Enum sequoia_openpgp::packet::Key [−][src]
Holds a public key, public subkey, private key or private subkey packet.
The different Key
packets are described in Section 5.5 of RFC 4880.
Note: This enum cannot be exhaustively matched to allow future extensions.
Key Variants
There are four different types of keys in OpenPGP: public keys, secret keys, public subkeys, and secret subkeys. Although the semantics of each type of key are slightly different, the underlying representation is identical (even a public key and a secret key are the same: the public key variant just contains 0 bits of secret key material).
In Sequoia, we use a single type, Key
, for all four variants.
To improve type safety, we use marker traits rather than an enum
to distinguish them. Specifically, we Key
is generic over two
type variables, P
and R
.
P
and R
take marker traits, which describe how any secret key
material should be treated, and the key’s role (primary or
subordinate). The markers also determine the Key
’s behavior and
the exposed functionality. P
can be key::PublicParts
,
key::SecretParts
, or key::UnspecifiedParts
. And, R
can
be key::PrimaryRole
, key::SubordinateRole
, or
key::UnspecifiedRole
.
If P
is key::PublicParts
, any secret key material that is
present is ignored. For instance, when serializing a key with
this marker, any secret key material will be skipped. This is
illutrated in the following example. If P
is
key::SecretParts
, then the key definitely contains secret key
material (although it is not guaranteed that the secret key
material is valid), and methods that require secret key material
are available.
Unlike P
, R
does not say anything about the Key
’s content.
But, a key’s role does influence’s the key’s semantics. For
instance, some of a primary key’s meta-data is located on the
primary User ID whereas a subordinate key’s meta-data is located
on its binding signature.
The unspecified variants key::UnspecifiedParts
and
key::UnspecifiedRole
exist to simplify type erasure, which is
needed to mix different types of keys in a single collection. For
instance, Cert::keys
returns an iterator over the keys in a
certificate. Since the keys have different roles (a primary key
and zero or more subkeys), but the Iterator
has to be over a
single, fixed type, the returned keys use the
key::UnspecifiedRole
marker.
Examples
Serializing a public key with secret key material drops the secret key material:
use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::packet::prelude::*; use sequoia_openpgp::parse::Parse; use openpgp::serialize::Serialize; // Generate a new certificate. It has secret key material. let (cert, _) = CertBuilder::new() .generate()?; let pk = cert.primary_key().key(); assert!(pk.has_secret()); // Serializing a `Key<key::PublicParts, _>` drops the secret key // material. let mut bytes = Vec::new(); Packet::from(pk.clone()).serialize(&mut bytes); let p : Packet = Packet::from_bytes(&bytes)?; if let Packet::PublicKey(key) = p { assert!(! key.has_secret()); } else { unreachable!(); }
Conversions
Sometimes it is necessary to change a marker. For instance, to
help prevent a user from inadvertently leaking secret key
material, the Cert
data structure never returns keys with the
key::SecretParts
marker. This means, to use any secret key
material, e.g., when creating a Signer
, the user needs to
explicitly opt-in by changing the marker using
Key::parts_into_secret
or Key::parts_as_secret
.
For P
, the conversion functions are: Key::parts_into_public
,
Key::parts_as_public
, Key::parts_into_secret
,
Key::parts_as_secret
, Key::parts_into_unspecified
, and
Key::parts_as_unspecified
. With the exception of converting
P
to key::SecretParts
, these functions are infallible.
Converting P
to key::SecretParts
may fail if the key doesn’t
have any secret key material. (Note: although the secret key
material is required, it not checked for validity.)
For R
, the conversion functions are Key::role_into_primary
,
Key::role_as_primary
, Key::role_into_subordinate
,
Key::role_as_subordinate
, Key::role_into_unspecified
, and
Key::role_as_unspecified
.
It is also possible to use From
.
Examples
Changing a marker:
use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::packet::prelude::*; // Generate a new certificate. It has secret key material. let (cert, _) = CertBuilder::new() .generate()?; let pk: &Key<key::PublicParts, key::PrimaryRole> = cert.primary_key().key(); // `has_secret`s is one of the few methods that ignores the // parts type. assert!(pk.has_secret()); // Treat it like a secret key. This only works if `pk` really // has secret key material (which it does in this case, see above). let sk = pk.parts_as_secret()?; assert!(sk.has_secret()); // And back. let pk = sk.parts_as_public(); // Yes, the secret key material is still there. assert!(pk.has_secret());
The Cert
data structure only returns public keys. To work
with any secret key material, the Key
first needs to be
converted to a secret key. This is necessary, for instance, when
creating a Signer
:
use std::time; use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::crypto::KeyPair; use openpgp::policy::StandardPolicy; let p = &StandardPolicy::new(); let the_past = time::SystemTime::now() - time::Duration::from_secs(1); let (cert, _) = CertBuilder::new() .set_creation_time(the_past) .generate()?; // Set the certificate to expire now. To do this, we need // to create a new self-signature, and sign it using a // certification-capable key. The primary key is always // certification capable. let mut keypair = cert.primary_key() .key().clone().parts_into_secret()?.into_keypair()?; let sigs = cert.set_expiration_time(p, None, &mut keypair, Some(time::SystemTime::now()))?; let cert = cert.insert_packets(sigs)?; // It's expired now. assert!(cert.with_policy(p, None)?.alive().is_err());
Key Generation
Key
is a wrapper around the different key formats.
(Currently, Sequoia only supports version 4 keys, however, future
versions may add limited support for version 3 keys to facilitate
working with achieved messages, and RFC 4880bis includes a
proposal for a new key format.) As such, it doesn’t provide a
mechanism to generate keys or import existing key material.
Instead, use the format-specific functions (e.g.,
Key4::generate_ecc
) and then convert the result into a Key
packet, as the following example demonstrates.
Examples
use sequoia_openpgp as openpgp; use openpgp::packet::prelude::*; use openpgp::types::Curve; let key: Key<key::SecretParts, key::PrimaryRole> = Key::from(Key4::generate_ecc(true, Curve::Ed25519)?);
Password Protection
OpenPGP provides a mechanism to password protect keys. If a key
is password protected, you need to decrypt the password using
Key::decrypt_secret
before using its secret key material
(e.g., to decrypt a message, or to generate a signature).
A note on equality
The implementation of Eq
for Key
compares the serialized form
of Key
s. Notably this includes the secret key material, but
excludes the KeyParts
and KeyRole
marker traits.
To exclude the secret key material from the comparison, use
Key::public_cmp
or Key::public_eq
.
When merging in secret key material from untrusted sources, you need to be very careful: secret key material is not cryptographically protected by the key’s self signature. Thus, an attacker can provide a valid key with a valid self signature, but invalid secret key material. If naively merged, this could overwrite valid secret key material, and thereby render the key useless. Unfortunately, the only way to find out that the secret key material is bad is to actually try using it. But, because the secret key material is usually encrypted, this can’t always be done automatically.
Compare:
use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::packet::prelude::*; // Generate a new certificate. It has secret key material. let (cert, _) = CertBuilder::new() .generate()?; let sk = cert.primary_key().key(); assert!(sk.has_secret()); // Strip the secret key material. let cert = cert.clone().strip_secret_key_material(); let pk = cert.primary_key().key(); assert!(! pk.has_secret()); // Eq compares both the public and the secret bits, so it // considers pk and sk to be different. assert_ne!(pk, sk); // Key::public_eq only compares the public bits, so it considers // them to be equal. assert!(Key::public_eq(pk, sk));
Variants (Non-exhaustive)
V4(Key4<P, R>)
A version 4 Key
packet.
Implementations
impl<P: KeyParts, R: KeyRole> Key<P, R>
[src]
impl<P: KeyParts, R: KeyRole> Key<P, R>
[src]pub fn encrypt(&self, data: &SessionKey) -> Result<Ciphertext>
[src]
pub fn encrypt(&self, data: &SessionKey) -> Result<Ciphertext>
[src]Encrypts the given data with this key.
impl<P, R> Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]
impl<P, R> Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]pub fn parts_into_public(self) -> Key<PublicParts, R>
[src]
pub fn parts_into_public(self) -> Key<PublicParts, R>
[src]Changes the key’s parts tag to PublicParts
.
pub fn parts_as_public(&self) -> &Key<PublicParts, R>
[src]
pub fn parts_as_public(&self) -> &Key<PublicParts, R>
[src]Changes the key’s parts tag to PublicParts
.
pub fn parts_into_secret(self) -> Result<Key<SecretParts, R>>
[src]
pub fn parts_into_secret(self) -> Result<Key<SecretParts, R>>
[src]Changes the key’s parts tag to SecretParts
.
pub fn parts_as_secret(&self) -> Result<&Key<SecretParts, R>>
[src]
pub fn parts_as_secret(&self) -> Result<&Key<SecretParts, R>>
[src]Changes the key’s parts tag to SecretParts
.
pub fn parts_into_unspecified(self) -> Key<UnspecifiedParts, R>
[src]
pub fn parts_into_unspecified(self) -> Key<UnspecifiedParts, R>
[src]Changes the key’s parts tag to UnspecifiedParts
.
pub fn parts_as_unspecified(&self) -> &Key<UnspecifiedParts, R>
[src]
pub fn parts_as_unspecified(&self) -> &Key<UnspecifiedParts, R>
[src]Changes the key’s parts tag to UnspecifiedParts
.
impl<P, R> Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]
impl<P, R> Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]pub fn role_into_primary(self) -> Key<P, PrimaryRole>
[src]
pub fn role_into_primary(self) -> Key<P, PrimaryRole>
[src]Changes the key’s role tag to PrimaryRole
.
pub fn role_as_primary(&self) -> &Key<P, PrimaryRole>
[src]
pub fn role_as_primary(&self) -> &Key<P, PrimaryRole>
[src]Changes the key’s role tag to PrimaryRole
.
pub fn role_into_subordinate(self) -> Key<P, SubordinateRole>
[src]
pub fn role_into_subordinate(self) -> Key<P, SubordinateRole>
[src]Changes the key’s role tag to SubordinateRole
.
pub fn role_as_subordinate(&self) -> &Key<P, SubordinateRole>
[src]
pub fn role_as_subordinate(&self) -> &Key<P, SubordinateRole>
[src]Changes the key’s role tag to SubordinateRole
.
pub fn role_into_unspecified(self) -> Key<P, UnspecifiedRole>
[src]
pub fn role_into_unspecified(self) -> Key<P, UnspecifiedRole>
[src]Changes the key’s role tag to UnspecifiedRole
.
pub fn role_as_unspecified(&self) -> &Key<P, UnspecifiedRole>
[src]
pub fn role_as_unspecified(&self) -> &Key<P, UnspecifiedRole>
[src]Changes the key’s role tag to UnspecifiedRole
.
impl<P: KeyParts, R: KeyRole> Key<P, R>
[src]
impl<P: KeyParts, R: KeyRole> Key<P, R>
[src]pub fn public_cmp<PB, RB>(&self, b: &Key<PB, RB>) -> Ordering where
PB: KeyParts,
RB: KeyRole,
[src]
pub fn public_cmp<PB, RB>(&self, b: &Key<PB, RB>) -> Ordering where
PB: KeyParts,
RB: KeyRole,
[src]Compares the public bits of two keys.
This returns Ordering::Equal
if the public MPIs, version,
creation time and algorithm of the two Key
s match. This
does not consider the packet’s encoding, packet’s tag or the
secret key material.
pub fn public_eq<PB, RB>(&self, b: &Key<PB, RB>) -> bool where
PB: KeyParts,
RB: KeyRole,
[src]
pub fn public_eq<PB, RB>(&self, b: &Key<PB, RB>) -> bool where
PB: KeyParts,
RB: KeyRole,
[src]This method tests for self and other values to be equal modulo the secret key material.
This returns true if the public MPIs, creation time and
algorithm of the two Key
s match. This does not consider
the packet’s encoding, packet’s tag or the secret key
material.
impl<R: KeyRole> Key<SecretParts, R>
[src]
impl<R: KeyRole> Key<SecretParts, R>
[src]pub fn into_keypair(self) -> Result<KeyPair>
[src]
pub fn into_keypair(self) -> Result<KeyPair>
[src]Creates a new key pair from a Key
with an unencrypted
secret key.
If the Key
is password protected, you first need to decrypt
it using Key::decrypt_secret
.
Errors
Fails if the secret key is encrypted.
Examples
Revoke a certificate by signing a new revocation certificate:
use std::time; use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::crypto::KeyPair; use openpgp::types::ReasonForRevocation; // Generate a certificate. let (cert, _) = CertBuilder::general_purpose(None, Some("Alice Lovelace <alice@example.org>")) .generate()?; // Use the secret key material to sign a revocation certificate. let mut keypair = cert.primary_key() .key().clone().parts_into_secret()? .into_keypair()?; let rev = cert.revoke(&mut keypair, ReasonForRevocation::KeyCompromised, b"It was the maid :/")?;
pub fn decrypt_secret(self, password: &Password) -> Result<Self>
[src]
pub fn decrypt_secret(self, password: &Password) -> Result<Self>
[src]Decrypts the secret key material.
In OpenPGP, secret key material can be protected with a password. The password is usually hardened using a KDF.
This function takes ownership of the Key
, decrypts the
secret key material using the password, and returns a new key
whose secret key material is not password protected.
If the secret key material is not password protected or if the password is wrong, this function returns an error.
Examples
Sign a new revocation certificate using a password-protected key:
use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::types::ReasonForRevocation; // Generate a certificate whose secret key material is // password protected. let (cert, _) = CertBuilder::general_purpose(None, Some("Alice Lovelace <alice@example.org>")) .set_password(Some("1234".into())) .generate()?; // Use the secret key material to sign a revocation certificate. let key = cert.primary_key().key().clone().parts_into_secret()?; // We can't turn it into a keypair without decrypting it. assert!(key.clone().into_keypair().is_err()); // And, we need to use the right password. assert!(key.clone() .decrypt_secret(&"correct horse battery staple".into()) .is_err()); // Let's do it right: let mut keypair = key.decrypt_secret(&"1234".into())?.into_keypair()?; let rev = cert.revoke(&mut keypair, ReasonForRevocation::KeyCompromised, b"It was the maid :/")?;
pub fn encrypt_secret(self, password: &Password) -> Result<Self>
[src]
pub fn encrypt_secret(self, password: &Password) -> Result<Self>
[src]Encrypts the secret key material.
In OpenPGP, secret key material can be protected with a password. The password is usually hardened using a KDF.
This function takes ownership of the Key
, encrypts the
secret key material using the password, and returns a new key
whose secret key material is protected with the password.
If the secret key material is already password protected, this function returns an error.
Examples
Encrypt the primary key:
use sequoia_openpgp as openpgp; use openpgp::cert::prelude::*; use openpgp::packet::Packet; // Generate a certificate whose secret key material is // not password protected. let (cert, _) = CertBuilder::general_purpose(None, Some("Alice Lovelace <alice@example.org>")) .generate()?; let key = cert.primary_key().key().clone().parts_into_secret()?; assert!(key.has_unencrypted_secret()); // Encrypt the key's secret key material. let key = key.encrypt_secret(&"1234".into())?; assert!(! key.has_unencrypted_secret()); // Merge it into the certificate. Note: `Cert::insert_packets` // prefers added versions of keys. So, the encrypted version // will override the decrypted version. let cert = cert.insert_packets(Packet::from(key))?; // Now the primary key's secret key material is encrypted. let key = cert.primary_key().key().parts_as_secret()?; assert!(! key.has_unencrypted_secret()); // We can't turn it into a keypair without decrypting it. assert!(key.clone().into_keypair().is_err()); // And, we need to use the right password. assert!(key.clone() .decrypt_secret(&"correct horse battery staple".into()) .is_err()); // Let's do it right: let mut keypair = key.clone() .decrypt_secret(&"1234".into())?.into_keypair()?;
impl<R: KeyRole> Key<PublicParts, R>
[src]
impl<R: KeyRole> Key<PublicParts, R>
[src]Secret key handling.
pub fn take_secret(self) -> (Key<PublicParts, R>, Option<SecretKeyMaterial>)
[src]
pub fn take_secret(self) -> (Key<PublicParts, R>, Option<SecretKeyMaterial>)
[src]Takes the key packet’s SecretKeyMaterial
, if any.
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, Option<SecretKeyMaterial>)
[src]
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, Option<SecretKeyMaterial>)
[src]Adds SecretKeyMaterial
to the packet, returning the old if
any.
impl<R: KeyRole> Key<UnspecifiedParts, R>
[src]
impl<R: KeyRole> Key<UnspecifiedParts, R>
[src]Secret key handling.
pub fn take_secret(self) -> (Key<PublicParts, R>, Option<SecretKeyMaterial>)
[src]
pub fn take_secret(self) -> (Key<PublicParts, R>, Option<SecretKeyMaterial>)
[src]Takes the key packet’s SecretKeyMaterial
, if any.
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, Option<SecretKeyMaterial>)
[src]
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, Option<SecretKeyMaterial>)
[src]Adds SecretKeyMaterial
to the packet, returning the old if
any.
impl<R: KeyRole> Key<SecretParts, R>
[src]
impl<R: KeyRole> Key<SecretParts, R>
[src]Secret key handling.
pub fn take_secret(self) -> (Key<PublicParts, R>, SecretKeyMaterial)
[src]
pub fn take_secret(self) -> (Key<PublicParts, R>, SecretKeyMaterial)
[src]Takes the key packet’s SecretKeyMaterial
.
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, SecretKeyMaterial)
[src]
pub fn add_secret(
self,
secret: SecretKeyMaterial
) -> (Key<SecretParts, R>, SecretKeyMaterial)
[src]Adds SecretKeyMaterial
to the packet, returning the old.
impl<P: KeyParts> Key<P, SubordinateRole>
[src]
impl<P: KeyParts> Key<P, SubordinateRole>
[src]pub fn bind(
&self,
signer: &mut dyn Signer,
cert: &Cert,
signature: SignatureBuilder
) -> Result<Signature>
[src]
pub fn bind(
&self,
signer: &mut dyn Signer,
cert: &Cert,
signature: SignatureBuilder
) -> Result<Signature>
[src]Creates a binding signature.
The signature binds this subkey to cert
. signer
will be used
to create a signature using signature
as builder.
Thehash_algo
defaults to SHA512, creation_time
to the
current time.
Note that subkeys with signing capabilities need a primary
key binding signature. If you are creating this binding
signature from a previous binding signature, you can reuse the
primary key binding signature if it is still valid and meets
current algorithm requirements. Otherwise, you can create one
using SignatureBuilder::sign_primary_key_binding
.
This function adds a creation time subpacket, a issuer fingerprint subpacket, and a issuer subpacket to the signature.
Examples
This example demonstrates how to bind this key to a Cert. Note
that in general, the CertBuilder
is a better way to add
subkeys to a Cert.
use sequoia_openpgp::policy::StandardPolicy; let p = &StandardPolicy::new(); // Generate a Cert, and create a keypair from the primary key. let (cert, _) = CertBuilder::new().generate()?; let mut keypair = cert.primary_key().key().clone() .parts_into_secret()?.into_keypair()?; // Let's add an encryption subkey. let flags = KeyFlags::empty().set_storage_encryption(); assert_eq!(cert.keys().with_policy(p, None).alive().revoked(false) .key_flags(&flags).count(), 0); // Generate a subkey and a binding signature. let subkey: Key<_, key::SubordinateRole> = Key4::generate_ecc(false, Curve::Cv25519)? .into(); let builder = signature::SignatureBuilder::new(SignatureType::SubkeyBinding) .set_key_flags(flags.clone())?; let binding = subkey.bind(&mut keypair, &cert, builder)?; // Now merge the key and binding signature into the Cert. let cert = cert.insert_packets(vec![Packet::from(subkey), binding.into()])?; // Check that we have an encryption subkey. assert_eq!(cert.keys().with_policy(p, None).alive().revoked(false) .key_flags(flags).count(), 1);
Methods from Deref<Target = Key4<P, R>>
pub fn parts_as_public(&self) -> &Key4<PublicParts, R>
[src]
pub fn parts_as_public(&self) -> &Key4<PublicParts, R>
[src]Changes the key’s parts tag to PublicParts
.
pub fn parts_as_secret(&self) -> Result<&Key4<SecretParts, R>>
[src]
pub fn parts_as_secret(&self) -> Result<&Key4<SecretParts, R>>
[src]Changes the key’s parts tag to SecretParts
.
pub fn parts_as_unspecified(&self) -> &Key4<UnspecifiedParts, R>
[src]
pub fn parts_as_unspecified(&self) -> &Key4<UnspecifiedParts, R>
[src]Changes the key’s parts tag to UnspecifiedParts
.
pub fn role_as_primary(&self) -> &Key4<P, PrimaryRole>
[src]
pub fn role_as_primary(&self) -> &Key4<P, PrimaryRole>
[src]Changes the key’s role tag to PrimaryRole
.
pub fn role_as_subordinate(&self) -> &Key4<P, SubordinateRole>
[src]
pub fn role_as_subordinate(&self) -> &Key4<P, SubordinateRole>
[src]Changes the key’s role tag to SubordinateRole
.
pub fn role_as_unspecified(&self) -> &Key4<P, UnspecifiedRole>
[src]
pub fn role_as_unspecified(&self) -> &Key4<P, UnspecifiedRole>
[src]Changes the key’s role tag to UnspecifiedRole
.
pub fn hash_algo_security(&self) -> HashAlgoSecurity
[src]
pub fn hash_algo_security(&self) -> HashAlgoSecurity
[src]The security requirements of the hash algorithm for self-signatures.
A cryptographic hash algorithm usually has three security properties: pre-image resistance, second pre-image resistance, and collision resistance. If an attacker can influence the signed data, then the hash algorithm needs to have both second pre-image resistance, and collision resistance. If not, second pre-image resistance is sufficient.
In general, an attacker may be able to influence third-party signatures. But direct key signatures, and binding signatures are only over data fully determined by signer. And, an attacker’s control over self signatures over User IDs is limited due to their structure.
These observations can be used to extend the life of a hash algorithm after its collision resistance has been partially compromised, but not completely broken. For more details, please refer to the documentation for HashAlgoSecurity.
pub fn public_cmp<PB, RB>(&self, b: &Key4<PB, RB>) -> Ordering where
PB: KeyParts,
RB: KeyRole,
[src]
pub fn public_cmp<PB, RB>(&self, b: &Key4<PB, RB>) -> Ordering where
PB: KeyParts,
RB: KeyRole,
[src]Compares the public bits of two keys.
This returns Ordering::Equal
if the public MPIs, creation
time, and algorithm of the two Key4
s match. This does not
consider the packets’ encodings, packets’ tags or their secret
key material.
pub fn public_eq<PB, RB>(&self, b: &Key4<PB, RB>) -> bool where
PB: KeyParts,
RB: KeyRole,
[src]
pub fn public_eq<PB, RB>(&self, b: &Key4<PB, RB>) -> bool where
PB: KeyParts,
RB: KeyRole,
[src]Tests whether two keys are equal modulo their secret key material.
This returns true if the public MPIs, creation time and
algorithm of the two Key4
s match. This does not consider
the packets’ encodings, packets’ tags or their secret key
material.
pub fn creation_time(&self) -> SystemTime
[src]
pub fn creation_time(&self) -> SystemTime
[src]Gets the Key
’s creation time.
pub fn set_creation_time<T>(&mut self, timestamp: T) -> Result<SystemTime> where
T: Into<SystemTime>,
[src]
pub fn set_creation_time<T>(&mut self, timestamp: T) -> Result<SystemTime> where
T: Into<SystemTime>,
[src]Sets the Key
’s creation time.
timestamp
is converted to OpenPGP’s internal format,
Timestamp
: a 32-bit quantity containing the number of
seconds since the Unix epoch.
timestamp
is silently rounded to match the internal
resolution. An error is returned if timestamp
is out of
range.
pub fn pk_algo(&self) -> PublicKeyAlgorithm
[src]
pub fn pk_algo(&self) -> PublicKeyAlgorithm
[src]Gets the public key algorithm.
pub fn set_pk_algo(&mut self, pk_algo: PublicKeyAlgorithm) -> PublicKeyAlgorithm
[src]
pub fn set_pk_algo(&mut self, pk_algo: PublicKeyAlgorithm) -> PublicKeyAlgorithm
[src]Sets the public key algorithm.
Returns the old public key algorithm.
pub fn set_mpis(&mut self, mpis: PublicKey) -> PublicKey
[src]
pub fn set_mpis(&mut self, mpis: PublicKey) -> PublicKey
[src]Sets the Key
’s MPIs.
This function returns the old MPIs, if any.
pub fn has_secret(&self) -> bool
[src]
pub fn has_secret(&self) -> bool
[src]Returns whether the Key
contains secret key material.
pub fn has_unencrypted_secret(&self) -> bool
[src]
pub fn has_unencrypted_secret(&self) -> bool
[src]Returns whether the Key
contains unencrypted secret key
material.
This returns false if the Key
doesn’t contain any secret key
material.
pub fn optional_secret(&self) -> Option<&SecretKeyMaterial>
[src]
pub fn optional_secret(&self) -> Option<&SecretKeyMaterial>
[src]Returns Key
’s secret key material, if any.
pub fn key_handle(&self) -> KeyHandle
[src]
pub fn key_handle(&self) -> KeyHandle
[src]Computes and returns the Key
’s Fingerprint
and returns it as
a KeyHandle
.
pub fn fingerprint(&self) -> Fingerprint
[src]
pub fn fingerprint(&self) -> Fingerprint
[src]Computes and returns the Key
’s Fingerprint
.
pub fn secret(&self) -> &SecretKeyMaterial
[src]
pub fn secret(&self) -> &SecretKeyMaterial
[src]Gets the Key
’s SecretKeyMaterial
.
pub fn secret_mut(&mut self) -> &mut SecretKeyMaterial
[src]
pub fn secret_mut(&mut self) -> &mut SecretKeyMaterial
[src]Gets a mutable reference to the Key
’s SecretKeyMaterial
.
Trait Implementations
impl<P> From<&'_ Key<P, PrimaryRole>> for &Key<P, SubordinateRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, PrimaryRole>> for &Key<P, SubordinateRole> where
P: KeyParts,
[src]fn from(p: &Key<P, PrimaryRole>) -> Self
[src]
fn from(p: &Key<P, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<P> From<&'_ Key<P, PrimaryRole>> for &Key<P, UnspecifiedRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, PrimaryRole>> for &Key<P, UnspecifiedRole> where
P: KeyParts,
[src]fn from(p: &Key<P, PrimaryRole>) -> Self
[src]
fn from(p: &Key<P, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<P> From<&'_ Key<P, SubordinateRole>> for &Key<P, PrimaryRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, SubordinateRole>> for &Key<P, PrimaryRole> where
P: KeyParts,
[src]fn from(p: &Key<P, SubordinateRole>) -> Self
[src]
fn from(p: &Key<P, SubordinateRole>) -> Self
[src]Performs the conversion.
impl<P> From<&'_ Key<P, SubordinateRole>> for &Key<P, UnspecifiedRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, SubordinateRole>> for &Key<P, UnspecifiedRole> where
P: KeyParts,
[src]fn from(p: &Key<P, SubordinateRole>) -> Self
[src]
fn from(p: &Key<P, SubordinateRole>) -> Self
[src]Performs the conversion.
impl<P> From<&'_ Key<P, UnspecifiedRole>> for &Key<P, PrimaryRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, UnspecifiedRole>> for &Key<P, PrimaryRole> where
P: KeyParts,
[src]fn from(p: &Key<P, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<P, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl<P> From<&'_ Key<P, UnspecifiedRole>> for &Key<P, SubordinateRole> where
P: KeyParts,
[src]
impl<P> From<&'_ Key<P, UnspecifiedRole>> for &Key<P, SubordinateRole> where
P: KeyParts,
[src]fn from(p: &Key<P, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<P, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<SecretParts, SubordinateRole>
[src]
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<SecretParts, SubordinateRole>
[src]fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<SecretParts, UnspecifiedRole>
[src]
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<SecretParts, UnspecifiedRole>
[src]fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<&'_ Key<PublicParts, PrimaryRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<R> From<&'_ Key<PublicParts, R>> for &Key<UnspecifiedParts, R> where
R: KeyRole,
[src]
impl<R> From<&'_ Key<PublicParts, R>> for &Key<UnspecifiedParts, R> where
R: KeyRole,
[src]fn from(p: &Key<PublicParts, R>) -> Self
[src]
fn from(p: &Key<PublicParts, R>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<SecretParts, PrimaryRole>
[src]
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<SecretParts, PrimaryRole>
[src]fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<SecretParts, UnspecifiedRole>
[src]
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<SecretParts, UnspecifiedRole>
[src]fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<&'_ Key<PublicParts, SubordinateRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<SecretParts, PrimaryRole>
[src]
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<SecretParts, PrimaryRole>
[src]fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<SecretParts, SubordinateRole>
[src]
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<SecretParts, SubordinateRole>
[src]fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<&'_ Key<PublicParts, UnspecifiedRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<PublicParts, SubordinateRole>
[src]
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<PublicParts, SubordinateRole>
[src]fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<PublicParts, UnspecifiedRole>
[src]
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<PublicParts, UnspecifiedRole>
[src]fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<&'_ Key<SecretParts, PrimaryRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<R> From<&'_ Key<SecretParts, R>> for &Key<PublicParts, R> where
R: KeyRole,
[src]
impl<R> From<&'_ Key<SecretParts, R>> for &Key<PublicParts, R> where
R: KeyRole,
[src]fn from(p: &Key<SecretParts, R>) -> Self
[src]
fn from(p: &Key<SecretParts, R>) -> Self
[src]Performs the conversion.
impl<R> From<&'_ Key<SecretParts, R>> for &Key<UnspecifiedParts, R> where
R: KeyRole,
[src]
impl<R> From<&'_ Key<SecretParts, R>> for &Key<UnspecifiedParts, R> where
R: KeyRole,
[src]fn from(p: &Key<SecretParts, R>) -> Self
[src]
fn from(p: &Key<SecretParts, R>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<PublicParts, PrimaryRole>
[src]
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<PublicParts, PrimaryRole>
[src]fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<PublicParts, UnspecifiedRole>
[src]
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<PublicParts, UnspecifiedRole>
[src]fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<&'_ Key<SecretParts, SubordinateRole>> for &Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<PublicParts, PrimaryRole>
[src]
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<PublicParts, PrimaryRole>
[src]fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<PublicParts, SubordinateRole>
[src]
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<PublicParts, SubordinateRole>
[src]fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<&'_ Key<SecretParts, UnspecifiedRole>> for &Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<PublicParts, SubordinateRole>
[src]
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<PublicParts, SubordinateRole>
[src]fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<PublicParts, UnspecifiedRole>
[src]
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<PublicParts, UnspecifiedRole>
[src]fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<SecretParts, SubordinateRole>
[src]
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<SecretParts, SubordinateRole>
[src]fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<SecretParts, UnspecifiedRole>
[src]
impl From<&'_ Key<UnspecifiedParts, PrimaryRole>> for &Key<SecretParts, UnspecifiedRole>
[src]fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<R> From<&'_ Key<UnspecifiedParts, R>> for &Key<PublicParts, R> where
R: KeyRole,
[src]
impl<R> From<&'_ Key<UnspecifiedParts, R>> for &Key<PublicParts, R> where
R: KeyRole,
[src]fn from(p: &Key<UnspecifiedParts, R>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, R>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<PublicParts, PrimaryRole>
[src]
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<PublicParts, PrimaryRole>
[src]fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<PublicParts, UnspecifiedRole>
[src]
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<PublicParts, UnspecifiedRole>
[src]fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<SecretParts, PrimaryRole>
[src]
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<SecretParts, PrimaryRole>
[src]fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<SecretParts, UnspecifiedRole>
[src]
impl From<&'_ Key<UnspecifiedParts, SubordinateRole>> for &Key<SecretParts, UnspecifiedRole>
[src]fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<PublicParts, PrimaryRole>
[src]
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<PublicParts, PrimaryRole>
[src]fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<PublicParts, SubordinateRole>
[src]
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<PublicParts, SubordinateRole>
[src]fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<SecretParts, PrimaryRole>
[src]
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<SecretParts, PrimaryRole>
[src]fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<SecretParts, SubordinateRole>
[src]
impl From<&'_ Key<UnspecifiedParts, UnspecifiedRole>> for &Key<SecretParts, SubordinateRole>
[src]fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: &Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, PrimaryRole>> for Key<P, SubordinateRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, PrimaryRole>> for Key<P, SubordinateRole> where
P: KeyParts,
[src]fn from(p: Key<P, PrimaryRole>) -> Self
[src]
fn from(p: Key<P, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, PrimaryRole>> for Key<P, UnspecifiedRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, PrimaryRole>> for Key<P, UnspecifiedRole> where
P: KeyParts,
[src]fn from(p: Key<P, PrimaryRole>) -> Self
[src]
fn from(p: Key<P, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, SubordinateRole>> for Key<P, PrimaryRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, SubordinateRole>> for Key<P, PrimaryRole> where
P: KeyParts,
[src]fn from(p: Key<P, SubordinateRole>) -> Self
[src]
fn from(p: Key<P, SubordinateRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, SubordinateRole>> for Key<P, UnspecifiedRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, SubordinateRole>> for Key<P, UnspecifiedRole> where
P: KeyParts,
[src]fn from(p: Key<P, SubordinateRole>) -> Self
[src]
fn from(p: Key<P, SubordinateRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, UnspecifiedRole>> for Key<P, PrimaryRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, UnspecifiedRole>> for Key<P, PrimaryRole> where
P: KeyParts,
[src]fn from(p: Key<P, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<P, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl<P> From<Key<P, UnspecifiedRole>> for Key<P, SubordinateRole> where
P: KeyParts,
[src]
impl<P> From<Key<P, UnspecifiedRole>> for Key<P, SubordinateRole> where
P: KeyParts,
[src]fn from(p: Key<P, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<P, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, PrimaryRole>> for Key<SecretParts, SubordinateRole>
[src]
impl From<Key<PublicParts, PrimaryRole>> for Key<SecretParts, SubordinateRole>
[src]fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, PrimaryRole>> for Key<SecretParts, UnspecifiedRole>
[src]
impl From<Key<PublicParts, PrimaryRole>> for Key<SecretParts, UnspecifiedRole>
[src]fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, PrimaryRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<Key<PublicParts, PrimaryRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, PrimaryRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<Key<PublicParts, PrimaryRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<PublicParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, PrimaryRole>> for Packet
[src]
impl From<Key<PublicParts, PrimaryRole>> for Packet
[src]fn from(k: Key<PublicParts, PrimaryRole>) -> Self
[src]
fn from(k: Key<PublicParts, PrimaryRole>) -> Self
[src]Convert the Key
struct to a Packet
.
impl<R> From<Key<PublicParts, R>> for Key<UnspecifiedParts, R> where
R: KeyRole,
[src]
impl<R> From<Key<PublicParts, R>> for Key<UnspecifiedParts, R> where
R: KeyRole,
[src]fn from(p: Key<PublicParts, R>) -> Self
[src]
fn from(p: Key<PublicParts, R>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, SubordinateRole>> for Key<SecretParts, PrimaryRole>
[src]
impl From<Key<PublicParts, SubordinateRole>> for Key<SecretParts, PrimaryRole>
[src]fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, SubordinateRole>> for Key<SecretParts, UnspecifiedRole>
[src]
impl From<Key<PublicParts, SubordinateRole>> for Key<SecretParts, UnspecifiedRole>
[src]fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, SubordinateRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<Key<PublicParts, SubordinateRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, SubordinateRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<Key<PublicParts, SubordinateRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<PublicParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, SubordinateRole>> for Packet
[src]
impl From<Key<PublicParts, SubordinateRole>> for Packet
[src]fn from(k: Key<PublicParts, SubordinateRole>) -> Self
[src]
fn from(k: Key<PublicParts, SubordinateRole>) -> Self
[src]Convert the Key
struct to a Packet
.
impl From<Key<PublicParts, UnspecifiedRole>> for Key<SecretParts, PrimaryRole>
[src]
impl From<Key<PublicParts, UnspecifiedRole>> for Key<SecretParts, PrimaryRole>
[src]fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, UnspecifiedRole>> for Key<SecretParts, SubordinateRole>
[src]
impl From<Key<PublicParts, UnspecifiedRole>> for Key<SecretParts, SubordinateRole>
[src]fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, UnspecifiedRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<Key<PublicParts, UnspecifiedRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<PublicParts, UnspecifiedRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<Key<PublicParts, UnspecifiedRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<PublicParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, PrimaryRole>> for Key<PublicParts, SubordinateRole>
[src]
impl From<Key<SecretParts, PrimaryRole>> for Key<PublicParts, SubordinateRole>
[src]fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, PrimaryRole>> for Key<PublicParts, UnspecifiedRole>
[src]
impl From<Key<SecretParts, PrimaryRole>> for Key<PublicParts, UnspecifiedRole>
[src]fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, PrimaryRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<Key<SecretParts, PrimaryRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, PrimaryRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<Key<SecretParts, PrimaryRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<SecretParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, PrimaryRole>> for Packet
[src]
impl From<Key<SecretParts, PrimaryRole>> for Packet
[src]fn from(k: Key<SecretParts, PrimaryRole>) -> Self
[src]
fn from(k: Key<SecretParts, PrimaryRole>) -> Self
[src]Convert the Key
struct to a Packet
.
impl<R> From<Key<SecretParts, R>> for Key<PublicParts, R> where
R: KeyRole,
[src]
impl<R> From<Key<SecretParts, R>> for Key<PublicParts, R> where
R: KeyRole,
[src]fn from(p: Key<SecretParts, R>) -> Self
[src]
fn from(p: Key<SecretParts, R>) -> Self
[src]Performs the conversion.
impl<R> From<Key<SecretParts, R>> for Key<UnspecifiedParts, R> where
R: KeyRole,
[src]
impl<R> From<Key<SecretParts, R>> for Key<UnspecifiedParts, R> where
R: KeyRole,
[src]fn from(p: Key<SecretParts, R>) -> Self
[src]
fn from(p: Key<SecretParts, R>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, SubordinateRole>> for Key<PublicParts, PrimaryRole>
[src]
impl From<Key<SecretParts, SubordinateRole>> for Key<PublicParts, PrimaryRole>
[src]fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, SubordinateRole>> for Key<PublicParts, UnspecifiedRole>
[src]
impl From<Key<SecretParts, SubordinateRole>> for Key<PublicParts, UnspecifiedRole>
[src]fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, SubordinateRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<Key<SecretParts, SubordinateRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, SubordinateRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl From<Key<SecretParts, SubordinateRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<SecretParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, SubordinateRole>> for Packet
[src]
impl From<Key<SecretParts, SubordinateRole>> for Packet
[src]fn from(k: Key<SecretParts, SubordinateRole>) -> Self
[src]
fn from(k: Key<SecretParts, SubordinateRole>) -> Self
[src]Convert the Key
struct to a Packet
.
impl From<Key<SecretParts, UnspecifiedRole>> for Key<PublicParts, PrimaryRole>
[src]
impl From<Key<SecretParts, UnspecifiedRole>> for Key<PublicParts, PrimaryRole>
[src]fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, UnspecifiedRole>> for Key<PublicParts, SubordinateRole>
[src]
impl From<Key<SecretParts, UnspecifiedRole>> for Key<PublicParts, SubordinateRole>
[src]fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, UnspecifiedRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]
impl From<Key<SecretParts, UnspecifiedRole>> for Key<UnspecifiedParts, PrimaryRole>
[src]fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<SecretParts, UnspecifiedRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]
impl From<Key<SecretParts, UnspecifiedRole>> for Key<UnspecifiedParts, SubordinateRole>
[src]fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<SecretParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<PublicParts, SubordinateRole>
[src]
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<PublicParts, SubordinateRole>
[src]fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<PublicParts, UnspecifiedRole>
[src]
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<PublicParts, UnspecifiedRole>
[src]fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<SecretParts, SubordinateRole>
[src]
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<SecretParts, SubordinateRole>
[src]fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<SecretParts, UnspecifiedRole>
[src]
impl From<Key<UnspecifiedParts, PrimaryRole>> for Key<SecretParts, UnspecifiedRole>
[src]fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, PrimaryRole>) -> Self
[src]Performs the conversion.
impl<R> From<Key<UnspecifiedParts, R>> for Key<PublicParts, R> where
R: KeyRole,
[src]
impl<R> From<Key<UnspecifiedParts, R>> for Key<PublicParts, R> where
R: KeyRole,
[src]fn from(p: Key<UnspecifiedParts, R>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, R>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<PublicParts, PrimaryRole>
[src]
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<PublicParts, PrimaryRole>
[src]fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<PublicParts, UnspecifiedRole>
[src]
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<PublicParts, UnspecifiedRole>
[src]fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<SecretParts, PrimaryRole>
[src]
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<SecretParts, PrimaryRole>
[src]fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<SecretParts, UnspecifiedRole>
[src]
impl From<Key<UnspecifiedParts, SubordinateRole>> for Key<SecretParts, UnspecifiedRole>
[src]fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, SubordinateRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<PublicParts, PrimaryRole>
[src]
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<PublicParts, PrimaryRole>
[src]fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<PublicParts, SubordinateRole>
[src]
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<PublicParts, SubordinateRole>
[src]fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<SecretParts, PrimaryRole>
[src]
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<SecretParts, PrimaryRole>
[src]fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<SecretParts, SubordinateRole>
[src]
impl From<Key<UnspecifiedParts, UnspecifiedRole>> for Key<SecretParts, SubordinateRole>
[src]fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]
fn from(p: Key<UnspecifiedParts, UnspecifiedRole>) -> Self
[src]Performs the conversion.
impl From<KeyPair> for Key<SecretParts, UnspecifiedRole>
[src]
impl From<KeyPair> for Key<SecretParts, UnspecifiedRole>
[src]impl<P, R> IntoIterator for Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]
impl<P, R> IntoIterator for Key<P, R> where
P: KeyParts,
R: KeyRole,
[src]Implement IntoIterator
so that
cert::insert_packets(sig)
just works.
impl<P: KeyParts, R: KeyRole> MarshalInto for Key<P, R>
[src]
impl<P: KeyParts, R: KeyRole> MarshalInto for Key<P, R>
[src]impl<'a> Parse<'a, Key<UnspecifiedParts, UnspecifiedRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]
impl<'a> Parse<'a, Key<UnspecifiedParts, UnspecifiedRole>> for Key<UnspecifiedParts, UnspecifiedRole>
[src]impl<R> TryFrom<&'_ Key<PublicParts, R>> for &Key<SecretParts, R> where
R: KeyRole,
[src]
impl<R> TryFrom<&'_ Key<PublicParts, R>> for &Key<SecretParts, R> where
R: KeyRole,
[src]impl<R> TryFrom<&'_ Key<UnspecifiedParts, R>> for &Key<SecretParts, R> where
R: KeyRole,
[src]
impl<R> TryFrom<&'_ Key<UnspecifiedParts, R>> for &Key<SecretParts, R> where
R: KeyRole,
[src]impl<R> TryFrom<Key<PublicParts, R>> for Key<SecretParts, R> where
R: KeyRole,
[src]
impl<R> TryFrom<Key<PublicParts, R>> for Key<SecretParts, R> where
R: KeyRole,
[src]impl<R> TryFrom<Key<UnspecifiedParts, R>> for Key<SecretParts, R> where
R: KeyRole,
[src]
impl<R> TryFrom<Key<UnspecifiedParts, R>> for Key<SecretParts, R> where
R: KeyRole,
[src]impl<'a, P, R, R2> ValidAmalgamation<'a, Key<P, R>> for ValidKeyAmalgamation<'a, P, R, R2> where
P: 'a + KeyParts,
R: 'a + KeyRole,
R2: Copy,
Self: PrimaryKey<'a, P, R>,
[src]
impl<'a, P, R, R2> ValidAmalgamation<'a, Key<P, R>> for ValidKeyAmalgamation<'a, P, R, R2> where
P: 'a + KeyParts,
R: 'a + KeyRole,
R2: Copy,
Self: PrimaryKey<'a, P, R>,
[src]fn cert(&self) -> &ValidCert<'a>
[src]
fn cert(&self) -> &ValidCert<'a>
[src]Returns the valid amalgamation’s associated certificate. Read more
fn time(&self) -> SystemTime
[src]
fn time(&self) -> SystemTime
[src]Returns the amalgamation’s reference time. Read more
fn binding_signature(&self) -> &'a Signature
[src]
fn binding_signature(&self) -> &'a Signature
[src]Returns the component’s binding signature as of the reference time. Read more
fn revocation_status(&self) -> RevocationStatus<'a>
[src]
fn revocation_status(&self) -> RevocationStatus<'a>
[src]Returns the component’s revocation status as of the amalgamation’s reference time. Read more
fn map<F: Fn(&'a Signature) -> Option<T>, T>(&self, f: F) -> Option<T>
[src]
fn map<F: Fn(&'a Signature) -> Option<T>, T>(&self, f: F) -> Option<T>
[src]Maps the given function over binding and direct key signature. Read more
fn direct_key_signature(&self) -> Result<&'a Signature>
[src]
fn direct_key_signature(&self) -> Result<&'a Signature>
[src]Returns the certificate’s direct key signature as of the reference time, if any. Read more
impl<'a, P> ValidateAmalgamation<'a, Key<P, PrimaryRole>> for PrimaryKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, PrimaryRole>> for PrimaryKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]type V = ValidPrimaryKeyAmalgamation<'a, P>
type V = ValidPrimaryKeyAmalgamation<'a, P>
The type returned by with_policy
. Read more
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]Uses the specified Policy
and reference time with the amalgamation. Read more
impl<'a, P> ValidateAmalgamation<'a, Key<P, PrimaryRole>> for ValidPrimaryKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, PrimaryRole>> for ValidPrimaryKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]impl<'a, P> ValidateAmalgamation<'a, Key<P, SubordinateRole>> for SubordinateKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, SubordinateRole>> for SubordinateKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]type V = ValidSubordinateKeyAmalgamation<'a, P>
type V = ValidSubordinateKeyAmalgamation<'a, P>
The type returned by with_policy
. Read more
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]Uses the specified Policy
and reference time with the amalgamation. Read more
impl<'a, P> ValidateAmalgamation<'a, Key<P, SubordinateRole>> for ValidSubordinateKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, SubordinateRole>> for ValidSubordinateKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]impl<'a, P> ValidateAmalgamation<'a, Key<P, UnspecifiedRole>> for ErasedKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, UnspecifiedRole>> for ErasedKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]type V = ValidErasedKeyAmalgamation<'a, P>
type V = ValidErasedKeyAmalgamation<'a, P>
The type returned by with_policy
. Read more
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]
fn with_policy<T>(self, policy: &'a dyn Policy, time: T) -> Result<Self::V> where
T: Into<Option<SystemTime>>,
[src]Uses the specified Policy
and reference time with the amalgamation. Read more
impl<'a, P> ValidateAmalgamation<'a, Key<P, UnspecifiedRole>> for ValidErasedKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]
impl<'a, P> ValidateAmalgamation<'a, Key<P, UnspecifiedRole>> for ValidErasedKeyAmalgamation<'a, P> where
P: 'a + KeyParts,
[src]impl<P: Eq + KeyParts, R: Eq + KeyRole> Eq for Key<P, R>
[src]
impl<P: KeyParts, R: KeyRole> StructuralEq for Key<P, R>
[src]
impl<P: KeyParts, R: KeyRole> StructuralPartialEq for Key<P, R>
[src]
Auto Trait Implementations
impl<P, R> RefUnwindSafe for Key<P, R> where
P: RefUnwindSafe,
R: RefUnwindSafe,
P: RefUnwindSafe,
R: RefUnwindSafe,
impl<P, R> Send for Key<P, R> where
P: Send,
R: Send,
P: Send,
R: Send,
impl<P, R> Sync for Key<P, R> where
P: Sync,
R: Sync,
P: Sync,
R: Sync,
impl<P, R> Unpin for Key<P, R> where
P: Unpin,
R: Unpin,
P: Unpin,
R: Unpin,
impl<P, R> UnwindSafe for Key<P, R> where
P: UnwindSafe,
R: UnwindSafe,
P: UnwindSafe,
R: UnwindSafe,
Blanket Implementations
impl<T> BorrowMut<T> for T where
T: ?Sized,
[src]
impl<T> BorrowMut<T> for T where
T: ?Sized,
[src]pub fn borrow_mut(&mut self) -> &mut T
[src]
pub fn borrow_mut(&mut self) -> &mut T
[src]Mutably borrows from an owned value. Read more
impl<T> Same<T> for T
impl<T> Same<T> for T
type Output = T
type Output = T
Should always be Self
impl<T> ToOwned for T where
T: Clone,
[src]
impl<T> ToOwned for T where
T: Clone,
[src]type Owned = T
type Owned = T
The resulting type after obtaining ownership.
pub fn to_owned(&self) -> T
[src]
pub fn to_owned(&self) -> T
[src]Creates owned data from borrowed data, usually by cloning. Read more
pub fn clone_into(&self, target: &mut T)
[src]
pub fn clone_into(&self, target: &mut T)
[src]🔬 This is a nightly-only experimental API. (toowned_clone_into
)
recently added
Uses borrowed data to replace owned data, usually by cloning. Read more