); let mnemonic = Mnemonic::from_array(entropy);
let words = mnemonic.words(); let words = mnemonic.words();
assert_eq!(words.len(), 768); assert_eq!(words.len(), 768);
} }