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// This file was generated by gir (https://github.com/gtk-rs/gir)
// from gir-files (https://github.com/gtk-rs/gir-files)
// DO NOT EDIT
#![allow(deprecated)]
#[cfg(feature = "v2_70")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_70")))]
use crate::TlsProtocolVersion;
use crate::{
AsyncResult, Cancellable, IOStream, TlsCertificate, TlsCertificateFlags, TlsDatabase,
TlsInteraction, TlsRehandshakeMode,
};
use glib::{
prelude::*,
signal::{connect_raw, SignalHandlerId},
translate::*,
};
use std::{boxed::Box as Box_, fmt, mem::transmute, pin::Pin, ptr};
glib::wrapper! {
/// [`TlsConnection`][crate::TlsConnection] is the base TLS connection class type, which wraps
/// a [`IOStream`][crate::IOStream] and provides TLS encryption on top of it. Its
/// subclasses, [`TlsClientConnection`][crate::TlsClientConnection] and [`TlsServerConnection`][crate::TlsServerConnection],
/// implement client-side and server-side TLS, respectively.
///
/// For DTLS (Datagram TLS) support, see `GDtlsConnection`.
///
/// This is an Abstract Base Class, you cannot instantiate it.
///
/// ## Properties
///
///
/// #### `advertised-protocols`
/// The list of application-layer protocols that the connection
/// advertises that it is willing to speak. See
/// [`TlsConnectionExtManual::set_advertised_protocols()`][crate::prelude::TlsConnectionExtManual::set_advertised_protocols()].
///
/// Readable | Writeable
///
///
/// #### `base-io-stream`
/// The [`IOStream`][crate::IOStream] that the connection wraps. The connection holds a reference
/// to this stream, and may run operations on the stream from other threads
/// throughout its lifetime. Consequently, after the [`IOStream`][crate::IOStream] has been
/// constructed, application code may only run its own operations on this
/// stream when no [`IOStream`][crate::IOStream] operations are running.
///
/// Readable | Writeable | Construct Only
///
///
/// #### `certificate`
/// The connection's certificate; see
/// [`TlsConnectionExt::set_certificate()`][crate::prelude::TlsConnectionExt::set_certificate()].
///
/// Readable | Writeable
///
///
/// #### `ciphersuite-name`
/// The name of the TLS ciphersuite in use. See [`TlsConnectionExt::ciphersuite_name()`][crate::prelude::TlsConnectionExt::ciphersuite_name()].
///
/// Readable
///
///
/// #### `database`
/// The certificate database to use when verifying this TLS connection.
/// If no certificate database is set, then the default database will be
/// used. See [`TlsBackendExt::default_database()`][crate::prelude::TlsBackendExt::default_database()].
///
/// When using a non-default database, [`TlsConnection`][crate::TlsConnection] must fall back to using
/// the [`TlsDatabase`][crate::TlsDatabase] to perform certificate verification using
/// [`TlsDatabaseExt::verify_chain()`][crate::prelude::TlsDatabaseExt::verify_chain()], which means certificate verification will
/// not be able to make use of TLS session context. This may be less secure.
/// For example, if you create your own [`TlsDatabase`][crate::TlsDatabase] that just wraps the
/// default [`TlsDatabase`][crate::TlsDatabase], you might expect that you have not changed anything,
/// but this is not true because you may have altered the behavior of
/// [`TlsConnection`][crate::TlsConnection] by causing it to use [`TlsDatabaseExt::verify_chain()`][crate::prelude::TlsDatabaseExt::verify_chain()]. See the
/// documentation of [`TlsDatabaseExt::verify_chain()`][crate::prelude::TlsDatabaseExt::verify_chain()] for more details on specific
/// security checks that may not be performed. Accordingly, setting a
/// non-default database is discouraged except for specialty applications with
/// unusual security requirements.
///
/// Readable | Writeable
///
///
/// #### `interaction`
/// A [`TlsInteraction`][crate::TlsInteraction] object to be used when the connection or certificate
/// database need to interact with the user. This will be used to prompt the
/// user for passwords where necessary.
///
/// Readable | Writeable
///
///
/// #### `negotiated-protocol`
/// The application-layer protocol negotiated during the TLS
/// handshake. See [`TlsConnectionExt::negotiated_protocol()`][crate::prelude::TlsConnectionExt::negotiated_protocol()].
///
/// Readable
///
///
/// #### `peer-certificate`
/// The connection's peer's certificate, after the TLS handshake has
/// completed or failed. Note in particular that this is not yet set
/// during the emission of [`accept-certificate`][struct@crate::TlsConnection#accept-certificate].
///
/// (You can watch for a [`notify`][struct@crate::glib::Object#notify] signal on this property to
/// detect when a handshake has occurred.)
///
/// Readable
///
///
/// #### `peer-certificate-errors`
/// The errors noticed while verifying
/// [`peer-certificate`][struct@crate::TlsConnection#peer-certificate]. Normally this should be 0, but
/// it may not be if [`validation-flags`][struct@crate::TlsClientConnection#validation-flags] is not
/// [`TlsCertificateFlags::VALIDATE_ALL`][crate::TlsCertificateFlags::VALIDATE_ALL], or if
/// [`accept-certificate`][struct@crate::TlsConnection#accept-certificate] overrode the default
/// behavior.
///
/// GLib guarantees that if certificate verification fails, at least
/// one error will be set, but it does not guarantee that all possible
/// errors will be set. Accordingly, you may not safely decide to
/// ignore any particular type of error. For example, it would be
/// incorrect to mask [`TlsCertificateFlags::EXPIRED`][crate::TlsCertificateFlags::EXPIRED] if you want to allow
/// expired certificates, because this could potentially be the only
/// error flag set even if other problems exist with the certificate.
///
/// Readable
///
///
/// #### `protocol-version`
/// The TLS protocol version in use. See [`TlsConnectionExt::protocol_version()`][crate::prelude::TlsConnectionExt::protocol_version()].
///
/// Readable
///
///
/// #### `rehandshake-mode`
/// The rehandshaking mode. See
/// [`TlsConnectionExt::set_rehandshake_mode()`][crate::prelude::TlsConnectionExt::set_rehandshake_mode()].
///
/// Readable | Writeable | Construct
///
///
/// #### `require-close-notify`
/// Whether or not proper TLS close notification is required.
/// See [`TlsConnectionExt::set_require_close_notify()`][crate::prelude::TlsConnectionExt::set_require_close_notify()].
///
/// Readable | Writeable | Construct
///
///
/// #### `use-system-certdb`
/// Whether or not the system certificate database will be used to
/// verify peer certificates. See
/// `g_tls_connection_set_use_system_certdb()`.
///
/// Readable | Writeable | Construct
/// <details><summary><h4>IOStream</h4></summary>
///
///
/// #### `closed`
/// Readable
///
///
/// #### `input-stream`
/// Readable
///
///
/// #### `output-stream`
/// Readable
/// </details>
///
/// ## Signals
///
///
/// #### `accept-certificate`
/// Emitted during the TLS handshake after the peer certificate has
/// been received. You can examine `peer_cert`'s certification path by
/// calling [`TlsCertificateExt::issuer()`][crate::prelude::TlsCertificateExt::issuer()] on it.
///
/// For a client-side connection, `peer_cert` is the server's
/// certificate, and the signal will only be emitted if the
/// certificate was not acceptable according to `conn`'s
/// [`validation_flags`][struct@crate::TlsClientConnection#validation_flags]. If you would like the
/// certificate to be accepted despite `errors`, return [`true`] from the
/// signal handler. Otherwise, if no handler accepts the certificate,
/// the handshake will fail with [`TlsError::BadCertificate`][crate::TlsError::BadCertificate].
///
/// GLib guarantees that if certificate verification fails, this signal
/// will be emitted with at least one error will be set in `errors`, but
/// it does not guarantee that all possible errors will be set.
/// Accordingly, you may not safely decide to ignore any particular
/// type of error. For example, it would be incorrect to ignore
/// [`TlsCertificateFlags::EXPIRED`][crate::TlsCertificateFlags::EXPIRED] if you want to allow expired
/// certificates, because this could potentially be the only error flag
/// set even if other problems exist with the certificate.
///
/// For a server-side connection, `peer_cert` is the certificate
/// presented by the client, if this was requested via the server's
/// [`authentication_mode`][struct@crate::TlsServerConnection#authentication_mode]. On the server side,
/// the signal is always emitted when the client presents a
/// certificate, and the certificate will only be accepted if a
/// handler returns [`true`].
///
/// Note that if this signal is emitted as part of asynchronous I/O
/// in the main thread, then you should not attempt to interact with
/// the user before returning from the signal handler. If you want to
/// let the user decide whether or not to accept the certificate, you
/// would have to return [`false`] from the signal handler on the first
/// attempt, and then after the connection attempt returns a
/// [`TlsError::BadCertificate`][crate::TlsError::BadCertificate], you can interact with the user, and
/// if the user decides to accept the certificate, remember that fact,
/// create a new connection, and return [`true`] from the signal handler
/// the next time.
///
/// If you are doing I/O in another thread, you do not
/// need to worry about this, and can simply block in the signal
/// handler until the UI thread returns an answer.
///
///
///
/// # Implements
///
/// [`TlsConnectionExt`][trait@crate::prelude::TlsConnectionExt], [`IOStreamExt`][trait@crate::prelude::IOStreamExt], [`trait@glib::ObjectExt`], [`TlsConnectionExtManual`][trait@crate::prelude::TlsConnectionExtManual], [`IOStreamExtManual`][trait@crate::prelude::IOStreamExtManual]
#[doc(alias = "GTlsConnection")]
pub struct TlsConnection(Object<ffi::GTlsConnection, ffi::GTlsConnectionClass>) @extends IOStream;
match fn {
type_ => || ffi::g_tls_connection_get_type(),
}
}
impl TlsConnection {
pub const NONE: Option<&'static TlsConnection> = None;
}
mod sealed {
pub trait Sealed {}
impl<T: super::IsA<super::TlsConnection>> Sealed for T {}
}
/// Trait containing all [`struct@TlsConnection`] methods.
///
/// # Implementors
///
/// [`TlsClientConnection`][struct@crate::TlsClientConnection], [`TlsConnection`][struct@crate::TlsConnection], [`TlsServerConnection`][struct@crate::TlsServerConnection]
pub trait TlsConnectionExt: IsA<TlsConnection> + sealed::Sealed + 'static {
/// Used by [`TlsConnection`][crate::TlsConnection] implementations to emit the
/// [`accept-certificate`][struct@crate::TlsConnection#accept-certificate] signal.
/// ## `peer_cert`
/// the peer's [`TlsCertificate`][crate::TlsCertificate]
/// ## `errors`
/// the problems with `peer_cert`
///
/// # Returns
///
/// [`true`] if one of the signal handlers has returned
/// [`true`] to accept `peer_cert`
#[doc(alias = "g_tls_connection_emit_accept_certificate")]
fn emit_accept_certificate(
&self,
peer_cert: &impl IsA<TlsCertificate>,
errors: TlsCertificateFlags,
) -> bool {
unsafe {
from_glib(ffi::g_tls_connection_emit_accept_certificate(
self.as_ref().to_glib_none().0,
peer_cert.as_ref().to_glib_none().0,
errors.into_glib(),
))
}
}
/// Gets `self`'s certificate, as set by
/// [`set_certificate()`][Self::set_certificate()].
///
/// # Returns
///
/// `self`'s certificate, or [`None`]
#[doc(alias = "g_tls_connection_get_certificate")]
#[doc(alias = "get_certificate")]
fn certificate(&self) -> Option<TlsCertificate> {
unsafe {
from_glib_none(ffi::g_tls_connection_get_certificate(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the name of the current TLS ciphersuite, or [`None`] if the
/// connection has not handshaked or has been closed. Beware that the TLS
/// backend may use any of multiple different naming conventions, because
/// OpenSSL and GnuTLS have their own ciphersuite naming conventions that
/// are different from each other and different from the standard, IANA-
/// registered ciphersuite names. The ciphersuite name is intended to be
/// displayed to the user for informative purposes only, and parsing it
/// is not recommended.
///
/// # Returns
///
/// The name of the current TLS ciphersuite, or [`None`]
#[cfg(feature = "v2_70")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_70")))]
#[doc(alias = "g_tls_connection_get_ciphersuite_name")]
#[doc(alias = "get_ciphersuite_name")]
fn ciphersuite_name(&self) -> Option<glib::GString> {
unsafe {
from_glib_full(ffi::g_tls_connection_get_ciphersuite_name(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the certificate database that `self` uses to verify
/// peer certificates. See [`set_database()`][Self::set_database()].
///
/// # Returns
///
/// the certificate database that `self` uses or [`None`]
#[doc(alias = "g_tls_connection_get_database")]
#[doc(alias = "get_database")]
fn database(&self) -> Option<TlsDatabase> {
unsafe {
from_glib_none(ffi::g_tls_connection_get_database(
self.as_ref().to_glib_none().0,
))
}
}
/// Get the object that will be used to interact with the user. It will be used
/// for things like prompting the user for passwords. If [`None`] is returned, then
/// no user interaction will occur for this connection.
///
/// # Returns
///
/// The interaction object.
#[doc(alias = "g_tls_connection_get_interaction")]
#[doc(alias = "get_interaction")]
fn interaction(&self) -> Option<TlsInteraction> {
unsafe {
from_glib_none(ffi::g_tls_connection_get_interaction(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the name of the application-layer protocol negotiated during
/// the handshake.
///
/// If the peer did not use the ALPN extension, or did not advertise a
/// protocol that matched one of `self`'s protocols, or the TLS backend
/// does not support ALPN, then this will be [`None`]. See
/// [`TlsConnectionExtManual::set_advertised_protocols()`][crate::prelude::TlsConnectionExtManual::set_advertised_protocols()].
///
/// # Returns
///
/// the negotiated protocol, or [`None`]
#[cfg(feature = "v2_60")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_60")))]
#[doc(alias = "g_tls_connection_get_negotiated_protocol")]
#[doc(alias = "get_negotiated_protocol")]
fn negotiated_protocol(&self) -> Option<glib::GString> {
unsafe {
from_glib_none(ffi::g_tls_connection_get_negotiated_protocol(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets `self`'s peer's certificate after the handshake has completed
/// or failed. (It is not set during the emission of
/// [`accept-certificate`][struct@crate::TlsConnection#accept-certificate].)
///
/// # Returns
///
/// `self`'s peer's certificate, or [`None`]
#[doc(alias = "g_tls_connection_get_peer_certificate")]
#[doc(alias = "get_peer_certificate")]
fn peer_certificate(&self) -> Option<TlsCertificate> {
unsafe {
from_glib_none(ffi::g_tls_connection_get_peer_certificate(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the errors associated with validating `self`'s peer's
/// certificate, after the handshake has completed or failed. (It is
/// not set during the emission of [`accept-certificate`][struct@crate::TlsConnection#accept-certificate].)
///
/// See [`peer-certificate-errors`][struct@crate::TlsConnection#peer-certificate-errors] for more information.
///
/// # Returns
///
/// `self`'s peer's certificate errors
#[doc(alias = "g_tls_connection_get_peer_certificate_errors")]
#[doc(alias = "get_peer_certificate_errors")]
fn peer_certificate_errors(&self) -> TlsCertificateFlags {
unsafe {
from_glib(ffi::g_tls_connection_get_peer_certificate_errors(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the current TLS protocol version, which may be
/// [`TlsProtocolVersion::Unknown`][crate::TlsProtocolVersion::Unknown] if the connection has not handshaked, or
/// has been closed, or if the TLS backend has implemented a protocol version
/// that is not a recognized [`TlsProtocolVersion`][crate::TlsProtocolVersion].
///
/// # Returns
///
/// The current TLS protocol version
#[cfg(feature = "v2_70")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_70")))]
#[doc(alias = "g_tls_connection_get_protocol_version")]
#[doc(alias = "get_protocol_version")]
fn protocol_version(&self) -> TlsProtocolVersion {
unsafe {
from_glib(ffi::g_tls_connection_get_protocol_version(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets `self` rehandshaking mode. See
/// [`set_rehandshake_mode()`][Self::set_rehandshake_mode()] for details.
///
/// # Deprecated since 2.60
///
/// Changing the rehandshake mode is no longer
/// required for compatibility. Also, rehandshaking has been removed
/// from the TLS protocol in TLS 1.3.
///
/// # Returns
///
/// [`TlsRehandshakeMode::Safely`][crate::TlsRehandshakeMode::Safely]
#[cfg_attr(feature = "v2_60", deprecated = "Since 2.60")]
#[allow(deprecated)]
#[doc(alias = "g_tls_connection_get_rehandshake_mode")]
#[doc(alias = "get_rehandshake_mode")]
fn rehandshake_mode(&self) -> TlsRehandshakeMode {
unsafe {
from_glib(ffi::g_tls_connection_get_rehandshake_mode(
self.as_ref().to_glib_none().0,
))
}
}
/// Tests whether or not `self` expects a proper TLS close notification
/// when the connection is closed. See
/// [`set_require_close_notify()`][Self::set_require_close_notify()] for details.
///
/// # Returns
///
/// [`true`] if `self` requires a proper TLS close
/// notification.
#[doc(alias = "g_tls_connection_get_require_close_notify")]
#[doc(alias = "get_require_close_notify")]
fn requires_close_notify(&self) -> bool {
unsafe {
from_glib(ffi::g_tls_connection_get_require_close_notify(
self.as_ref().to_glib_none().0,
))
}
}
/// Attempts a TLS handshake on `self`.
///
/// On the client side, it is never necessary to call this method;
/// although the connection needs to perform a handshake after
/// connecting (or after sending a "STARTTLS"-type command),
/// [`TlsConnection`][crate::TlsConnection] will handle this for you automatically when you try
/// to send or receive data on the connection. You can call
/// [`handshake()`][Self::handshake()] manually if you want to know whether
/// the initial handshake succeeded or failed (as opposed to just
/// immediately trying to use `self` to read or write, in which case,
/// if it fails, it may not be possible to tell if it failed before or
/// after completing the handshake), but beware that servers may reject
/// client authentication after the handshake has completed, so a
/// successful handshake does not indicate the connection will be usable.
///
/// Likewise, on the server side, although a handshake is necessary at
/// the beginning of the communication, you do not need to call this
/// function explicitly unless you want clearer error reporting.
///
/// Previously, calling [`handshake()`][Self::handshake()] after the initial
/// handshake would trigger a rehandshake; however, this usage was
/// deprecated in GLib 2.60 because rehandshaking was removed from the
/// TLS protocol in TLS 1.3. Since GLib 2.64, calling this function after
/// the initial handshake will no longer do anything.
///
/// When using a [`TlsConnection`][crate::TlsConnection] created by [`SocketClient`][crate::SocketClient], the
/// [`SocketClient`][crate::SocketClient] performs the initial handshake, so calling this
/// function manually is not recommended.
///
/// [`accept_certificate`][struct@crate::TlsConnection#accept_certificate] may be emitted during the
/// handshake.
/// ## `cancellable`
/// a [`Cancellable`][crate::Cancellable], or [`None`]
///
/// # Returns
///
/// success or failure
#[doc(alias = "g_tls_connection_handshake")]
fn handshake(&self, cancellable: Option<&impl IsA<Cancellable>>) -> Result<(), glib::Error> {
unsafe {
let mut error = ptr::null_mut();
let is_ok = ffi::g_tls_connection_handshake(
self.as_ref().to_glib_none().0,
cancellable.map(|p| p.as_ref()).to_glib_none().0,
&mut error,
);
debug_assert_eq!(is_ok == glib::ffi::GFALSE, !error.is_null());
if error.is_null() {
Ok(())
} else {
Err(from_glib_full(error))
}
}
}
/// Asynchronously performs a TLS handshake on `self`. See
/// [`handshake()`][Self::handshake()] for more information.
/// ## `io_priority`
/// the [I/O priority][io-priority] of the request
/// ## `cancellable`
/// a [`Cancellable`][crate::Cancellable], or [`None`]
/// ## `callback`
/// callback to call when the handshake is complete
#[doc(alias = "g_tls_connection_handshake_async")]
fn handshake_async<P: FnOnce(Result<(), glib::Error>) + 'static>(
&self,
io_priority: glib::Priority,
cancellable: Option<&impl IsA<Cancellable>>,
callback: P,
) {
let main_context = glib::MainContext::ref_thread_default();
let is_main_context_owner = main_context.is_owner();
let has_acquired_main_context = (!is_main_context_owner)
.then(|| main_context.acquire().ok())
.flatten();
assert!(
is_main_context_owner || has_acquired_main_context.is_some(),
"Async operations only allowed if the thread is owning the MainContext"
);
let user_data: Box_<glib::thread_guard::ThreadGuard<P>> =
Box_::new(glib::thread_guard::ThreadGuard::new(callback));
unsafe extern "C" fn handshake_async_trampoline<
P: FnOnce(Result<(), glib::Error>) + 'static,
>(
_source_object: *mut glib::gobject_ffi::GObject,
res: *mut crate::ffi::GAsyncResult,
user_data: glib::ffi::gpointer,
) {
let mut error = ptr::null_mut();
let _ =
ffi::g_tls_connection_handshake_finish(_source_object as *mut _, res, &mut error);
let result = if error.is_null() {
Ok(())
} else {
Err(from_glib_full(error))
};
let callback: Box_<glib::thread_guard::ThreadGuard<P>> =
Box_::from_raw(user_data as *mut _);
let callback: P = callback.into_inner();
callback(result);
}
let callback = handshake_async_trampoline::<P>;
unsafe {
ffi::g_tls_connection_handshake_async(
self.as_ref().to_glib_none().0,
io_priority.into_glib(),
cancellable.map(|p| p.as_ref()).to_glib_none().0,
Some(callback),
Box_::into_raw(user_data) as *mut _,
);
}
}
fn handshake_future(
&self,
io_priority: glib::Priority,
) -> Pin<Box_<dyn std::future::Future<Output = Result<(), glib::Error>> + 'static>> {
Box_::pin(crate::GioFuture::new(
self,
move |obj, cancellable, send| {
obj.handshake_async(io_priority, Some(cancellable), move |res| {
send.resolve(res);
});
},
))
}
/// This sets the certificate that `self` will present to its peer
/// during the TLS handshake. For a [`TlsServerConnection`][crate::TlsServerConnection], it is
/// mandatory to set this, and that will normally be done at construct
/// time.
///
/// For a [`TlsClientConnection`][crate::TlsClientConnection], this is optional. If a handshake fails
/// with [`TlsError::CertificateRequired`][crate::TlsError::CertificateRequired], that means that the server
/// requires a certificate, and if you try connecting again, you should
/// call this method first. You can call
/// [`TlsClientConnectionExt::accepted_cas()`][crate::prelude::TlsClientConnectionExt::accepted_cas()] on the failed connection
/// to get a list of Certificate Authorities that the server will
/// accept certificates from.
///
/// (It is also possible that a server will allow the connection with
/// or without a certificate; in that case, if you don't provide a
/// certificate, you can tell that the server requested one by the fact
/// that [`TlsClientConnectionExt::accepted_cas()`][crate::prelude::TlsClientConnectionExt::accepted_cas()] will return
/// non-[`None`].)
/// ## `certificate`
/// the certificate to use for `self`
#[doc(alias = "g_tls_connection_set_certificate")]
fn set_certificate(&self, certificate: &impl IsA<TlsCertificate>) {
unsafe {
ffi::g_tls_connection_set_certificate(
self.as_ref().to_glib_none().0,
certificate.as_ref().to_glib_none().0,
);
}
}
/// Sets the certificate database that is used to verify peer certificates.
/// This is set to the default database by default. See
/// [`TlsBackendExt::default_database()`][crate::prelude::TlsBackendExt::default_database()]. If set to [`None`], then
/// peer certificate validation will always set the
/// [`TlsCertificateFlags::UNKNOWN_CA`][crate::TlsCertificateFlags::UNKNOWN_CA] error (meaning
/// [`accept-certificate`][struct@crate::TlsConnection#accept-certificate] will always be emitted on
/// client-side connections, unless that bit is not set in
/// [`validation-flags`][struct@crate::TlsClientConnection#validation-flags]).
///
/// There are nonintuitive security implications when using a non-default
/// database. See [`database`][struct@crate::TlsConnection#database] for details.
/// ## `database`
/// a [`TlsDatabase`][crate::TlsDatabase]
#[doc(alias = "g_tls_connection_set_database")]
fn set_database(&self, database: Option<&impl IsA<TlsDatabase>>) {
unsafe {
ffi::g_tls_connection_set_database(
self.as_ref().to_glib_none().0,
database.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Set the object that will be used to interact with the user. It will be used
/// for things like prompting the user for passwords.
///
/// The `interaction` argument will normally be a derived subclass of
/// [`TlsInteraction`][crate::TlsInteraction]. [`None`] can also be provided if no user interaction
/// should occur for this connection.
/// ## `interaction`
/// an interaction object, or [`None`]
#[doc(alias = "g_tls_connection_set_interaction")]
fn set_interaction(&self, interaction: Option<&impl IsA<TlsInteraction>>) {
unsafe {
ffi::g_tls_connection_set_interaction(
self.as_ref().to_glib_none().0,
interaction.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Since GLib 2.64, changing the rehandshake mode is no longer supported
/// and will have no effect. With TLS 1.3, rehandshaking has been removed from
/// the TLS protocol, replaced by separate post-handshake authentication and
/// rekey operations.
///
/// # Deprecated since 2.60
///
/// Changing the rehandshake mode is no longer
/// required for compatibility. Also, rehandshaking has been removed
/// from the TLS protocol in TLS 1.3.
/// ## `mode`
/// the rehandshaking mode
#[cfg_attr(feature = "v2_60", deprecated = "Since 2.60")]
#[allow(deprecated)]
#[doc(alias = "g_tls_connection_set_rehandshake_mode")]
fn set_rehandshake_mode(&self, mode: TlsRehandshakeMode) {
unsafe {
ffi::g_tls_connection_set_rehandshake_mode(
self.as_ref().to_glib_none().0,
mode.into_glib(),
);
}
}
/// Sets whether or not `self` expects a proper TLS close notification
/// before the connection is closed. If this is [`true`] (the default),
/// then `self` will expect to receive a TLS close notification from its
/// peer before the connection is closed, and will return a
/// [`TlsError::Eof`][crate::TlsError::Eof] error if the connection is closed without proper
/// notification (since this may indicate a network error, or
/// man-in-the-middle attack).
///
/// In some protocols, the application will know whether or not the
/// connection was closed cleanly based on application-level data
/// (because the application-level data includes a length field, or is
/// somehow self-delimiting); in this case, the close notify is
/// redundant and sometimes omitted. (TLS 1.1 explicitly allows this;
/// in TLS 1.0 it is technically an error, but often done anyway.) You
/// can use [`set_require_close_notify()`][Self::set_require_close_notify()] to tell `self`
/// to allow an "unannounced" connection close, in which case the close
/// will show up as a 0-length read, as in a non-TLS
/// [`SocketConnection`][crate::SocketConnection], and it is up to the application to check that
/// the data has been fully received.
///
/// Note that this only affects the behavior when the peer closes the
/// connection; when the application calls [`IOStreamExt::close()`][crate::prelude::IOStreamExt::close()] itself
/// on `self`, this will send a close notification regardless of the
/// setting of this property. If you explicitly want to do an unclean
/// close, you can close `self`'s [`base-io-stream`][struct@crate::TlsConnection#base-io-stream] rather
/// than closing `self` itself, but note that this may only be done when no other
/// operations are pending on `self` or the base I/O stream.
/// ## `require_close_notify`
/// whether or not to require close notification
#[doc(alias = "g_tls_connection_set_require_close_notify")]
fn set_require_close_notify(&self, require_close_notify: bool) {
unsafe {
ffi::g_tls_connection_set_require_close_notify(
self.as_ref().to_glib_none().0,
require_close_notify.into_glib(),
);
}
}
/// The list of application-layer protocols that the connection
/// advertises that it is willing to speak. See
/// [`TlsConnectionExtManual::set_advertised_protocols()`][crate::prelude::TlsConnectionExtManual::set_advertised_protocols()].
#[cfg(feature = "v2_60")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_60")))]
#[doc(alias = "advertised-protocols")]
fn advertised_protocols(&self) -> Vec<glib::GString> {
ObjectExt::property(self.as_ref(), "advertised-protocols")
}
/// The [`IOStream`][crate::IOStream] that the connection wraps. The connection holds a reference
/// to this stream, and may run operations on the stream from other threads
/// throughout its lifetime. Consequently, after the [`IOStream`][crate::IOStream] has been
/// constructed, application code may only run its own operations on this
/// stream when no [`IOStream`][crate::IOStream] operations are running.
#[doc(alias = "base-io-stream")]
fn base_io_stream(&self) -> Option<IOStream> {
ObjectExt::property(self.as_ref(), "base-io-stream")
}
/// Emitted during the TLS handshake after the peer certificate has
/// been received. You can examine `peer_cert`'s certification path by
/// calling [`TlsCertificateExt::issuer()`][crate::prelude::TlsCertificateExt::issuer()] on it.
///
/// For a client-side connection, `peer_cert` is the server's
/// certificate, and the signal will only be emitted if the
/// certificate was not acceptable according to `conn`'s
/// [`validation_flags`][struct@crate::TlsClientConnection#validation_flags]. If you would like the
/// certificate to be accepted despite `errors`, return [`true`] from the
/// signal handler. Otherwise, if no handler accepts the certificate,
/// the handshake will fail with [`TlsError::BadCertificate`][crate::TlsError::BadCertificate].
///
/// GLib guarantees that if certificate verification fails, this signal
/// will be emitted with at least one error will be set in `errors`, but
/// it does not guarantee that all possible errors will be set.
/// Accordingly, you may not safely decide to ignore any particular
/// type of error. For example, it would be incorrect to ignore
/// [`TlsCertificateFlags::EXPIRED`][crate::TlsCertificateFlags::EXPIRED] if you want to allow expired
/// certificates, because this could potentially be the only error flag
/// set even if other problems exist with the certificate.
///
/// For a server-side connection, `peer_cert` is the certificate
/// presented by the client, if this was requested via the server's
/// [`authentication_mode`][struct@crate::TlsServerConnection#authentication_mode]. On the server side,
/// the signal is always emitted when the client presents a
/// certificate, and the certificate will only be accepted if a
/// handler returns [`true`].
///
/// Note that if this signal is emitted as part of asynchronous I/O
/// in the main thread, then you should not attempt to interact with
/// the user before returning from the signal handler. If you want to
/// let the user decide whether or not to accept the certificate, you
/// would have to return [`false`] from the signal handler on the first
/// attempt, and then after the connection attempt returns a
/// [`TlsError::BadCertificate`][crate::TlsError::BadCertificate], you can interact with the user, and
/// if the user decides to accept the certificate, remember that fact,
/// create a new connection, and return [`true`] from the signal handler
/// the next time.
///
/// If you are doing I/O in another thread, you do not
/// need to worry about this, and can simply block in the signal
/// handler until the UI thread returns an answer.
/// ## `peer_cert`
/// the peer's [`TlsCertificate`][crate::TlsCertificate]
/// ## `errors`
/// the problems with `peer_cert`.
///
/// # Returns
///
/// [`true`] to accept `peer_cert` (which will also
/// immediately end the signal emission). [`false`] to allow the signal
/// emission to continue, which will cause the handshake to fail if
/// no one else overrides it.
#[doc(alias = "accept-certificate")]
fn connect_accept_certificate<
F: Fn(&Self, &TlsCertificate, TlsCertificateFlags) -> bool + 'static,
>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn accept_certificate_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P, &TlsCertificate, TlsCertificateFlags) -> bool + 'static,
>(
this: *mut ffi::GTlsConnection,
peer_cert: *mut ffi::GTlsCertificate,
errors: ffi::GTlsCertificateFlags,
f: glib::ffi::gpointer,
) -> glib::ffi::gboolean {
let f: &F = &*(f as *const F);
f(
TlsConnection::from_glib_borrow(this).unsafe_cast_ref(),
&from_glib_borrow(peer_cert),
from_glib(errors),
)
.into_glib()
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"accept-certificate\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
accept_certificate_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[cfg(feature = "v2_60")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_60")))]
#[doc(alias = "advertised-protocols")]
fn connect_advertised_protocols_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_advertised_protocols_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::advertised-protocols\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_advertised_protocols_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "certificate")]
fn connect_certificate_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_certificate_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::certificate\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_certificate_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[cfg(feature = "v2_70")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_70")))]
#[doc(alias = "ciphersuite-name")]
fn connect_ciphersuite_name_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_ciphersuite_name_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::ciphersuite-name\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_ciphersuite_name_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "database")]
fn connect_database_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_database_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::database\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_database_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "interaction")]
fn connect_interaction_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_interaction_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::interaction\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_interaction_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[cfg(feature = "v2_60")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_60")))]
#[doc(alias = "negotiated-protocol")]
fn connect_negotiated_protocol_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_negotiated_protocol_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::negotiated-protocol\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_negotiated_protocol_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "peer-certificate")]
fn connect_peer_certificate_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_peer_certificate_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::peer-certificate\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_peer_certificate_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "peer-certificate-errors")]
fn connect_peer_certificate_errors_notify<F: Fn(&Self) + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn notify_peer_certificate_errors_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::peer-certificate-errors\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_peer_certificate_errors_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[cfg(feature = "v2_70")]
#[cfg_attr(docsrs, doc(cfg(feature = "v2_70")))]
#[doc(alias = "protocol-version")]
fn connect_protocol_version_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_protocol_version_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::protocol-version\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_protocol_version_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[cfg_attr(feature = "v2_60", deprecated = "Since 2.60")]
#[doc(alias = "rehandshake-mode")]
fn connect_rehandshake_mode_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_rehandshake_mode_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::rehandshake-mode\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_rehandshake_mode_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "require-close-notify")]
fn connect_require_close_notify_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_require_close_notify_trampoline<
P: IsA<TlsConnection>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GTlsConnection,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(TlsConnection::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::require-close-notify\0".as_ptr() as *const _,
Some(transmute::<_, unsafe extern "C" fn()>(
notify_require_close_notify_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
}
impl<O: IsA<TlsConnection>> TlsConnectionExt for O {}
impl fmt::Display for TlsConnection {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("TlsConnection")
}
}