webauthn_rp

auth.rs (50316B)

---

 #[cfg(doc)]
 use super::{
     super::response::{
         auth::AuthenticatorData,
         register::{DynamicState, StaticState},
         Backup, CollectedClientData, Flag,
     },
     register::{self, PublicKeyCredentialCreationOptions},
     AsciiDomain, DomainOrigin, Url,
 };
 use super::{
     super::{
         response::{
             auth::{
                 error::{AuthCeremonyErr, ExtensionErr, OneOrTwo},
                 Authentication, AuthenticatorExtensionOutput, HmacSecret,
             },
             register::CompressedPubKey,
             AuthenticatorAttachment,
         },
         AuthenticatedCredential,
     },
     auth::error::{RequestOptionsErr, SecondFactorErr},
     BackupReq, Ceremony, CeremonyOptions, Challenge, CredentialId, Credentials, ExtensionReq, Hint,
     Origin, PublicKeyCredentialDescriptor, RpId, SentChallenge, ServerState,
     UserVerificationRequirement, THREE_HUNDRED_THOUSAND,
 };
 use core::{
     borrow::Borrow,
     cmp::Ordering,
     hash::{Hash, Hasher},
     num::{NonZeroU32, NonZeroU64},
     time::Duration,
 };
 #[cfg(any(doc, not(feature = "serializable_server_state")))]
 use std::time::Instant;
 #[cfg(any(doc, feature = "serializable_server_state"))]
 use std::time::SystemTime;
 /// Contains error types.
 pub mod error;
 /// Contains functionality to serialize data to a client.
 #[cfg_attr(docsrs, doc(cfg(feature = "serde")))]
 #[cfg(feature = "serde")]
 mod ser;
 /// Contains functionality to (de)serialize [`AuthenticationServerState`] to a data store.
 #[cfg_attr(docsrs, doc(cfg(feature = "serializable_server_state")))]
 #[cfg(feature = "serializable_server_state")]
 pub mod ser_server_state;
 /// Controls how [signature counter](https://www.w3.org/TR/webauthn-3/#signature-counter) is enforced.
 ///
 /// Note that if the previous signature counter is positive and the new counter is not strictly greater, then the
 /// authenticator is likely a clone (i.e., there are at least two copies of the private key).
 #[derive(Clone, Copy, Debug, Default)]
 pub enum SignatureCounterEnforcement {
     /// Fail the authentication ceremony if the counter is less than or equal to the previous value when the
     /// previous value is positive.
     #[default]
     Fail,
     /// When the counter is less than the previous value, don't fail and update the value.
     ///
     /// Note in the special case that the new signature counter is 0, [`DynamicState::sign_count`] _won't_
     /// be updated since that would allow an attacker to permanently disable the counter.
     Update,
     /// When the counter is less than the previous value, don't fail but don't update the value.
     Ignore,
 }
 impl SignatureCounterEnforcement {
     /// Validates the signature counter based on `self`.
     const fn validate(self, prev: u32, cur: u32) -> Result<u32, AuthCeremonyErr> {
         if prev == 0 || cur > prev {
             Ok(cur)
         } else {
             match self {
                 Self::Fail => Err(AuthCeremonyErr::SignatureCounter),
                 // When the new counter is `0`, we use the previous counter to avoid an attacker from
                 // being able to permanently disable it.
                 Self::Update => Ok(if cur == 0 { prev } else { cur }),
                 Self::Ignore => Ok(prev),
             }
         }
     }
 }
 /// [`AuthenticationExtensionsPRFValues`](https://www.w3.org/TR/webauthn-3/#dictdef-authenticationextensionsprfvalues).
 ///
 /// This is only applicable if
 /// [`hmac-secret`](https://fidoalliance.org/specs/fido-v2.2-rd-20230321/fido-client-to-authenticator-protocol-v2.2-rd-20230321.html#sctn-hmac-secret-extension)
 /// is `true` when registering a new credential with [`register::Extension::prf`] and
 /// [`PublicKeyCredentialRequestOptions::user_verification`] is [`UserVerificationRequirement::Required`].
 ///
 /// Unlike the spec, it is forbidden for
 /// [the decrypted outputs](https://www.w3.org/TR/webauthn-3/#dictdef-authenticationextensionsprfoutputs) to be
 /// passed back in an effort to ensure sensitive data remains client-side. This means
 /// [`prf`](https://www.w3.org/TR/webauthn-3/#dictdef-authenticationextensionsprfoutputs) must not exist,
 /// be `null`, or be an
 /// [`AuthenticationExtensionsPRFOutputs`](https://www.w3.org/TR/webauthn-3/#dictdef-authenticationextensionsprfoutputs)
 /// such that [`results`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfoutputs-results) does not exist,
 /// is `null`, or is an
 /// [`AuthenticationExtensionsPRFValues`](https://www.w3.org/TR/webauthn-3/#dictdef-authenticationextensionsprfvalues) such
 /// that [`first`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-first) is `null` and
 /// [`second`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-second) does not exist or is `null`.
 ///
 /// For the owned analog, see [`PrfInputOwned`].
 ///
 /// When relying on discoverable requests
 /// (i.e., [`PublicKeyCredentialRequestOptions::allow_credentials`] is empty),
 /// one will likely use a static PRF input for _all_ credentials since rolling over PRF inputs
 /// is not feasible. One uses this type for such a thing. In other words, `'a` will likely
 /// be `'static` and [`Self::second`] will likely be `None`.
 #[derive(Clone, Copy, Debug)]
 pub struct PrfInput<'a> {
     /// [`first`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-first).
     pub first: &'a [u8],
     /// [`second`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-second).
     pub second: Option<&'a [u8]>,
     /// Response requirements.
     pub ext_info: ExtensionReq,
 }
 /// Owned version of [`PrfInput`].
 ///
 /// When relying on non-discoverable requests
 /// (i.e., [`PublicKeyCredentialRequestOptions::allow_credentials`] is non-empty),
 /// it's recommended to use credential-specific PRF inputs that are continuously rolled over.
 /// One uses this type for such a thing.
 #[derive(Debug)]
 pub struct PrfInputOwned {
     /// [`first`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-first).
     pub first: Vec<u8>,
     /// [`second`](https://www.w3.org/TR/webauthn-3/#dom-authenticationextensionsprfvalues-second).
     pub second: Option<Vec<u8>>,
     /// Response requirements.
     pub ext_info: ExtensionReq,
 }
 /// The [defined extensions](https://www.w3.org/TR/webauthn-3/#sctn-defined-extensions) to send to the client.
 #[derive(Clone, Copy, Debug, Default)]
 pub struct Extension<'prf> {
     /// [`prf`](https://www.w3.org/TR/webauthn-3/#prf-extension).
     ///
     /// If both [`CredentialSpecificExtension::prf`] and this are [`Some`], then `CredentialSpecificExtension::prf`
     /// takes priority.
     pub prf: Option<PrfInput<'prf>>,
 }
 /// The [defined extensions](https://www.w3.org/TR/webauthn-3/#sctn-defined-extensions) to send to the client that
 /// are credential-specific which among other things implies a non-discoverable request.
 #[derive(Debug, Default)]
 pub struct CredentialSpecificExtension {
     /// [`prf`](https://www.w3.org/TR/webauthn-3/#prf-extension).
     ///
     /// If both [`Extension::prf`] and this are [`Some`], then this take priority.
     pub prf: Option<PrfInputOwned>,
 }
 /// Registered credential used in
 /// [`allowCredentials`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-allowcredentials).
 #[derive(Debug)]
 pub struct AllowedCredential {
     /// The registered credential.
     pub credential: PublicKeyCredentialDescriptor<Vec<u8>>,
     /// Credential-specific extensions.
     pub extension: CredentialSpecificExtension,
 }
 impl From<PublicKeyCredentialDescriptor<Vec<u8>>> for AllowedCredential {
     #[inline]
     fn from(credential: PublicKeyCredentialDescriptor<Vec<u8>>) -> Self {
         Self {
             credential,
             extension: CredentialSpecificExtension::default(),
         }
     }
 }
 /// Queue of unique [`AllowedCredential`]s.
 #[derive(Debug, Default)]
 pub struct AllowedCredentials {
     /// Allowed credentials.
     creds: Vec<AllowedCredential>,
     /// Number of `AllowedCredential`s that have PRF inputs.
     ///
     /// Useful to help serialization.
     prf_count: usize,
 }
 impl Credentials for AllowedCredentials {
     type Credential = AllowedCredential;
     /// # Examples
     ///
     /// ```
     /// # use webauthn_rp::request::{auth::AllowedCredentials, Credentials};
     /// assert!(AllowedCredentials::with_capacity(1).as_ref().is_empty());
     /// ```
     #[inline]
     #[must_use]
     fn with_capacity(capacity: usize) -> Self {
         Self {
             creds: Vec::with_capacity(capacity),
             prf_count: 0,
         }
     }
     /// # Examples
     ///
     /// ```
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// # use webauthn_rp::{bin::Decode, response::bin::DecodeAuthTransportsErr};
     /// # use webauthn_rp::{
     /// #     request::{auth::AllowedCredentials, PublicKeyCredentialDescriptor, Credentials},
     /// #     response::{AuthTransports, CredentialId},
     /// # };
     /// /// Retrieves the `AuthTransports` associated with the unique `cred_id`
     /// /// from the database.
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// fn get_transports(cred_id: CredentialId<&[u8]>) -> Result<AuthTransports, DecodeAuthTransportsErr> {
     ///     // ⋮
     /// #     AuthTransports::decode(32)
     /// }
     /// let mut creds = AllowedCredentials::with_capacity(1);
     /// assert!(creds.as_ref().is_empty());
     /// // `CredentialId::try_from` only exists when `custom` is enabled; and even then, it is
     /// // likely never needed since the `CredentialId` was originally sent from the client and is likely
     /// // stored in a database which would be fetched by `UserHandle` or `Authentication::raw_id`.
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let id = CredentialId::try_from(vec![0; 16])?;
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let transports = get_transports((&id).into())?;
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// assert!(creds.push(PublicKeyCredentialDescriptor { id, transports }.into()));
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let id_copy = CredentialId::try_from(vec![0; 16])?;
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let transports_2 = AuthTransports::NONE;
     /// // Duplicate `CredentialId`s don't get added.
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// assert!(!creds.push(
     ///     PublicKeyCredentialDescriptor {
     ///         id: id_copy,
     ///         transports: transports_2
     ///     }
     ///     .into()
     /// ));
     /// # Ok::<_, webauthn_rp::AggErr>(())
     /// ```
     #[expect(
         clippy::arithmetic_side_effects,
         reason = "comment explains how overflow is not possible"
     )]
     #[inline]
     fn push(&mut self, cred: Self::Credential) -> bool {
         self.creds
             .iter()
             .try_fold((), |(), c| {
                 if c.credential.id == cred.credential.id {
                     Err(())
                 } else {
                     Ok(())
                 }
             })
             .is_ok_and(|()| {
                 // This can't overflow since `self.creds.push` would `panic` since
                 // `self.prf_count <= self.creds.len()`.
                 self.prf_count += usize::from(cred.extension.prf.is_some());
                 self.creds.push(cred);
                 true
             })
     }
     #[inline]
     fn len(&self) -> usize {
         self.creds.len()
     }
 }
 impl AsRef<[AllowedCredential]> for AllowedCredentials {
     #[inline]
     fn as_ref(&self) -> &[AllowedCredential] {
         self.creds.as_slice()
     }
 }
 impl From<&AllowedCredentials> for Vec<CredInfo> {
     #[inline]
     fn from(value: &AllowedCredentials) -> Self {
         let len = value.creds.len();
         value
             .creds
             .iter()
             .fold(Self::with_capacity(len), |mut creds, cred| {
                 creds.push(CredInfo {
                     id: cred.credential.id.clone(),
                     ext: (&cred.extension).into(),
                 });
                 creds
             })
     }
 }
 /// Helper that verifies the overlap of [`PublicKeyCredentialRequestOptions::start_ceremony`] and
 /// [`AuthenticationServerState::decode`].
 fn validate_options_helper(
     ext: ServerExtensionInfo,
     uv: UserVerificationRequirement,
     creds: &[CredInfo],
 ) -> Result<(), RequestOptionsErr> {
     // If PRF is set, the user has to verify themselves.
     ext.prf
         .as_ref()
         .map_or(Ok(()), |_| {
             if matches!(uv, UserVerificationRequirement::Required) {
                 Ok(())
             } else {
                 Err(RequestOptionsErr::PrfWithoutUserVerification)
             }
         })
         .and_then(|()| {
             creds.iter().try_fold((), |(), cred| {
                 // If PRF is set, the user has to verify themselves.
                 cred.ext.prf.as_ref().map_or(Ok(()), |_| {
                     if matches!(uv, UserVerificationRequirement::Required) {
                         Ok(())
                     } else {
                         Err(RequestOptionsErr::PrfWithoutUserVerification)
                     }
                 })
             })
         })
 }
 /// The [`PublicKeyCredentialRequestOptions`](https://www.w3.org/TR/webauthn-3/#dictdef-publickeycredentialrequestoptions)
 /// to send to the client when authenticating a credential.
 ///
 /// Upon saving the [`AuthenticationServerState`] returned from [`Self::start_ceremony`], one MUST send
 /// [`AuthenticationClientState`] to the client ASAP. After receiving the newly created [`Authentication`], it
 /// is validated using [`AuthenticationServerState::verify`].
 #[derive(Debug)]
 pub struct PublicKeyCredentialRequestOptions<'rp_id, 'prf> {
     /// [`challenge`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-challenge).
     pub challenge: Challenge,
     /// [`timeout`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-timeout).
     ///
     /// Note we require a positive value despite the spec allowing an optional nonnegative value. This jives
     /// with the fact that in-memory storage is required when `serializable_server_state` is not enabled
     /// when authenticating credentials as no timeout would make out-of-memory (OOM) conditions more likely.
     pub timeout: NonZeroU32,
     /// [`rpId`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-rpid).
     ///
     /// This MUST be the same as the [`PublicKeyCredentialCreationOptions::rp_id`] used when the credential was registered.
     pub rp_id: &'rp_id RpId,
     /// [`allowCredentials`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-allowcredentials).
     pub allow_credentials: AllowedCredentials,
     /// [`userVerification`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-userverification).
     pub user_verification: UserVerificationRequirement,
     /// [`hints`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-hints).
     pub hints: Hint,
     /// [`extensions`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-extensions).
     pub extensions: Extension<'prf>,
 }
 impl<'rp_id, 'prf> PublicKeyCredentialRequestOptions<'rp_id, 'prf> {
     /// Creates a `PublicKeyCredentialRequestOptions` with [`Self::user_verification`] set to
     /// [`UserVerificationRequirement::Required`] and [`Self::timeout`] set to 5 minutes,
     ///
     /// Note `rp_id` _must_ be the same as the [`PublicKeyCredentialCreationOptions::rp_id`] when the
     /// credential was registered.
     ///
     /// # Examples
     ///
     /// ```
     /// # use webauthn_rp::request::{auth::PublicKeyCredentialRequestOptions, AsciiDomain, RpId, UserVerificationRequirement};
     /// assert!(matches!(
     ///     PublicKeyCredentialRequestOptions::passkey(&RpId::Domain(AsciiDomain::try_from("example.com".to_owned())?)).user_verification,
     ///     UserVerificationRequirement::Required
     /// ));
     /// # Ok::<_, webauthn_rp::AggErr>(())
     /// ```
     #[inline]
     #[must_use]
     pub fn passkey<'a: 'rp_id>(rp_id: &'a RpId) -> Self {
         Self {
             challenge: Challenge::new(),
             timeout: THREE_HUNDRED_THOUSAND,
             rp_id,
             allow_credentials: AllowedCredentials::new(),
             user_verification: UserVerificationRequirement::Required,
             hints: Hint::None,
             extensions: Extension::default(),
         }
     }
     /// Creates a `PublicKeyCredentialRequestOptions` with [`Self::user_verification`] set to
     /// [`UserVerificationRequirement::Discouraged`] and [`Self::timeout`] set to 5 minutes.
     ///
     /// Note `rp_id` _must_ be the same as the [`PublicKeyCredentialCreationOptions::rp_id`] when the
     /// [`AllowedCredential`]s were registered.
     ///
     /// # Errors
     ///
     /// Errors iff [`AllowedCredentials`] is empty.
     ///
     /// # Examples
     ///
     /// ```
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// # use webauthn_rp::{bin::Decode, response::bin::DecodeAuthTransportsErr};
     /// # use webauthn_rp::{
     /// #     request::{
     /// #         auth::{AllowedCredentials, PublicKeyCredentialRequestOptions},
     /// #         AsciiDomain, RpId, PublicKeyCredentialDescriptor, Credentials
     /// #     },
     /// #     response::{AuthTransports, CredentialId},
     /// # };
     /// /// Retrieves the `AuthTransports` associated with the unique `cred_id`
     /// /// from the database.
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// fn get_transports(cred_id: CredentialId<&[u8]>) -> Result<AuthTransports, DecodeAuthTransportsErr> {
     ///     // ⋮
     /// #     AuthTransports::decode(32)
     /// }
     /// let mut creds = AllowedCredentials::with_capacity(1);
     /// assert!(creds.as_ref().is_empty());
     /// // `CredentialId::try_from` only exists when `custom` is enabled; and even then, it is
     /// // likely never needed since the `CredentialId` was originally sent from the client and is likely
     /// // stored in a database which would be fetched by `UserHandle` or `Authentication::raw_id`.
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let id = CredentialId::try_from(vec![0; 16])?;
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// let transports = get_transports((&id).into())?;
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// assert!(creds.push(PublicKeyCredentialDescriptor { id, transports }.into()));
     /// # #[cfg(all(feature = "bin", feature = "custom"))]
     /// assert_eq!(
     ///     PublicKeyCredentialRequestOptions::second_factor(&RpId::Domain(AsciiDomain::try_from("example.com".to_owned())?), creds)?
     ///         .allow_credentials
     ///         .as_ref()
     ///         .len(),
     ///     1
     /// );
     /// # Ok::<_, webauthn_rp::AggErr>(())
     /// ```
     #[inline]
     pub fn second_factor<'a: 'rp_id>(
         rp_id: &'a RpId,
         creds: AllowedCredentials,
     ) -> Result<Self, SecondFactorErr> {
         if creds.as_ref().is_empty() {
             Err(SecondFactorErr)
         } else {
             let mut opts = Self::passkey(rp_id);
             opts.allow_credentials = creds;
             opts.user_verification = UserVerificationRequirement::Discouraged;
             Ok(opts)
         }
     }
     /// Begins the [authentication ceremony](https://www.w3.org/TR/webauthn-3/#authentication-ceremony) consuming
     /// `self`. Note that the expiration [`Instant`]/[`SystemTime`] is saved, so `AuthenticationClientState` MUST be
     /// sent ASAP. In order to complete authentication, the returned `AuthenticationServerState` MUST be saved so
     /// that it can later be used to verify the credential assertion with [`AuthenticationServerState::verify`].
     ///
     /// # Errors
     ///
     /// Errors iff `self` contains incompatible configuration.
     ///
     /// # Examples
     ///
     /// ```
     /// # #[cfg(not(feature = "serializable_server_state"))]
     /// # use std::time::Instant;
     /// # #[cfg(not(feature = "serializable_server_state"))]
     /// # use webauthn_rp::request::ServerState;
     /// # use webauthn_rp::request::{auth::PublicKeyCredentialRequestOptions, AsciiDomain, RpId};
     /// # #[cfg(not(feature = "serializable_server_state"))]
     /// assert!(
     ///     PublicKeyCredentialRequestOptions::passkey(&RpId::Domain(AsciiDomain::try_from("example.com".to_owned())?))
     ///         .start_ceremony()?
     ///         .0
     ///         .expiration() > Instant::now()
     /// );
     /// # Ok::<_, webauthn_rp::AggErr>(())
     /// ```
     #[inline]
     pub fn start_ceremony(
         self,
     ) -> Result<
         (
             AuthenticationServerState,
             AuthenticationClientState<'rp_id, 'prf>,
         ),
         RequestOptionsErr,
     > {
         let extensions = self.extensions.into();
         let allow_credentials = Vec::from(&self.allow_credentials);
         validate_options_helper(extensions, self.user_verification, &allow_credentials).and_then(
             |()| {
                 #[cfg(not(feature = "serializable_server_state"))]
                 let res = Instant::now();
                 #[cfg(feature = "serializable_server_state")]
                 let res = SystemTime::now();
                 res.checked_add(Duration::from_millis(NonZeroU64::from(self.timeout).get()))
                     .ok_or(RequestOptionsErr::InvalidTimeout)
                     .map(|expiration| {
                         (
                             AuthenticationServerState {
                                 challenge: SentChallenge(self.challenge.0),
                                 allow_credentials,
                                 user_verification: self.user_verification,
                                 extensions,
                                 expiration,
                             },
                             AuthenticationClientState(self),
                         )
                     })
             },
         )
     }
 }
 /// Container of a [`PublicKeyCredentialRequestOptions`] that has been used to start the authentication ceremony.
 /// This gets sent to the client ASAP.
 #[derive(Debug)]
 pub struct AuthenticationClientState<'rp_id, 'prf>(PublicKeyCredentialRequestOptions<'rp_id, 'prf>);
 impl AuthenticationClientState<'_, '_> {
     /// Returns the `PublicKeyCredentialRequestOptions` that was used to start an authentication ceremony.
     ///
     /// # Examples
     ///
     /// ```
     /// # use webauthn_rp::request::{auth::PublicKeyCredentialRequestOptions, AsciiDomain, RpId};
     /// assert!(
     ///     PublicKeyCredentialRequestOptions::passkey(&RpId::Domain(AsciiDomain::try_from("example.com".to_owned())?))
     ///         .start_ceremony()?
     ///         .1
     ///         .options()
     ///         .allow_credentials
     ///         .as_ref()
     ///         .is_empty()
     /// );
     /// # Ok::<_, webauthn_rp::AggErr>(())
     /// ```
     #[inline]
     #[must_use]
     pub const fn options(&self) -> &PublicKeyCredentialRequestOptions<'_, '_> {
         &self.0
     }
 }
 /// `PrfInput` and `PrfInputOwned` without the actual data sent to reduce memory usage when storing [`AuthenticationServerState`]
 /// in an in-memory collection.
 #[derive(Clone, Copy, Debug)]
 enum ServerPrfInfo {
     /// `PrfInput::second` was `None`.
     One(ExtensionReq),
     /// `PrfInput::second` was `Some`.
     Two(ExtensionReq),
 }
 impl ServerPrfInfo {
     /// Returns the `ExtensionReq` sent to the client.
     const fn ext_info(self) -> ExtensionReq {
         match self {
             Self::One(info) | Self::Two(info) => info,
         }
     }
     /// Validates `val` based on the passed arguments.
     fn validate(
         val: Option<Self>,
         prf_capable: bool,
         hmac: HmacSecret,
         err_unsolicited: bool,
     ) -> Result<(), ExtensionErr> {
         match hmac {
             HmacSecret::None => {
                 if prf_capable {
                     val.map_or(Ok(()), |input| {
                         if matches!(input.ext_info(), ExtensionReq::Allow) {
                             Ok(())
                         } else {
                             Err(ExtensionErr::MissingHmacSecret)
                         }
                     })
                 } else {
                     // We check if the PRF extension was requested on an incapable credential;
                     // if so, we error.
                     val.map_or(Ok(()), |_| Err(ExtensionErr::HmacSecretForPrfIncapableCred))
                 }
             }
             HmacSecret::One => {
                 if prf_capable {
                     val.map_or_else(
                         || {
                             if err_unsolicited {
                                 Err(ExtensionErr::ForbiddenHmacSecret)
                             } else {
                                 Ok(())
                             }
                         },
                         |input| match input {
                             Self::One(_) => Ok(()),
                             Self::Two(_) => Err(ExtensionErr::InvalidHmacSecretValue(
                                 OneOrTwo::Two,
                                 OneOrTwo::One,
                             )),
                         },
                     )
                 } else {
                     Err(ExtensionErr::HmacSecretForPrfIncapableCred)
                 }
             }
             HmacSecret::Two => {
                 if prf_capable {
                     val.map_or_else(
                         || {
                             if err_unsolicited {
                                 Err(ExtensionErr::ForbiddenHmacSecret)
                             } else {
                                 Ok(())
                             }
                         },
                         |input| match input {
                             Self::One(_) => Err(ExtensionErr::InvalidHmacSecretValue(
                                 OneOrTwo::One,
                                 OneOrTwo::Two,
                             )),
                             Self::Two(_) => Ok(()),
                         },
                     )
                 } else {
                     Err(ExtensionErr::HmacSecretForPrfIncapableCred)
                 }
             }
         }
     }
 }
 impl From<PrfInput<'_>> for ServerPrfInfo {
     fn from(value: PrfInput<'_>) -> Self {
         value
             .second
             .map_or_else(|| Self::One(value.ext_info), |_| Self::Two(value.ext_info))
     }
 }
 impl From<&PrfInputOwned> for ServerPrfInfo {
     fn from(value: &PrfInputOwned) -> Self {
         value
             .second
             .as_ref()
             .map_or_else(|| Self::One(value.ext_info), |_| Self::Two(value.ext_info))
     }
 }
 /// `Extension` without the actual data sent to reduce memory usage when storing [`AuthenticationServerState`]
 /// in an in-memory collection.
 #[derive(Clone, Copy, Debug)]
 struct ServerExtensionInfo {
     /// `Extension::prf`.
     prf: Option<ServerPrfInfo>,
 }
 impl From<Extension<'_>> for ServerExtensionInfo {
     fn from(value: Extension<'_>) -> Self {
         Self {
             prf: value.prf.map(ServerPrfInfo::from),
         }
     }
 }
 /// `CredentialSpecificExtension` without the actual data sent to reduce memory usage when storing [`AuthenticationServerState`]
 /// in an in-memory collection.
 #[derive(Clone, Copy, Debug)]
 struct ServerCredSpecificExtensionInfo {
     /// `CredentialSpecificExtension::prf`.
     prf: Option<ServerPrfInfo>,
 }
 impl From<&CredentialSpecificExtension> for ServerCredSpecificExtensionInfo {
     fn from(value: &CredentialSpecificExtension) -> Self {
         Self {
             prf: value.prf.as_ref().map(ServerPrfInfo::from),
         }
     }
 }
 impl ServerExtensionInfo {
     /// Validates the extensions.
     ///
     /// Note that this MUST only be called internally by `auth::validate_extensions`.
     fn validate_extensions(
         self,
         auth_ext: AuthenticatorExtensionOutput,
         error_unsolicited: bool,
         prf_capable: bool,
     ) -> Result<(), ExtensionErr> {
         ServerPrfInfo::validate(
             self.prf,
             prf_capable,
             auth_ext.hmac_secret,
             error_unsolicited,
         )
     }
 }
 /// Validates the extensions.
 fn validate_extensions(
     ext: ServerExtensionInfo,
     cred_ext: Option<ServerCredSpecificExtensionInfo>,
     auth_ext: AuthenticatorExtensionOutput,
     error_unsolicited: bool,
     prf_capable: bool,
 ) -> Result<(), ExtensionErr> {
     cred_ext.map_or_else(
         || {
             // No client-specific extensions, so we can simply focus on `ext`.
             ext.validate_extensions(auth_ext, error_unsolicited, prf_capable)
         },
         |c_ext| {
             // Must carefully process each extension based on overlap and which gets priority over the other.
             c_ext.prf.as_ref().map_or_else(
                 || {
                     ServerPrfInfo::validate(
                         ext.prf,
                         prf_capable,
                         auth_ext.hmac_secret,
                         error_unsolicited,
                     )
                 },
                 |_| {
                     ServerPrfInfo::validate(
                         c_ext.prf,
                         prf_capable,
                         auth_ext.hmac_secret,
                         error_unsolicited,
                     )
                 },
             )
         },
     )
 }
 /// [`AllowedCredential`] with less data to reduce memory usage when storing [`AuthenticationServerState`]
 /// in an in-memory collection.
 #[derive(Debug)]
 struct CredInfo {
     /// The Credential ID.
     id: CredentialId<Vec<u8>>,
     /// Any credential-specific extensions.
     ext: ServerCredSpecificExtensionInfo,
 }
 /// Controls how to handle a change in [`DynamicState::authenticator_attachment`].
 ///
 /// Note when `DynamicState::authenticator_attachment` is [`AuthenticatorAttachment::None`], then it will
 /// be updated regardless. Similarly when [`Authentication::authenticator_attachment`] is
 /// `AuthenticatorAttachment::None`, it will never update `DynamicState::authenticator_attachment`.
 #[derive(Clone, Copy, Debug)]
 pub enum AuthenticatorAttachmentEnforcement {
     /// Fail the authentication ceremony if [`AuthenticatorAttachment`] is not the same.
     ///
     /// The contained `bool` represents if `AuthenticatorAttachment` must be sent.
     Fail(bool),
     /// Update [`DynamicState::authenticator_attachment`] to the sent [`AuthenticatorAttachment`].
     ///
     /// The contained `bool` represents if `AuthenticatorAttachment` must be sent.
     Update(bool),
     /// Do not update [`DynamicState::authenticator_attachment`] to the sent [`AuthenticatorAttachment`].
     ///
     /// The contained `bool` represents if `AuthenticatorAttachment` must be sent.
     Ignore(bool),
 }
 impl AuthenticatorAttachmentEnforcement {
     /// Validates `cur` based on `self` and `prev`.
     const fn validate(
         self,
         prev: AuthenticatorAttachment,
         cur: AuthenticatorAttachment,
     ) -> Result<AuthenticatorAttachment, AuthCeremonyErr> {
         match cur {
             AuthenticatorAttachment::None => match self {
                 Self::Fail(require) | Self::Update(require) | Self::Ignore(require) => {
                     if require {
                         Err(AuthCeremonyErr::MissingAuthenticatorAttachment)
                     } else {
                         // We don't overwrite the previous one with [`AuthenticatorAttachment::None`].
                         Ok(prev)
                     }
                 }
             },
             AuthenticatorAttachment::Platform => match self {
                 Self::Fail(_) => {
                     if matches!(prev, AuthenticatorAttachment::CrossPlatform) {
                         Err(AuthCeremonyErr::AuthenticatorAttachmentMismatch)
                     } else {
                         // We don't fail when we previously had [`AuthenticatorAttachment::None`].
                         Ok(cur)
                     }
                 }
                 Self::Update(_) => Ok(cur),
                 Self::Ignore(_) => {
                     if matches!(prev, AuthenticatorAttachment::None) {
                         // We overwrite the previous one when it is [`AuthenticatorAttachment::None`].
                         Ok(cur)
                     } else {
                         Ok(prev)
                     }
                 }
             },
             AuthenticatorAttachment::CrossPlatform => match self {
                 Self::Fail(_) => {
                     if matches!(prev, AuthenticatorAttachment::Platform) {
                         Err(AuthCeremonyErr::AuthenticatorAttachmentMismatch)
                     } else {
                         // We don't fail when we previously had [`AuthenticatorAttachment::None`].
                         Ok(cur)
                     }
                 }
                 Self::Update(_) => Ok(cur),
                 Self::Ignore(_) => {
                     if matches!(prev, AuthenticatorAttachment::None) {
                         // We overwrite the previous one when it is [`AuthenticatorAttachment::None`].
                         Ok(cur)
                     } else {
                         Ok(prev)
                     }
                 }
             },
         }
     }
 }
 impl Default for AuthenticatorAttachmentEnforcement {
     /// Returns [`Self::Ignore`] containing `false`.
     #[inline]
     fn default() -> Self {
         Self::Ignore(false)
     }
 }
 /// Additional verification options to perform in [`AuthenticationServerState::verify`].
 #[derive(Clone, Copy, Debug)]
 pub struct AuthenticationVerificationOptions<'origins, 'top_origins, O, T> {
     /// Origins to use for [origin validation](https://www.w3.org/TR/webauthn-3/#sctn-validating-origin).
     ///
     /// When this is empty, the origin that will be used will be based on
     /// the [`RpId`] passed to [`AuthenticationServerState::verify`]. If [`RpId::Domain`], then the [`DomainOrigin`] returned from
     /// passing [`AsciiDomain::as_ref`] to [`DomainOrigin::new`] will be used; otherwise the [`Url`] in
     /// [`RpId::Url`] will be used.
     pub allowed_origins: &'origins [O],
     /// [Top-level origins](https://html.spec.whatwg.org/multipage/webappapis.html#concept-environment-top-level-origin)
     /// to use for [origin validation](https://www.w3.org/TR/webauthn-3/#sctn-validating-origin).
     ///
     /// When this is `Some`, [`CollectedClientData::cross_origin`] is allowed to be `true`. When the contained
     /// `slice` is empty, [`CollectedClientData::top_origin`] must be `None`. When this is `None`,
     /// `CollectedClientData::cross_origin` must be `false` and `CollectedClientData::top_origin` must be `None`.
     pub allowed_top_origins: Option<&'top_origins [T]>,
     /// The required [`Backup`] state of the credential.
     ///
     /// Note that `None` is _not_ the same as `Some(BackupReq::None)` as the latter indicates that any [`Backup`]
     /// is allowed. This is rarely what you want; instead, `None` indicates that [`BackupReq::from`] applied to
     /// [`DynamicState::backup`] will be used in [`AuthenticationServerState::verify`].
     pub backup_requirement: Option<BackupReq>,
     /// Error when unsolicited extensions are sent back iff `true`.
     pub error_on_unsolicited_extensions: bool,
     /// Dictates what happens when [`Authentication::authenticator_attachment`] is not the same as
     /// [`DynamicState::authenticator_attachment`].
     pub auth_attachment_enforcement: AuthenticatorAttachmentEnforcement,
     /// [`DynamicState::user_verified`] will be set to `true` iff [`Flag::user_verified`] when `true`.
     pub update_uv: bool,
     /// Dictates what happens when [`AuthenticatorData::sign_count`] is not updated to a strictly greater value.
     pub sig_counter_enforcement: SignatureCounterEnforcement,
     /// [`CollectedClientData::from_client_data_json_relaxed`] is used to extract [`CollectedClientData`] iff `true`.
     #[cfg_attr(docsrs, doc(cfg(feature = "serde_relaxed")))]
     #[cfg(feature = "serde_relaxed")]
     pub client_data_json_relaxed: bool,
 }
 impl<O, T> Default for AuthenticationVerificationOptions<'_, '_, O, T> {
     /// Returns `Self` such that [`Self::allowed_origins`] is empty, [`Self::allowed_top_origins`] is `None`,
     /// [`Self::backup_requirement`] is `None`, [`Self::error_on_unsolicited_extensions`] is `true`,
     /// [`Self::auth_attachment_enforcement`] is [`AuthenticatorAttachmentEnforcement::default`],
     /// [`Self::update_uv`] is `false`, [`Self::sig_counter_enforcement`] is
     /// [`SignatureCounterEnforcement::Fail`], and [`Self::client_data_json_relaxed`] is `true`.
     #[inline]
     fn default() -> Self {
         Self {
             allowed_origins: &[],
             allowed_top_origins: None,
             backup_requirement: None,
             error_on_unsolicited_extensions: true,
             auth_attachment_enforcement: AuthenticatorAttachmentEnforcement::default(),
             update_uv: false,
             sig_counter_enforcement: SignatureCounterEnforcement::default(),
             #[cfg(feature = "serde_relaxed")]
             client_data_json_relaxed: true,
         }
     }
 }
 // This is essentially the `PublicKeyCredentialRequestOptions` used to create it; however to reduce
 // memory usage, we remove all unnecessary data making an instance of this 64 bytes in size when
 // `Self::allow_credentials` is empty on `x86_64-unknown-linux-gnu` platforms.
 //
 // The total memory used is dependent on the number of `AllowedCredential`s and the size of each `CredentialId`.
 // To be exact, it is the following:
 // 64 + i(32 + 56n + Σj_k from k=0 to k=m-1) where i is 0 iff `AllowedCredentials` has capacity 0; otherwise 1,
 // n is `AllowedCredentials` capacity, j_k is the kth `CredentialId` in `AllowedCredentials` and `m` is
 // `AllowedCredentials::len`.
 /// State needed to be saved when beginning the authentication ceremony.
 ///
 /// Saves the necessary information associated with the [`PublicKeyCredentialRequestOptions`] used to create it
 /// via [`PublicKeyCredentialRequestOptions::start_ceremony`] so that authentication of a credential can be
 /// performed with [`Self::verify`].
 ///
 /// `AuthenticationServerState` implements [`Borrow`] of [`SentChallenge`]; thus to obtain the correct
 /// `AuthenticationServerState` associated with an [`Authentication`], one should use its corresponding
 /// [`Authentication::challenge`].
 #[derive(Debug)]
 pub struct AuthenticationServerState {
     // This is a `SentChallenge` since we need `AuthenticationServerState` to be fetchable after receiving the
     // response from the client. This response must obviously be constructable; thus its challenge is a
     // `SentChallenge`.
     //
     // This must never be mutated since we want to ensure it is actually a `Challenge` (which
     // can only be constructed via `Challenge::new`). This is guaranteed to be true iff
     // `serializable_server_state` is not enabled.
     /// [`challenge`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-challenge).
     challenge: SentChallenge,
     /// [`allowCredentials`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-allowcredentials).
     allow_credentials: Vec<CredInfo>,
     /// [`userVerification`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-userverification).
     user_verification: UserVerificationRequirement,
     /// [`extensions`](https://www.w3.org/TR/webauthn-3/#dom-publickeycredentialrequestoptions-extensions).
     extensions: ServerExtensionInfo,
     /// `Instant` the ceremony expires.
     #[cfg(not(feature = "serializable_server_state"))]
     expiration: Instant,
     /// `SystemTime` the ceremony expires.
     #[cfg(feature = "serializable_server_state")]
     expiration: SystemTime,
 }
 impl AuthenticationServerState {
     /// Verifies `response` is valid based on `self` consuming `self` and updating `cred`. Returns `true`
     /// iff `cred` was mutated.
     ///
     /// `rp_id` MUST be the same as the [`PublicKeyCredentialRequestOptions::rp_id`] used when starting the
     /// ceremony.
     ///
     /// It is _essential_ to save [`AuthenticatedCredential::dynamic_state`] overwriting the original value iff `Ok(true)`
     /// is returned.
     ///
     /// # Errors
     ///
     /// Errors iff `response` is not valid according to the
     /// [authentication ceremony](https://www.w3.org/TR/webauthn-3/#sctn-verifying-assertion) or violates any
     /// of the settings in `options`.
     #[inline]
     pub fn verify<
         'a,
         'user,
         O: PartialEq<Origin<'a>>,
         T: PartialEq<Origin<'a>>,
         EdKey: AsRef<[u8]>,
         P256Key: AsRef<[u8]>,
         P384Key: AsRef<[u8]>,
         RsaKey: AsRef<[u8]>,
     >(
         self,
         rp_id: &RpId,
         response: &'a Authentication,
         cred: &mut AuthenticatedCredential<
             'a,
             'user,
             CompressedPubKey<EdKey, P256Key, P384Key, RsaKey>,
         >,
         options: &AuthenticationVerificationOptions<'_, '_, O, T>,
     ) -> Result<bool, AuthCeremonyErr> {
         // [Authentication ceremony](https://www.w3.org/TR/webauthn-3/#sctn-verifying-assertion)
         // is handled by:
         //
         // 1. Calling code.
         // 2. Client code and the construction of `resp` (hopefully via [`Authentication::deserialize`]).
         // 3. Client code and the construction of `resp` (hopefully via [`AuthenticatorAssertion::deserialize`]).
         // 4. Client code and the construction of `resp` (hopefully via [`ClientExtensionsOutputs::deserialize`]).
         // 5. Below.
         // 6. Below.
         // 7. Informative only in that it defines variables.
         // 8. [`Self::partial_validate`].
         // 9. [`Self::partial_validate`].
         // 10. [`Self::partial_validate`].
         // 11. [`Self::partial_validate`].
         // 12. [`Self::partial_validate`].
         // 13. [`Self::partial_validate`].
         // 14. [`Self::partial_validate`].
         // 15. [`Self::partial_validate`].
         // 16. [`Self::partial_validate`].
         // 17. [`Self::partial_validate`].
         // 18. [`Self::partial_validate`].
         // 19. [`Self::partial_validate`].
         // 20. [`Self::partial_validate`].
         // 21. [`Self::partial_validate`].
         // 22. Below.
         // 23. Below.
         // 24. Below.
         // 25. Below.
 
         if self.allow_credentials.is_empty() {
             // Step 6.
             response
                 .response
                 .user_handle()
                 .as_ref()
                 .ok_or(AuthCeremonyErr::MissingUserHandle)
                 .and_then(|user| {
                     if cred.user_id() == user {
                         if cred.id == response.raw_id {
                             Ok(None)
                         } else {
                             Err(AuthCeremonyErr::CredentialIdMismatch)
                         }
                     } else {
                         Err(AuthCeremonyErr::UserHandleMismatch)
                     }
                 })
         } else {
             // Steps 5–6.
             self.verify_nondiscoverable(response, cred)
         }
         .and_then(|ext| {
             // Steps 8–21.
             self.partial_validate(
                 rp_id,
                 response,
                 (&cred.static_state.credential_public_key).into(),
                 &CeremonyOptions {
                     allowed_origins: options.allowed_origins,
                     allowed_top_origins: options.allowed_top_origins,
                     backup_requirement: options
                         .backup_requirement
                         .unwrap_or_else(|| BackupReq::from(cred.dynamic_state.backup)),
                     #[cfg(feature = "serde_relaxed")]
                     client_data_json_relaxed: options.client_data_json_relaxed,
                 },
             )
             .map_err(AuthCeremonyErr::from)
             .and_then(|auth_data| {
                 options
                     .auth_attachment_enforcement
                     .validate(
                         cred.dynamic_state.authenticator_attachment,
                         response.authenticator_attachment,
                     )
                     .and_then(|auth_attachment| {
                         // Step 23.
                         validate_extensions(
                             self.extensions,
                             ext,
                             auth_data.extensions(),
                             options.error_on_unsolicited_extensions,
                             cred.static_state.extensions.hmac_secret.unwrap_or_default(),
                         )
                         .map_err(AuthCeremonyErr::Extension)
                         .and_then(|()| {
                             // Step 22.
                             options
                                 .sig_counter_enforcement
                                 .validate(cred.dynamic_state.sign_count, auth_data.sign_count())
                                 .and_then(|sig_counter| {
                                     let flags = auth_data.flags();
                                     let prev_dyn_state = cred.dynamic_state;
                                     // Step 24 item 2.
                                     cred.dynamic_state.backup = flags.backup;
                                     if options.update_uv && flags.user_verified {
                                         // Step 24 item 3.
                                         cred.dynamic_state.user_verified = true;
                                     }
                                     // Step 24 item 1.
                                     cred.dynamic_state.sign_count = sig_counter;
                                     cred.dynamic_state.authenticator_attachment = auth_attachment;
                                     // Step 25.
                                     crate::verify_static_and_dynamic_state(
                                         &cred.static_state,
                                         cred.dynamic_state,
                                     )
                                     .map_err(|e| {
                                         cred.dynamic_state = prev_dyn_state;
                                         AuthCeremonyErr::Credential(e)
                                     })
                                     .map(|()| prev_dyn_state != cred.dynamic_state)
                                 })
                         })
                     })
             })
         })
     }
     /// Retrieves the corresponding [`CredInfo`] used for a non-discoverable request that corresponds to
     /// `response`. Since this is a non-discoverable request, one must have an external way of identifying the
     /// `UserHandle`.
     ///
     /// This MUST be called iff a non-discoverable request was sent to the client (e.g.,
     /// [`PublicKeyCredentialRequestOptions::second_factor`]).
     ///
     /// # Errors
     ///
     /// Errors iff [`AuthenticatedCredential::user_handle`] does not match [`Authentication::user_handle`] or
     /// [`PublicKeyCredentialRequestOptions::allow_credentials`] does not have a [`CredInfo`] such that
     /// [`CredInfo::id`] matches [`Authentication::raw_id`].
     fn verify_nondiscoverable<'a, PublicKey>(
         &self,
         response: &'a Authentication,
         cred: &AuthenticatedCredential<'a, '_, PublicKey>,
     ) -> Result<Option<ServerCredSpecificExtensionInfo>, AuthCeremonyErr> {
         response
             .response
             .user_handle()
             .as_ref()
             .map_or(Ok(()), |user| {
                 if user == cred.user_id() {
                     Ok(())
                 } else {
                     Err(AuthCeremonyErr::UserHandleMismatch)
                 }
             })
             .and_then(|()| {
                 self.allow_credentials
                     .iter()
                     .find(|c| c.id == response.raw_id)
                     .ok_or(AuthCeremonyErr::NoMatchingAllowedCredential)
                     .map(|c| Some(c.ext))
             })
     }
 }
 impl ServerState for AuthenticationServerState {
     #[cfg(any(doc, not(feature = "serializable_server_state")))]
     #[inline]
     fn expiration(&self) -> Instant {
         self.expiration
     }
     #[cfg(all(not(doc), feature = "serializable_server_state"))]
     #[inline]
     fn expiration(&self) -> SystemTime {
         self.expiration
     }
     #[inline]
     fn sent_challenge(&self) -> SentChallenge {
         self.challenge
     }
 }
 impl Ceremony for AuthenticationServerState {
     type R = Authentication;
     fn rand_challenge(&self) -> SentChallenge {
         self.challenge
     }
     #[cfg(not(feature = "serializable_server_state"))]
     fn expiry(&self) -> Instant {
         self.expiration
     }
     #[cfg(feature = "serializable_server_state")]
     fn expiry(&self) -> SystemTime {
         self.expiration
     }
     fn user_verification(&self) -> UserVerificationRequirement {
         self.user_verification
     }
 }
 impl Borrow<SentChallenge> for AuthenticationServerState {
     #[inline]
     fn borrow(&self) -> &SentChallenge {
         &self.challenge
     }
 }
 impl PartialEq for AuthenticationServerState {
     #[inline]
     fn eq(&self, other: &Self) -> bool {
         self.challenge == other.challenge
     }
 }
 impl PartialEq<&Self> for AuthenticationServerState {
     #[inline]
     fn eq(&self, other: &&Self) -> bool {
         *self == **other
     }
 }
 impl PartialEq<AuthenticationServerState> for &AuthenticationServerState {
     #[inline]
     fn eq(&self, other: &AuthenticationServerState) -> bool {
         **self == *other
     }
 }
 impl Eq for AuthenticationServerState {}
 impl Hash for AuthenticationServerState {
     #[inline]
     fn hash<H: Hasher>(&self, state: &mut H) {
         self.challenge.hash(state);
     }
 }
 impl PartialOrd for AuthenticationServerState {
     #[inline]
     fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
         Some(self.cmp(other))
     }
 }
 impl Ord for AuthenticationServerState {
     #[inline]
     fn cmp(&self, other: &Self) -> Ordering {
         self.challenge.cmp(&other.challenge)
     }
 }