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628c98a2fe
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57354fc714
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@ -65,7 +65,7 @@ pub type Result<T, E = Error> = std::result::Result<T, E>;
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/// # Errors
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/// # Errors
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/// The function may error for any condition mentioned in [`Error`].
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/// The function may error for any condition mentioned in [`Error`].
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pub fn derive(xprv: XPrv, keys: &[KeyFlags], userid: &UserID) -> Result<Cert> {
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pub fn derive(xprv: XPrv, keys: &[KeyFlags], userid: &UserID) -> Result<Cert> {
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let primary_key_flags = match keys.first() {
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let primary_key_flags = match keys.get(0) {
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Some(kf) if kf.for_certification() => kf,
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Some(kf) if kf.for_certification() => kf,
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_ => return Err(Error::NotCert),
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_ => return Err(Error::NotCert),
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};
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};
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@ -102,10 +102,6 @@ pub enum PrivateKeyError {
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/// For the given algorithm, the private key must be nonzero.
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/// For the given algorithm, the private key must be nonzero.
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#[error("The provided private key must be nonzero, but is not")]
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#[error("The provided private key must be nonzero, but is not")]
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NonZero,
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NonZero,
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/// A scalar could not be constructed for the given algorithm.
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#[error("A scalar could not be constructed for the given algorithm")]
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InvalidScalar,
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}
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}
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#[cfg(feature = "secp256k1")]
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#[cfg(feature = "secp256k1")]
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@ -134,19 +130,20 @@ impl PrivateKey for k256::SecretKey {
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}
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}
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fn derive_child(&self, other: &PrivateKeyBytes) -> Result<Self, Self::Err> {
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fn derive_child(&self, other: &PrivateKeyBytes) -> Result<Self, Self::Err> {
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use k256::elliptic_curve::ScalarPrimitive;
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if other.iter().all(|n| n == &0) {
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use k256::{Scalar, Secp256k1};
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return Err(PrivateKeyError::NonZero);
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}
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// Construct a scalar from bytes
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let other = *other;
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let scalar = ScalarPrimitive::<Secp256k1>::from_bytes(other.into());
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// Checked: See above nonzero check
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let scalar = Option::<ScalarPrimitive<Secp256k1>>::from(scalar);
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let scalar = Option::<NonZeroScalar>::from(NonZeroScalar::from_repr(other.into()))
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let scalar = scalar.ok_or(PrivateKeyError::InvalidScalar)?;
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.expect(bug!("Should have been able to get a NonZeroScalar"));
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let scalar = Scalar::from(scalar);
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let derived_scalar = self.to_nonzero_scalar().as_ref() + scalar.as_ref();
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let derived_scalar = self.to_nonzero_scalar().as_ref() + scalar.as_ref();
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let nonzero_scalar = Option::<NonZeroScalar>::from(NonZeroScalar::new(derived_scalar))
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Ok(
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.ok_or(PrivateKeyError::NonZero)?;
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Option::<NonZeroScalar>::from(NonZeroScalar::new(derived_scalar))
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Ok(Self::from(nonzero_scalar))
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.map(Into::into)
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.expect(bug!("Should be able to make Key")),
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)
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}
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}
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}
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}
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@ -205,7 +202,9 @@ impl PrivateKey for TestPrivateKey {
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type Err = PrivateKeyError;
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type Err = PrivateKeyError;
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fn from_bytes(b: &PrivateKeyBytes) -> Self {
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fn from_bytes(b: &PrivateKeyBytes) -> Self {
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Self { key: *b }
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Self {
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key: *b
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}
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}
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}
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fn to_bytes(&self) -> PrivateKeyBytes {
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fn to_bytes(&self) -> PrivateKeyBytes {
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@ -77,10 +77,6 @@ pub enum PublicKeyError {
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#[error("The provided public key must be nonzero, but is not")]
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#[error("The provided public key must be nonzero, but is not")]
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NonZero,
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NonZero,
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/// A scalar could not be constructed for the given algorithm.
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#[error("A scalar could not be constructed for the given algorithm")]
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InvalidScalar,
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/// Public key derivation is unsupported for this algorithm.
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/// Public key derivation is unsupported for this algorithm.
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#[error("Public key derivation is unsupported for this algorithm")]
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#[error("Public key derivation is unsupported for this algorithm")]
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DerivationUnsupported,
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DerivationUnsupported,
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@ -89,7 +85,7 @@ pub enum PublicKeyError {
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#[cfg(feature = "secp256k1")]
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#[cfg(feature = "secp256k1")]
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use k256::{
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use k256::{
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elliptic_curve::{group::prime::PrimeCurveAffine, sec1::ToEncodedPoint},
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elliptic_curve::{group::prime::PrimeCurveAffine, sec1::ToEncodedPoint},
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AffinePoint,
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AffinePoint, NonZeroScalar,
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};
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};
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#[cfg(feature = "secp256k1")]
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#[cfg(feature = "secp256k1")]
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@ -109,16 +105,14 @@ impl PublicKey for k256::PublicKey {
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}
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}
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fn derive_child(&self, other: PrivateKeyBytes) -> Result<Self, Self::Err> {
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fn derive_child(&self, other: PrivateKeyBytes) -> Result<Self, Self::Err> {
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use k256::elliptic_curve::ScalarPrimitive;
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if other.iter().all(|n| n == &0) {
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use k256::{Secp256k1, Scalar};
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return Err(PublicKeyError::NonZero);
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}
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// Checked: See above
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let scalar = Option::<NonZeroScalar>::from(NonZeroScalar::from_repr(other.into()))
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.expect(bug!("Should have been able to get a NonZeroScalar"));
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// Construct a scalar from bytes
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let point = self.to_projective() + (AffinePoint::generator() * *scalar);
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let scalar = ScalarPrimitive::<Secp256k1>::from_bytes(&other.into());
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let scalar = Option::<ScalarPrimitive<Secp256k1>>::from(scalar);
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let scalar = scalar.ok_or(PublicKeyError::InvalidScalar)?;
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let scalar = Scalar::from(scalar);
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let point = self.to_projective() + (AffinePoint::generator() * scalar);
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Ok(Self::from_affine(point.into())
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Ok(Self::from_affine(point.into())
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.expect(bug!("Could not from_affine after scalar arithmetic")))
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.expect(bug!("Could not from_affine after scalar arithmetic")))
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}
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}
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@ -10,7 +10,6 @@ use aes_gcm::{
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aead::{consts::U12, Aead},
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aead::{consts::U12, Aead},
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Aes256Gcm, KeyInit, Nonce,
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Aes256Gcm, KeyInit, Nonce,
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};
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};
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use base64::prelude::{Engine, BASE64_STANDARD};
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use hkdf::Hkdf;
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use hkdf::Hkdf;
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use keyfork_bug::{bug, POISONED_MUTEX};
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use keyfork_bug::{bug, POISONED_MUTEX};
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use keyfork_mnemonic_util::{English, Mnemonic};
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use keyfork_mnemonic_util::{English, Mnemonic};
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@ -24,6 +23,7 @@ use keyfork_prompt::{
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use sha2::Sha256;
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use sha2::Sha256;
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use sharks::{Share, Sharks};
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use sharks::{Share, Sharks};
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use x25519_dalek::{EphemeralSecret, PublicKey};
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use x25519_dalek::{EphemeralSecret, PublicKey};
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use base64::prelude::{BASE64_STANDARD, Engine};
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// 32-byte share, 1-byte index, 1-byte threshold, 1-byte version == 36 bytes
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// 32-byte share, 1-byte index, 1-byte threshold, 1-byte version == 36 bytes
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// Encrypted, is 52 bytes
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// Encrypted, is 52 bytes
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@ -212,9 +212,7 @@ pub trait Format {
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if let Ok(Some(qrcode_content)) =
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if let Ok(Some(qrcode_content)) =
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keyfork_qrcode::scan_camera(std::time::Duration::from_secs(30), 0)
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keyfork_qrcode::scan_camera(std::time::Duration::from_secs(30), 0)
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{
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{
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let decoded_data = BASE64_STANDARD
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let decoded_data = BASE64_STANDARD.decode(qrcode_content).unwrap();
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.decode(qrcode_content)
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.expect(bug!("qrcode should contain base64 encoded data"));
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pubkey_data = Some(decoded_data.try_into().map_err(|_| InvalidData)?)
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pubkey_data = Some(decoded_data.try_into().map_err(|_| InvalidData)?)
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} else {
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} else {
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prompt
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prompt
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@ -302,10 +300,7 @@ pub trait Format {
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use keyfork_qrcode::{qrencode, ErrorCorrection};
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use keyfork_qrcode::{qrencode, ErrorCorrection};
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let mut qrcode_data = our_pubkey_mnemonic.to_bytes();
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let mut qrcode_data = our_pubkey_mnemonic.to_bytes();
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qrcode_data.extend(payload_mnemonic.as_bytes());
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qrcode_data.extend(payload_mnemonic.as_bytes());
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if let Ok(qrcode) = qrencode(
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if let Ok(qrcode) = qrencode(&BASE64_STANDARD.encode(qrcode_data), ErrorCorrection::Highest) {
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&BASE64_STANDARD.encode(qrcode_data),
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ErrorCorrection::Highest,
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) {
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prompt
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prompt
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.lock()
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.lock()
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.expect(bug!(POISONED_MUTEX))
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.expect(bug!(POISONED_MUTEX))
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@ -438,10 +433,7 @@ pub fn remote_decrypt(w: &mut impl Write) -> Result<(), Box<dyn std::error::Erro
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{
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{
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use keyfork_qrcode::{qrencode, ErrorCorrection};
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use keyfork_qrcode::{qrencode, ErrorCorrection};
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let qrcode_data = key_mnemonic.to_bytes();
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let qrcode_data = key_mnemonic.to_bytes();
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if let Ok(qrcode) = qrencode(
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if let Ok(qrcode) = qrencode(&BASE64_STANDARD.encode(qrcode_data), ErrorCorrection::Highest) {
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&BASE64_STANDARD.encode(qrcode_data),
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ErrorCorrection::Highest,
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) {
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pm.prompt_message(PromptMessage::Text(format!(
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pm.prompt_message(PromptMessage::Text(format!(
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concat!(
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concat!(
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"A QR code will be displayed after this prompt. ",
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"A QR code will be displayed after this prompt. ",
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@ -472,14 +464,7 @@ pub fn remote_decrypt(w: &mut impl Write) -> Result<(), Box<dyn std::error::Erro
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if let Ok(Some(qrcode_content)) =
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if let Ok(Some(qrcode_content)) =
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keyfork_qrcode::scan_camera(std::time::Duration::from_secs(QRCODE_TIMEOUT), 0)
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keyfork_qrcode::scan_camera(std::time::Duration::from_secs(QRCODE_TIMEOUT), 0)
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{
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{
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let decoded_data = BASE64_STANDARD
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let decoded_data = BASE64_STANDARD.decode(qrcode_content).unwrap();
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.decode(qrcode_content)
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.expect(bug!("qrcode should contain base64 encoded data"));
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assert_eq!(
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decoded_data.len(),
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ENCRYPTED_LENGTH as usize,
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bug!("invalid payload data")
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);
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let _ = pubkey_data.insert(decoded_data[..32].try_into().map_err(|_| InvalidData)?);
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let _ = pubkey_data.insert(decoded_data[..32].try_into().map_err(|_| InvalidData)?);
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let _ = payload_data.insert(decoded_data[32..].to_vec());
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let _ = payload_data.insert(decoded_data[32..].to_vec());
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} else {
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} else {
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