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https://github.com/denoland/deno.git
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410 lines
12 KiB
Rust
410 lines
12 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use base64::prelude::BASE64_URL_SAFE_NO_PAD;
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use base64::Engine;
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use const_oid::AssociatedOid;
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use const_oid::ObjectIdentifier;
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use deno_core::error::custom_error;
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use deno_core::error::AnyError;
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use deno_core::op2;
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use deno_core::ToJsBuffer;
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use elliptic_curve::sec1::ToEncodedPoint;
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use p256::pkcs8::DecodePrivateKey;
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use rsa::pkcs1::der::Decode;
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use rsa::pkcs8::der::asn1::UintRef;
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use rsa::pkcs8::der::Encode;
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use serde::Deserialize;
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use serde::Serialize;
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use spki::der::asn1;
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use spki::der::asn1::BitString;
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use spki::AlgorithmIdentifier;
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use spki::AlgorithmIdentifierOwned;
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use crate::shared::*;
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#[derive(Deserialize)]
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#[serde(rename_all = "camelCase")]
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pub struct ExportKeyOptions {
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format: ExportKeyFormat,
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#[serde(flatten)]
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algorithm: ExportKeyAlgorithm,
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}
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#[derive(Deserialize)]
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#[serde(rename_all = "lowercase")]
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pub enum ExportKeyFormat {
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Raw,
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Pkcs8,
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Spki,
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JwkPublic,
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JwkPrivate,
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JwkSecret,
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}
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#[derive(Deserialize)]
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#[serde(rename_all = "camelCase", tag = "algorithm")]
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pub enum ExportKeyAlgorithm {
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#[serde(rename = "RSASSA-PKCS1-v1_5")]
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RsassaPkcs1v15 {},
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#[serde(rename = "RSA-PSS")]
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RsaPss {},
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#[serde(rename = "RSA-OAEP")]
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RsaOaep {},
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#[serde(rename = "ECDSA", rename_all = "camelCase")]
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Ecdsa { named_curve: EcNamedCurve },
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#[serde(rename = "ECDH", rename_all = "camelCase")]
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Ecdh { named_curve: EcNamedCurve },
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#[serde(rename = "AES")]
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Aes {},
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#[serde(rename = "HMAC")]
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Hmac {},
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}
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#[derive(Serialize)]
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#[serde(untagged)]
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pub enum ExportKeyResult {
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Raw(ToJsBuffer),
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Pkcs8(ToJsBuffer),
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Spki(ToJsBuffer),
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JwkSecret {
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k: String,
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},
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JwkPublicRsa {
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n: String,
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e: String,
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},
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JwkPrivateRsa {
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n: String,
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e: String,
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d: String,
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p: String,
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q: String,
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dp: String,
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dq: String,
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qi: String,
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},
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JwkPublicEc {
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x: String,
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y: String,
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},
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JwkPrivateEc {
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x: String,
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y: String,
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d: String,
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},
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}
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#[op2]
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#[serde]
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pub fn op_crypto_export_key(
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#[serde] opts: ExportKeyOptions,
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#[serde] key_data: V8RawKeyData,
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) -> Result<ExportKeyResult, AnyError> {
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match opts.algorithm {
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ExportKeyAlgorithm::RsassaPkcs1v15 {}
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| ExportKeyAlgorithm::RsaPss {}
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| ExportKeyAlgorithm::RsaOaep {} => export_key_rsa(opts.format, key_data),
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ExportKeyAlgorithm::Ecdh { named_curve }
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| ExportKeyAlgorithm::Ecdsa { named_curve } => {
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export_key_ec(opts.format, key_data, opts.algorithm, named_curve)
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}
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ExportKeyAlgorithm::Aes {} | ExportKeyAlgorithm::Hmac {} => {
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export_key_symmetric(opts.format, key_data)
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}
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}
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}
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fn uint_to_b64(bytes: UintRef) -> String {
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BASE64_URL_SAFE_NO_PAD.encode(bytes.as_bytes())
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}
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fn bytes_to_b64(bytes: &[u8]) -> String {
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BASE64_URL_SAFE_NO_PAD.encode(bytes)
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}
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fn export_key_rsa(
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format: ExportKeyFormat,
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key_data: V8RawKeyData,
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) -> Result<ExportKeyResult, deno_core::anyhow::Error> {
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match format {
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ExportKeyFormat::Spki => {
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let subject_public_key = &key_data.as_rsa_public_key()?;
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// the SPKI structure
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let key_info = spki::SubjectPublicKeyInfo {
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algorithm: spki::AlgorithmIdentifier {
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// rsaEncryption(1)
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oid: const_oid::ObjectIdentifier::new_unwrap("1.2.840.113549.1.1.1"),
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// parameters field should not be omitted (None).
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// It MUST have ASN.1 type NULL.
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parameters: Some(asn1::AnyRef::from(asn1::Null)),
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},
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subject_public_key: BitString::from_bytes(subject_public_key).unwrap(),
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};
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// Infallible because we know the public key is valid.
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let spki_der = key_info.to_der().unwrap();
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Ok(ExportKeyResult::Spki(spki_der.into()))
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}
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ExportKeyFormat::Pkcs8 => {
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let private_key = key_data.as_rsa_private_key()?;
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// the PKCS#8 v1 structure
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// PrivateKeyInfo ::= SEQUENCE {
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// version Version,
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// privateKeyAlgorithm PrivateKeyAlgorithmIdentifier,
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// privateKey PrivateKey,
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// attributes [0] IMPLICIT Attributes OPTIONAL }
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// version is 0 when publickey is None
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let pk_info = rsa::pkcs8::PrivateKeyInfo {
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public_key: None,
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algorithm: rsa::pkcs8::AlgorithmIdentifierRef {
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// rsaEncryption(1)
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oid: rsa::pkcs8::ObjectIdentifier::new_unwrap("1.2.840.113549.1.1.1"),
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// parameters field should not be omitted (None).
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// It MUST have ASN.1 type NULL as per defined in RFC 3279 Section 2.3.1
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parameters: Some(rsa::pkcs8::der::asn1::AnyRef::from(
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rsa::pkcs8::der::asn1::Null,
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)),
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},
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private_key,
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};
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// Infallible because we know the private key is valid.
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let mut pkcs8_der = Vec::new();
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pk_info.encode_to_vec(&mut pkcs8_der)?;
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Ok(ExportKeyResult::Pkcs8(pkcs8_der.into()))
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}
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ExportKeyFormat::JwkPublic => {
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let public_key = key_data.as_rsa_public_key()?;
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let public_key = rsa::pkcs1::RsaPublicKey::from_der(&public_key)
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.map_err(|_| {
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custom_error(
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"DOMExceptionOperationError",
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"failed to decode public key",
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)
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})?;
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Ok(ExportKeyResult::JwkPublicRsa {
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n: uint_to_b64(public_key.modulus),
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e: uint_to_b64(public_key.public_exponent),
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})
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}
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ExportKeyFormat::JwkPrivate => {
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let private_key = key_data.as_rsa_private_key()?;
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let private_key = rsa::pkcs1::RsaPrivateKey::from_der(private_key)
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.map_err(|_| {
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custom_error(
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"DOMExceptionOperationError",
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"failed to decode private key",
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)
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})?;
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Ok(ExportKeyResult::JwkPrivateRsa {
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n: uint_to_b64(private_key.modulus),
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e: uint_to_b64(private_key.public_exponent),
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d: uint_to_b64(private_key.private_exponent),
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p: uint_to_b64(private_key.prime1),
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q: uint_to_b64(private_key.prime2),
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dp: uint_to_b64(private_key.exponent1),
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dq: uint_to_b64(private_key.exponent2),
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qi: uint_to_b64(private_key.coefficient),
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})
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}
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_ => Err(unsupported_format()),
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}
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}
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fn export_key_symmetric(
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format: ExportKeyFormat,
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key_data: V8RawKeyData,
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) -> Result<ExportKeyResult, deno_core::anyhow::Error> {
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match format {
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ExportKeyFormat::JwkSecret => {
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let bytes = key_data.as_secret_key()?;
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Ok(ExportKeyResult::JwkSecret {
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k: bytes_to_b64(bytes),
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})
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}
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_ => Err(unsupported_format()),
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}
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}
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fn export_key_ec(
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format: ExportKeyFormat,
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key_data: V8RawKeyData,
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algorithm: ExportKeyAlgorithm,
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named_curve: EcNamedCurve,
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) -> Result<ExportKeyResult, deno_core::anyhow::Error> {
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match format {
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ExportKeyFormat::Raw => {
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let subject_public_key = match named_curve {
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EcNamedCurve::P256 => {
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let point = key_data.as_ec_public_key_p256()?;
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point.as_ref().to_vec()
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}
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EcNamedCurve::P384 => {
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let point = key_data.as_ec_public_key_p384()?;
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point.as_ref().to_vec()
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}
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EcNamedCurve::P521 => {
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return Err(data_error("Unsupported named curve"))
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}
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};
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Ok(ExportKeyResult::Raw(subject_public_key.into()))
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}
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ExportKeyFormat::Spki => {
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let subject_public_key = match named_curve {
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EcNamedCurve::P256 => {
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let point = key_data.as_ec_public_key_p256()?;
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point.as_ref().to_vec()
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}
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EcNamedCurve::P384 => {
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let point = key_data.as_ec_public_key_p384()?;
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point.as_ref().to_vec()
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}
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EcNamedCurve::P521 => {
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return Err(data_error("Unsupported named curve"))
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}
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};
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let alg_id = match named_curve {
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EcNamedCurve::P256 => AlgorithmIdentifierOwned {
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oid: elliptic_curve::ALGORITHM_OID,
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parameters: Some((&p256::NistP256::OID).into()),
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},
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EcNamedCurve::P384 => AlgorithmIdentifierOwned {
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oid: elliptic_curve::ALGORITHM_OID,
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parameters: Some((&p384::NistP384::OID).into()),
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},
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EcNamedCurve::P521 => {
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return Err(data_error("Unsupported named curve"))
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}
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};
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let alg_id = match algorithm {
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ExportKeyAlgorithm::Ecdh { .. } => AlgorithmIdentifier {
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oid: ObjectIdentifier::new_unwrap("1.2.840.10045.2.1"),
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parameters: alg_id.parameters,
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},
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_ => alg_id,
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};
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// the SPKI structure
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let key_info = spki::SubjectPublicKeyInfo {
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algorithm: alg_id,
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subject_public_key: BitString::from_bytes(&subject_public_key).unwrap(),
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};
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let spki_der = key_info.to_der().unwrap();
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Ok(ExportKeyResult::Spki(spki_der.into()))
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}
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ExportKeyFormat::Pkcs8 => {
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// private_key is a PKCS#8 DER-encoded private key
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let private_key = key_data.as_ec_private_key()?;
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Ok(ExportKeyResult::Pkcs8(private_key.to_vec().into()))
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}
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ExportKeyFormat::JwkPublic => match named_curve {
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EcNamedCurve::P256 => {
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let point = key_data.as_ec_public_key_p256()?;
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let coords = point.coordinates();
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if let p256::elliptic_curve::sec1::Coordinates::Uncompressed { x, y } =
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coords
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{
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Ok(ExportKeyResult::JwkPublicEc {
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x: bytes_to_b64(x),
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y: bytes_to_b64(y),
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})
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} else {
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Err(custom_error(
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"DOMExceptionOperationError",
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"failed to decode public key",
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))
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}
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}
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EcNamedCurve::P384 => {
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let point = key_data.as_ec_public_key_p384()?;
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let coords = point.coordinates();
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if let p384::elliptic_curve::sec1::Coordinates::Uncompressed { x, y } =
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coords
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{
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Ok(ExportKeyResult::JwkPublicEc {
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x: bytes_to_b64(x),
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y: bytes_to_b64(y),
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})
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} else {
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Err(custom_error(
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"DOMExceptionOperationError",
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"failed to decode public key",
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))
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}
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}
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EcNamedCurve::P521 => Err(data_error("Unsupported named curve")),
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},
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ExportKeyFormat::JwkPrivate => {
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let private_key = key_data.as_ec_private_key()?;
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match named_curve {
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EcNamedCurve::P256 => {
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let ec_key =
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p256::SecretKey::from_pkcs8_der(private_key).map_err(|_| {
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custom_error(
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"DOMExceptionOperationError",
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"failed to decode private key",
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)
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})?;
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let point = ec_key.public_key().to_encoded_point(false);
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if let elliptic_curve::sec1::Coordinates::Uncompressed { x, y } =
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point.coordinates()
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{
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Ok(ExportKeyResult::JwkPrivateEc {
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x: bytes_to_b64(x),
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y: bytes_to_b64(y),
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d: bytes_to_b64(&ec_key.to_bytes()),
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})
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} else {
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Err(data_error("expected valid public EC key"))
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}
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}
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EcNamedCurve::P384 => {
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let ec_key =
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p384::SecretKey::from_pkcs8_der(private_key).map_err(|_| {
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custom_error(
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"DOMExceptionOperationError",
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"failed to decode private key",
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)
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})?;
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let point = ec_key.public_key().to_encoded_point(false);
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if let elliptic_curve::sec1::Coordinates::Uncompressed { x, y } =
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point.coordinates()
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{
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Ok(ExportKeyResult::JwkPrivateEc {
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x: bytes_to_b64(x),
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y: bytes_to_b64(y),
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d: bytes_to_b64(&ec_key.to_bytes()),
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})
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} else {
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Err(data_error("expected valid public EC key"))
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}
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}
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_ => Err(not_supported_error("Unsupported namedCurve")),
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}
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}
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ExportKeyFormat::JwkSecret => Err(unsupported_format()),
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}
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}
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