denoland-deno/ext/crypto/ec_key.rs

use deno_core::error::AnyError;

use elliptic_curve::AlgorithmParameters;

use elliptic_curve::pkcs8;
use elliptic_curve::pkcs8::der;
use elliptic_curve::pkcs8::der::asn1::*;
use elliptic_curve::pkcs8::der::Decodable as Pkcs8Decodable;
use elliptic_curve::pkcs8::der::Encodable;
use elliptic_curve::pkcs8::der::TagNumber;
use elliptic_curve::pkcs8::AlgorithmIdentifier;
use elliptic_curve::pkcs8::ObjectIdentifier;
use elliptic_curve::pkcs8::PrivateKeyDocument;
use elliptic_curve::pkcs8::PrivateKeyInfo;
use elliptic_curve::zeroize::Zeroizing;

use crate::shared::*;

const VERSION: u8 = 1;

const PUBLIC_KEY_TAG: TagNumber = TagNumber::new(1);

pub struct ECPrivateKey<'a, C: elliptic_curve::Curve> {
  pub algorithm: AlgorithmIdentifier<'a>,

  pub private_d: elliptic_curve::FieldBytes<C>,

  pub encoded_point: &'a [u8],
}

impl<'a, C> ECPrivateKey<'a, C>
where
  C: elliptic_curve::Curve + AlgorithmParameters,
{
  /// Create a new ECPrivateKey from a serialized private scalar and encoded public key
  pub fn from_private_and_public_bytes(
    private_d: elliptic_curve::FieldBytes<C>,
    encoded_point: &'a [u8],
  ) -> Self {
    Self {
      private_d,
      encoded_point,
      algorithm: C::algorithm_identifier(),
    }
  }

  pub fn named_curve_oid(&self) -> Result<ObjectIdentifier, AnyError> {
    let parameters = self
      .algorithm
      .parameters
      .ok_or_else(|| data_error("malformed parameters"))?;

    Ok(parameters.oid().unwrap())
  }

  fn internal_to_pkcs8_der(&self) -> der::Result<Vec<u8>> {
    // Shamelessly copied from pkcs8 crate and modified so as
    // to not require Arithmetic trait currently missing from p384
    let secret_key_field = OctetString::new(&self.private_d)?;
    let public_key_bytes = &self.encoded_point;
    let public_key_field = ContextSpecific {
      tag_number: PUBLIC_KEY_TAG,
      value: BitString::new(public_key_bytes)?.into(),
    };

    let der_message_fields: &[&dyn Encodable] =
      &[&VERSION, &secret_key_field, &public_key_field];

    let encoded_len =
      der::message::encoded_len(der_message_fields)?.try_into()?;
    let mut der_message = Zeroizing::new(vec![0u8; encoded_len]);
    let mut encoder = der::Encoder::new(&mut der_message);
    encoder.message(der_message_fields)?;
    encoder.finish()?;

    Ok(der_message.to_vec())
  }

  pub fn to_pkcs8_der(&self) -> Result<PrivateKeyDocument, AnyError> {
    let pkcs8_der = self
      .internal_to_pkcs8_der()
      .map_err(|_| data_error("expected valid PKCS#8 data"))?;

    let pki =
      pkcs8::PrivateKeyInfo::new(C::algorithm_identifier(), pkcs8_der.as_ref());

    Ok(pki.to_der())
  }
}

impl<'a, C: elliptic_curve::Curve> TryFrom<&'a [u8]> for ECPrivateKey<'a, C> {
  type Error = AnyError;

  fn try_from(bytes: &'a [u8]) -> Result<ECPrivateKey<C>, AnyError> {
    let pk_info = PrivateKeyInfo::from_der(bytes)
      .map_err(|_| data_error("expected valid PKCS#8 data"))?;

    Self::try_from(pk_info)
  }
}

impl<'a, C: elliptic_curve::Curve> TryFrom<PrivateKeyInfo<'a>>
  for ECPrivateKey<'a, C>
{
  type Error = AnyError;

  fn try_from(
    pk_info: PrivateKeyInfo<'a>,
  ) -> Result<ECPrivateKey<'a, C>, AnyError> {
    let any = der::asn1::Any::from_der(pk_info.private_key).map_err(|_| {
      data_error("expected valid PrivateKeyInfo private_key der")
    })?;

    if pk_info.algorithm.oid != elliptic_curve::ALGORITHM_OID {
      return Err(data_error("unsupported algorithm"));
    }

    any
      .sequence(|decoder| {
        // ver
        if decoder.uint8()? != VERSION {
          return Err(der::Tag::Integer.value_error());
        }

        // private_key
        let priv_key = decoder.octet_string()?.as_bytes();
        let mut private_d = elliptic_curve::FieldBytes::<C>::default();
        if priv_key.len() != private_d.len() {
          return Err(der::Tag::Sequence.value_error());
        };
        private_d.copy_from_slice(priv_key);

        let public_key = decoder
          .context_specific(PUBLIC_KEY_TAG)?
          .ok_or_else(|| {
            der::Tag::ContextSpecific(PUBLIC_KEY_TAG).value_error()
          })?
          .bit_string()?;

        Ok(Self {
          private_d,
          encoded_point: public_key.as_bytes(),
          algorithm: pk_info.algorithm,
        })
      })
      .map_err(|_| data_error("expected valid PrivateKeyInfo private_key der"))
  }
}
feat(ext/crypto): implement pkcs8/spki/jwk exportKey for ECDSA and ECDH (#13104) 2022-01-18 22:38:35 -05:00			`use deno_core::error::AnyError;`

			`use elliptic_curve::AlgorithmParameters;`

			`use elliptic_curve::pkcs8;`
			`use elliptic_curve::pkcs8::der;`
			`use elliptic_curve::pkcs8::der::asn1::*;`
			`use elliptic_curve::pkcs8::der::Decodable as Pkcs8Decodable;`
			`use elliptic_curve::pkcs8::der::Encodable;`
			`use elliptic_curve::pkcs8::der::TagNumber;`
			`use elliptic_curve::pkcs8::AlgorithmIdentifier;`
			`use elliptic_curve::pkcs8::ObjectIdentifier;`
			`use elliptic_curve::pkcs8::PrivateKeyDocument;`
			`use elliptic_curve::pkcs8::PrivateKeyInfo;`
			`use elliptic_curve::zeroize::Zeroizing;`

			`use crate::shared::*;`

			`const VERSION: u8 = 1;`

			`const PUBLIC_KEY_TAG: TagNumber = TagNumber::new(1);`

			`pub struct ECPrivateKey<'a, C: elliptic_curve::Curve> {`
			`pub algorithm: AlgorithmIdentifier<'a>,`

			`pub private_d: elliptic_curve::FieldBytes<C>,`

			`pub encoded_point: &'a [u8],`
			`}`

			`impl<'a, C> ECPrivateKey<'a, C>`
			`where`
			`C: elliptic_curve::Curve + AlgorithmParameters,`
			`{`
			`/// Create a new ECPrivateKey from a serialized private scalar and encoded public key`
			`pub fn from_private_and_public_bytes(`
			`private_d: elliptic_curve::FieldBytes<C>,`
			`encoded_point: &'a [u8],`
			`) -> Self {`
			`Self {`
			`private_d,`
			`encoded_point,`
			`algorithm: C::algorithm_identifier(),`
			`}`
			`}`

			`pub fn named_curve_oid(&self) -> Result<ObjectIdentifier, AnyError> {`
			`let parameters = self`
			`.algorithm`
			`.parameters`
			`.ok_or_else(\|\| data_error("malformed parameters"))?;`

			`Ok(parameters.oid().unwrap())`
			`}`

			`fn internal_to_pkcs8_der(&self) -> der::Result<Vec<u8>> {`
			`// Shamelessly copied from pkcs8 crate and modified so as`
			`// to not require Arithmetic trait currently missing from p384`
			`let secret_key_field = OctetString::new(&self.private_d)?;`
			`let public_key_bytes = &self.encoded_point;`
			`let public_key_field = ContextSpecific {`
			`tag_number: PUBLIC_KEY_TAG,`
			`value: BitString::new(public_key_bytes)?.into(),`
			`};`

			`let der_message_fields: &[&dyn Encodable] =`
			`&[&VERSION, &secret_key_field, &public_key_field];`

			`let encoded_len =`
			`der::message::encoded_len(der_message_fields)?.try_into()?;`
			`let mut der_message = Zeroizing::new(vec![0u8; encoded_len]);`
			`let mut encoder = der::Encoder::new(&mut der_message);`
			`encoder.message(der_message_fields)?;`
			`encoder.finish()?;`

			`Ok(der_message.to_vec())`
			`}`

			`pub fn to_pkcs8_der(&self) -> Result<PrivateKeyDocument, AnyError> {`
			`let pkcs8_der = self`
			`.internal_to_pkcs8_der()`
			`.map_err(\|_\| data_error("expected valid PKCS#8 data"))?;`

			`let pki =`
			`pkcs8::PrivateKeyInfo::new(C::algorithm_identifier(), pkcs8_der.as_ref());`

			`Ok(pki.to_der())`
			`}`
			`}`

			`impl<'a, C: elliptic_curve::Curve> TryFrom<&'a [u8]> for ECPrivateKey<'a, C> {`
			`type Error = AnyError;`

			`fn try_from(bytes: &'a [u8]) -> Result<ECPrivateKey<C>, AnyError> {`
			`let pk_info = PrivateKeyInfo::from_der(bytes)`
			`.map_err(\|_\| data_error("expected valid PKCS#8 data"))?;`

			`Self::try_from(pk_info)`
			`}`
			`}`

			`impl<'a, C: elliptic_curve::Curve> TryFrom<PrivateKeyInfo<'a>>`
			`for ECPrivateKey<'a, C>`
			`{`
			`type Error = AnyError;`

			`fn try_from(`
			`pk_info: PrivateKeyInfo<'a>,`
			`) -> Result<ECPrivateKey<'a, C>, AnyError> {`
			`let any = der::asn1::Any::from_der(pk_info.private_key).map_err(\|_\| {`
			`data_error("expected valid PrivateKeyInfo private_key der")`
			`})?;`

			`if pk_info.algorithm.oid != elliptic_curve::ALGORITHM_OID {`
			`return Err(data_error("unsupported algorithm"));`
			`}`

			`any`
			`.sequence(\|decoder\| {`
			`// ver`
			`if decoder.uint8()? != VERSION {`
			`return Err(der::Tag::Integer.value_error());`
			`}`

			`// private_key`
			`let priv_key = decoder.octet_string()?.as_bytes();`
			`let mut private_d = elliptic_curve::FieldBytes::<C>::default();`
			`if priv_key.len() != private_d.len() {`
			`return Err(der::Tag::Sequence.value_error());`
			`};`
			`private_d.copy_from_slice(priv_key);`

			`let public_key = decoder`
			`.context_specific(PUBLIC_KEY_TAG)?`
			`.ok_or_else(\|\| {`
			`der::Tag::ContextSpecific(PUBLIC_KEY_TAG).value_error()`
			`})?`
			`.bit_string()?;`

			`Ok(Self {`
			`private_d,`
			`encoded_point: public_key.as_bytes(),`
			`algorithm: pk_info.algorithm,`
			`})`
			`})`
			`.map_err(\|_\| data_error("expected valid PrivateKeyInfo private_key der"))`
			`}`
			`}`