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da1c088f59
Reviewed-by: Richard Levitte <levitte@openssl.org> Release: yes
847 lines
31 KiB
Plaintext
847 lines
31 KiB
Plaintext
=pod
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=head1 NAME
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openssl-quic - OpenSSL QUIC
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=head1 DESCRIPTION
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OpenSSL 3.2 and later features support for the QUIC transport protocol.
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Currently, only client connectivity is supported. This man page describes the
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usage of QUIC client functionality for both existing and new applications.
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QUIC functionality uses the standard SSL API. A QUIC connection is represented
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by an SSL object in the same way that a TLS connection is. Only minimal changes
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are needed to existing applications making use of the libssl APIs to make use of
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QUIC client functionality. To make use of QUIC, use the SSL method
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L<OSSL_QUIC_client_method(3)> or L<OSSL_QUIC_client_thread_method(3)> with
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L<SSL_CTX_new(3)>.
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When a QUIC connection is created, by default, it operates in default stream
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mode, which is intended to provide compatibility with existing non-QUIC
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application usage patterns. In this mode, the connection has a single
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stream associated with it. Calls to L<SSL_read(3)> and
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L<SSL_write(3)> on the QUIC connection SSL object read and write from that
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stream. Whether the stream is client-initiated or server-initiated from a QUIC
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perspective depends on whether L<SSL_read(3)> or L<SSL_write(3)> is called
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first. See the MODES OF OPERATION section for more information.
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The default stream mode is intended for compatibility with existing
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applications. New applications using QUIC are recommended to disable default
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stream mode and use the multi-stream API; see the MODES OF OPERATION section and
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the RECOMMENDATIONS FOR NEW APPLICATIONS section for more information.
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The remainder of this man page discusses, in order:
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=over 4
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=item
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Default stream mode versus multi-stream mode;
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=item
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The changes to existing libssl APIs which are driven by QUIC-related implementation
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requirements, which existing applications should bear in mind;
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=item
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Aspects which must be considered by existing applications when adopting QUIC,
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including potential changes which may be needed.
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=item
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Recommended usage approaches for new applications.
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=item
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New, QUIC-specific APIs.
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=back
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=head1 MODES OF OPERATION
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=head2 Default Stream Mode
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A QUIC client connection can be used in either default stream mode or
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multi-stream mode. By default, a newly created QUIC connection SSL object uses
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default stream mode.
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In default stream mode, a stream is implicitly created and bound to the QUIC
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connection SSL object; L<SSL_read(3)> and L<SSL_write(3)> calls to the QUIC
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connection SSL object work by default and are mapped to that stream.
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When default stream mode is used, any API function which can be called on a QUIC
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stream SSL object can also be called on a QUIC connection SSL object, in which
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case it affects the default stream bound to the connection.
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The identity of a QUIC stream, including its stream ID, varies depending on
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whether a stream is client-initiated or server-initiated. In default stream
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mode, if a client application calls L<SSL_read(3)> first before any call to
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L<SSL_write(3)> on the connection, it is assumed that the application protocol
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is using a server-initiated stream, and the L<SSL_read(3)> call will not
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complete (either blocking, or failing appropriately if nonblocking mode is
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configured) until the server initiates a stream. Conversely, if the client
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application calls L<SSL_write(3)> before any call to L<SSL_read(3)> on the
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connection, it is assumed that a client-initiated stream is to be used
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and such a stream is created automatically.
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Default stream mode is intended to aid compatibility with legacy applications.
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New applications adopting QUIC should use multi-stream mode, described below,
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and avoid use of the default stream functionality.
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It is possible to use additional streams in default stream mode using
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L<SSL_new_stream(3)> and L<SSL_accept_stream(3)>; note that the default incoming
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stream policy will need to be changed using L<SSL_set_incoming_stream_policy(3)>
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in order to use L<SSL_accept_stream(3)> in this case. However, applications
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using additional streams are strongly recommended to use multi-stream mode
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instead.
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Calling L<SSL_new_stream(3)> or L<SSL_accept_stream(3)> before a default stream
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has been associated with the QUIC connection SSL object will inhibit future
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creation of a default stream.
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=head2 Multi-Stream Mode
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The recommended usage mode for new applications adopting QUIC is multi-stream
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mode, in which no default stream is attached to the QUIC connection SSL object
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and attempts to call L<SSL_read(3)> and L<SSL_write(3)> on the QUIC connection
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SSL object fail. Instead, an application calls L<SSL_new_stream(3)> or
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L<SSL_accept_stream(3)> to create individual stream SSL objects for sending and
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receiving application data using L<SSL_read(3)> and L<SSL_write(3)>.
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To use multi-stream mode, call L<SSL_set_default_stream_mode(3)> with an
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argument of B<SSL_DEFAULT_STREAM_MODE_NONE>; this function must be called prior
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to initiating the connection. The default stream mode cannot be changed after
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initiating a connection.
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When multi-stream mode is used, meaning that no default stream is associated
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with the connection, calls to API functions which are defined as operating on a
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QUIC stream fail if called on the QUIC connection SSL object. For example, calls
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such as L<SSL_write(3)> or L<SSL_get_stream_id(3)> will fail.
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=head1 CHANGES TO EXISTING APIS
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Most SSL APIs, such as L<SSL_read(3)> and L<SSL_write(3)>, function as they do
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for TLS connections and do not have changed semantics, with some exceptions. The
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changes to the semantics of existing APIs are as follows:
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=over 4
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=item
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Since QUIC uses UDP, L<SSL_set_bio(3)>, L<SSL_set0_rbio(3)> and
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L<SSL_set0_wbio(3)> function as before, but must now receive a BIO with datagram
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semantics. There are broadly four options for applications to use as a network
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BIO:
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=over 4
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=item
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L<BIO_s_datagram(3)>, recommended for most applications, replaces
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L<BIO_s_socket(3)> and provides a UDP socket.
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=item
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L<BIO_s_dgram_pair(3)> provides BIO pair-like functionality but with datagram
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semantics, and is recommended for existing applications which use a BIO pair or
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memory BIO to manage libssl's communication with the network.
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=item
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L<BIO_s_dgram_mem(3)> provides a simple memory BIO-like interface but with
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datagram semantics. Unlike L<BIO_s_dgram_pair(3)>, it is unidirectional.
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=item
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An application may also choose to implement a custom BIO. The new
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L<BIO_sendmmsg(3)> and L<BIO_recvmmsg(3)> APIs must be supported.
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=back
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=item
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L<SSL_set_fd(3)>, L<SSL_set_rfd(3)> and L<SSL_set_wfd(3)> traditionally
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instantiate a L<BIO_s_socket(3)>. For QUIC, these functions instead instantiate
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a L<BIO_s_datagram(3)>. This is equivalent to instantiating a
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L<BIO_s_datagram(3)> and using L<SSL_set0_rbio(3)> and L<SSL_set0_wbio(3)>.
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=item
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Traditionally, whether the application-level I/O APIs (such as L<SSL_read(3)>
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and L<SSL_write(3)> operated in a blocking fashion was directly correlated with
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whether the underlying network socket was configured in a blocking fashion. This
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is no longer the case; applications must explicitly configure the desired
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application-level blocking mode using L<SSL_set_blocking_mode(3)>. See
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L<SSL_set_blocking_mode(3)> for details.
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=item
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Network-level I/O must always be performed in a nonblocking manner. The
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application can still enjoy blocking semantics for calls to application-level
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I/O functions such as L<SSL_read(3)> and L<SSL_write(3)>, but the underlying
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network BIO provided to QUIC (such as a L<BIO_s_datagram(3)>) must be configured
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in nonblocking mode. For application-level blocking functionality, see
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L<SSL_set_blocking_mode(3)>.
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=item
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L<BIO_new_ssl_connect(3)> has been changed to automatically use a
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L<BIO_s_datagram(3)> when used with QUIC, therefore applications which use this
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do not need to change the BIO they use.
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=item
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L<BIO_new_buffer_ssl_connect(3)> cannot be used with QUIC and applications must
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change to use L<BIO_new_ssl_connect(3)> instead.
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=item
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L<SSL_shutdown(3)> has significant changes in relation to how QUIC connections
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must be shut down. In particular, applications should be advised that the full
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RFC-conformant QUIC shutdown process may take an extended amount of time. This
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may not be suitable for short-lived processes which should exit immediately
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after their usage of a QUIC connection is completed. A rapid shutdown mode
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is available for such applications. For details, see L<SSL_shutdown(3)>.
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=item
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L<SSL_want(3)>, L<SSL_want_read(3)> and L<SSL_want_write(3)> no longer reflect
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the I/O state of the network BIO passed to the QUIC SSL object, but instead
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reflect the flow control state of the QUIC stream associated with the SSL
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object.
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When used in nonblocking mode, B<SSL_ERROR_WANT_READ> indicates that the
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receive part of a QUIC stream does not currently have any more data available to
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be read, and B<SSL_ERROR_WANT_WRITE> indicates that the stream's internal buffer
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is full.
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To determine if the QUIC implementation currently wishes to be informed of
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incoming network datagrams, use the new function L<SSL_net_read_desired(3)>;
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likewise, to determine if the QUIC implementation currently wishes to be
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informed when it is possible to transmit network datagrams, use the new function
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L<SSL_net_write_desired(3)>. Only applications which wish to manage their own event
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loops need to use these functions; see B<APPLICATION-DRIVEN EVENT LOOPS> for
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further discussion.
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=item
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The use of ALPN is mandatory when using QUIC. Attempts to connect without
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configuring ALPN will fail. For information on how to configure ALPN, see
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L<SSL_set_alpn_protos(3)>.
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=item
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Whether QUIC operates in a client or server mode is determined by the
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B<SSL_METHOD> used, rather than by calls to L<SSL_set_connect_state(3)> or
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L<SSL_set_accept_state(3)>. It is not necessary to call either of
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L<SSL_set_connect_state(3)> or L<SSL_set_accept_state(3)> before connecting, but
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if either of these are called, the function called must be congruent with the
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B<SSL_METHOD> being used. Currently, only client mode is supported.
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=item
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The L<SSL_set_min_proto_version(3)> and L<SSL_set_max_proto_version(3)> APIs are
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not used and the values passed to them are ignored, as OpenSSL QUIC currently
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always uses TLS 1.3.
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=item
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The following libssl functionality is not available when used with QUIC.
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=over 4
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=item
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Async functionality
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=item
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B<SSL_MODE_AUTO_RETRY>
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=item
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Record Padding and Fragmentation (L<SSL_set_block_padding(3)>, etc.)
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=item
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L<SSL_stateless(3)> support
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=item
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SRTP functionality
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=item
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TLSv1.3 Early Data
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=item
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TLS Next Protocol Negotiation cannot be used and is superseded by ALPN, which
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must be used instead. The use of ALPN is mandatory with QUIC.
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=item
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Post-Handshake Client Authentication is not available as QUIC prohibits its use.
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=item
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QUIC requires the use of TLSv1.3 or later, therefore functionality only relevant
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to older TLS versions is not available.
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=item
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Some cipher suites which are generally available for TLSv1.3 are not available
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for QUIC, such as B<TLS_AES_128_CCM_8_SHA256>. Your application may need to
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adjust the list of acceptable cipher suites it passes to libssl.
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=item
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CCM mode is not currently supported.
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=back
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The following libssl functionality is also not available when used with QUIC,
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but calls to the relevant functions are treated as no-ops:
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=over 4
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=item
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Readahead (L<SSL_set_read_ahead(3)>, etc.)
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=back
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=back
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=head1 CONSIDERATIONS FOR EXISTING APPLICATIONS
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Existing applications seeking to adopt QUIC should apply the following list to
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determine what changes they will need to make:
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=over 4
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=item
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An application wishing to use QUIC must use L<OSSL_QUIC_client_method(3)> or
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L<OSSL_QUIC_client_thread_method(3)> as its SSL method. For more information
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on the differences between these two methods, see B<THREAD ASSISTED MODE>.
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=item
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Determine how to provide QUIC with network access. Determine which of the below
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apply for your application:
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=over 4
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=item
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Your application uses L<BIO_s_socket(3)> to construct a BIO which is passed to
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the SSL object to provide it with network access.
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Changes needed: Change your application to use L<BIO_s_datagram(3)> instead when
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using QUIC. The socket must be configured in nonblocking mode. You may or may
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not need to use L<SSL_set1_initial_peer_addr(3)> to set the initial peer
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address; see the B<QUIC-SPECIFIC APIS> section for details.
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=item
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Your application uses L<BIO_new_ssl_connect(3)> to
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construct a BIO which is passed to the SSL object to provide it with network
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access.
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Changes needed: No changes needed. Use of QUIC is detected automatically and a
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datagram socket is created instead of a normal TCP socket.
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=item
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Your application uses any other I/O strategy in this list but combines it with a
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L<BIO_f_buffer(3)>, for example using L<BIO_push(3)>.
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Changes needed: Disable the usage of L<BIO_f_buffer(3)> when using QUIC. Usage
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of such a buffer is incompatible with QUIC as QUIC requires datagram semantics
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in its interaction with the network.
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=item
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Your application uses a BIO pair to cause the SSL object to read and write
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network traffic to a memory buffer. Your application manages the transmission
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and reception of buffered data itself in a way unknown to libssl.
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Changes needed: Switch from using a conventional BIO pair to using
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L<BIO_s_dgram_pair(3)> instead, which has the necessary datagram semantics. You
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will need to modify your application to transmit and receive using a UDP socket
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and to use datagram semantics when interacting with the L<BIO_s_dgram_pair(3)>
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instance.
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=item
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Your application uses a custom BIO method to provide the SSL object with network
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access.
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Changes needed: The custom BIO must be re-architected to have datagram
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semantics. L<BIO_sendmmsg(3)> and L<BIO_recvmmsg(3)> must be implemented. These
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calls must operate in a nonblocking fashion. Optionally, implement the
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L<BIO_get_rpoll_descriptor(3)> and L<BIO_get_wpoll_descriptor(3)> methods if
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desired. Implementing these methods is required if blocking semantics at the SSL
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API level are desired.
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=back
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=item
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An application must explicitly configure whether it wishes to use the SSL APIs
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in blocking mode or not. Traditionally, an SSL object has automatically operated
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in blocking or nonblocking mode based on whether the underlying network BIO
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operates in blocking or nonblocking mode. QUIC requires the use of a
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nonblocking network BIO, therefore the blocking mode at the application level
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must be explicitly configured by the application using the new
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L<SSL_set_blocking_mode(3)> API. The default mode is blocking. If an application
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wishes to use the SSL object APIs at application level in a nonblocking manner,
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it must add a call to L<SSL_set_blocking_mode(3)> to disable blocking mode.
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=item
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If your application does not choose to use thread assisted mode, it must ensure
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that it calls an I/O function on the SSL object (for example, L<SSL_read(3)> or
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L<SSL_write(3)>), or the new function L<SSL_handle_events(3)>, regularly. If the
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SSL object is used in blocking mode, an ongoing blocking call to an I/O function
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satisfies this requirement. This is required to ensure that timer events
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required by QUIC are handled in a timely fashion.
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Most applications will service the SSL object by calling L<SSL_read(3)> or
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L<SSL_write(3)> regularly. If an application does not do this, it should ensure
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that L<SSL_handle_events(3)> is called regularly.
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L<SSL_get_event_timeout(3)> can be used to determine when
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L<SSL_handle_events(3)> must next be called.
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If the SSL object is being used with an underlying network BIO which is pollable
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(such as L<BIO_s_datagram(3)>), the application can use
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L<SSL_get_rpoll_descriptor(3)>, L<SSL_get_wpoll_descriptor(3)> to obtain
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resources which can be used to determine when L<SSL_handle_events(3)> should be
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called due to network I/O.
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Applications which use thread assisted mode do not need to be concerned
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with this requirement, as the QUIC implementation ensures timeout events
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are handled in a timely manner. See B<THREAD ASSISTED MODE> for details.
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=item
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Ensure that your usage of L<SSL_want(3)>, L<SSL_want_read(3)> and
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L<SSL_want_write(3)> reflects the API changes described in B<CHANGES TO EXISTING
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APIS>. In particular, you should use these APIs to determine the ability of a
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QUIC stream to receive or provide application data, not to to determine if
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network I/O is required.
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=item
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Evaluate your application's use of L<SSL_shutdown(3)> in light of the changes
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discussed in B<CHANGES TO EXISTING APIS>. Depending on whether your application
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wishes to prioritise RFC conformance or rapid shutdown, consider using the new
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L<SSL_shutdown_ex(3)> API instead. See B<QUIC-SPECIFIC APIS> for details.
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=back
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=head1 RECOMMENDED USAGE IN NEW APPLICATIONS
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The recommended usage in new applications varies depending on three independent
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design decisions:
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=over 4
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=item
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Whether the application will use blocking or nonblocking I/O at the application
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level (configured using L<SSL_set_blocking_mode(3)>).
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If the application does nonblocking I/O at the application level it can choose
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to manage its own polling and event loop; see B<APPLICATION-DRIVEN EVENT LOOPS>.
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=item
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Whether the application intends to give the QUIC implementation direct access to
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a network socket (e.g. via L<BIO_s_datagram(3)>) or whether it intends to buffer
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transmitted and received datagrams via a L<BIO_s_dgram_pair(3)> or custom BIO.
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The former is preferred where possible as it reduces latency to the network,
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which enables QUIC to achieve higher performance and more accurate connection
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round trip time (RTT) estimation.
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=item
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Whether thread assisted mode will be used (see B<THREAD ASSISTED MODE>).
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=back
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Simple demos for QUIC usage under these various scenarios can be found at
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L<https://github.com/openssl/openssl/tree/master/doc/designs/ddd>.
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Applications which wish to implement QUIC-specific protocols should be aware of
|
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the APIs listed under B<QUIC-SPECIFIC APIS> which provide access to
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QUIC-specific functionality. For example, L<SSL_stream_conclude(3)> can be used
|
|
to indicate the end of the sending part of a stream, and L<SSL_shutdown_ex(3)>
|
|
can be used to provide a QUIC application error code when closing a connection.
|
|
|
|
Regardless of the design decisions chosen above, it is recommended that new
|
|
applications avoid use of the default stream mode and use the multi-stream API
|
|
by calling L<SSL_set_default_stream_mode(3)>; see the MODES OF OPERATION section
|
|
for details.
|
|
|
|
=head1 QUIC-SPECIFIC APIS
|
|
|
|
This section details new APIs which are directly or indirectly related to QUIC.
|
|
For details on the operation of each API, see the referenced man pages.
|
|
|
|
The following SSL APIs are new but relevant to both QUIC and DTLS:
|
|
|
|
=over 4
|
|
|
|
=item L<SSL_get_event_timeout(3)>
|
|
|
|
Determines when the QUIC implementation should next be woken up via a call to
|
|
L<SSL_handle_events(3)> (or another I/O function such as L<SSL_read(3)> or
|
|
L<SSL_write(3)>), if ever.
|
|
|
|
This can also be used with DTLS and supersedes L<DTLSv1_get_timeout(3)> for new
|
|
usage.
|
|
|
|
=item L<SSL_handle_events(3)>
|
|
|
|
This is a non-specific I/O operation which makes a best effort attempt to
|
|
perform any pending I/O or timeout processing. It can be used to advance the
|
|
QUIC state machine by processing incoming network traffic, generating outgoing
|
|
network traffic and handling any expired timeout events. Most other I/O
|
|
functions on an SSL object, such as L<SSL_read(3)> and L<SSL_write(3)>
|
|
implicitly perform event handling on the SSL object, so calling this function is
|
|
only needed if no other I/O function is to be called.
|
|
|
|
This can also be used with DTLS and supersedes L<DTLSv1_handle_timeout(3)> for
|
|
new usage.
|
|
|
|
=back
|
|
|
|
The following SSL APIs are specific to QUIC:
|
|
|
|
=over 4
|
|
|
|
=item L<SSL_set_blocking_mode(3)>, L<SSL_get_blocking_mode(3)>
|
|
|
|
Configures whether blocking semantics are used at the application level. This
|
|
determines whether calls to functions such as L<SSL_read(3)> and L<SSL_write(3)>
|
|
will block.
|
|
|
|
=item L<SSL_get_rpoll_descriptor(3)>, L<SSL_get_wpoll_descriptor(3)>
|
|
|
|
These functions facilitate operation in nonblocking mode.
|
|
|
|
When an SSL object is being used with an underlying network read BIO which
|
|
supports polling, L<SSL_get_rpoll_descriptor(3)> outputs an OS resource which
|
|
can be used to synchronise on network readability events which should result in
|
|
a call to L<SSL_handle_events(3)>. L<SSL_get_wpoll_descriptor(3)> works in an
|
|
analogous fashion for the underlying network write BIO.
|
|
|
|
The poll descriptors provided by these functions need only be used when
|
|
L<SSL_net_read_desired(3)> and L<SSL_net_write_desired(3)> return 1, respectively.
|
|
|
|
=item L<SSL_net_read_desired(3)>, L<SSL_net_write_desired(3)>
|
|
|
|
These functions facilitate operation in nonblocking mode and are used in
|
|
conjunction with L<SSL_get_rpoll_descriptor(3)> and
|
|
L<SSL_get_wpoll_descriptor(3)> respectively. They determine whether the
|
|
respective poll descriptor is currently relevant for the purposes of polling.
|
|
|
|
=item L<SSL_set1_initial_peer_addr(3)>
|
|
|
|
This function can be used to set the initial peer address for an outgoing QUIC
|
|
connection. This function must be used in the general case when creating an
|
|
outgoing QUIC connection; however, the correct initial peer address can be
|
|
autodetected in some cases. See L<SSL_set1_initial_peer_addr(3)> for details.
|
|
|
|
=item L<SSL_shutdown_ex(3)>
|
|
|
|
This augments L<SSL_shutdown(3)> by allowing an application error code to be
|
|
specified. It also allows a client to decide how quickly it wants a shutdown to
|
|
be performed, potentially by trading off strict RFC compliance.
|
|
|
|
=item L<SSL_stream_conclude(3)>
|
|
|
|
This allows an application to indicate the normal end of the sending part of a
|
|
QUIC stream. This corresponds to the FIN flag in the QUIC RFC. The receiving
|
|
part of a stream remains usable.
|
|
|
|
=item L<SSL_stream_reset(3)>
|
|
|
|
This allows an application to indicate the non-normal termination of the sending
|
|
part of a stream. This corresponds to the RESET_STREAM frame in the QUIC RFC.
|
|
|
|
=item L<SSL_get_stream_write_state(3)> and L<SSL_get_stream_read_state(3)>
|
|
|
|
This allows an application to determine the current stream states for the
|
|
sending and receiving parts of a stream respectively.
|
|
|
|
=item L<SSL_get_stream_write_error_code(3)> and L<SSL_get_stream_read_error_code(3)>
|
|
|
|
This allows an application to determine the application error code which was
|
|
signalled by a peer which has performed a non-normal stream termination of the
|
|
respective sending or receiving part of a stream, if any.
|
|
|
|
=item L<SSL_get_conn_close_info(3)>
|
|
|
|
This allows an application to determine the error code which was signalled when
|
|
the local or remote endpoint terminated the QUIC connection.
|
|
|
|
=item L<SSL_get0_connection(3)>
|
|
|
|
Gets the QUIC connection SSL object from a QUIC stream SSL object.
|
|
|
|
=item L<SSL_is_connection(3)>
|
|
|
|
Returns 1 if a SSL object is not a QUIC stream SSL object.
|
|
|
|
=item L<SSL_get_stream_type(3)>
|
|
|
|
Provides information on the kind of QUIC stream which is attached
|
|
to the SSL object.
|
|
|
|
=item L<SSL_get_stream_id(3)>
|
|
|
|
Returns the QUIC stream ID which the QUIC protocol has associated with a QUIC
|
|
stream.
|
|
|
|
=item L<SSL_new_stream(3)>
|
|
|
|
Creates a new QUIC stream SSL object representing a new, locally-initiated QUIC
|
|
stream.
|
|
|
|
=item L<SSL_accept_stream(3)>
|
|
|
|
Potentially yields a new QUIC stream SSL object representing a new
|
|
remotely-initiated QUIC stream, blocking until one is available if the
|
|
connection is configured to do so.
|
|
|
|
=item L<SSL_get_accept_stream_queue_len(3)>
|
|
|
|
Provides information on the number of pending remotely-initiated streams.
|
|
|
|
=item L<SSL_set_incoming_stream_policy(3)>
|
|
|
|
Configures how incoming, remotely-initiated streams are handled. The incoming
|
|
stream policy can be used to automatically reject streams created by the peer,
|
|
or allow them to be handled using L<SSL_accept_stream(3)>.
|
|
|
|
=item L<SSL_set_default_stream_mode(3)>
|
|
|
|
Used to configure or disable default stream mode; see the MODES OF OPERATION
|
|
section for details.
|
|
|
|
=back
|
|
|
|
The following BIO APIs are not specific to QUIC but have been added to
|
|
facilitate QUIC-specific requirements and are closely associated with its use:
|
|
|
|
=over 4
|
|
|
|
=item L<BIO_s_dgram_pair(3)>
|
|
|
|
This is a new BIO method which is similar to a conventional BIO pair but
|
|
provides datagram semantics.
|
|
|
|
=item L<BIO_get_rpoll_descriptor(3)>, L<BIO_get_wpoll_descriptor(3)>
|
|
|
|
This is a new BIO API which allows a BIO to expose a poll descriptor. This API
|
|
is used to implement the corresponding SSL APIs L<SSL_get_rpoll_descriptor(3)>
|
|
and L<SSL_get_wpoll_descriptor(3)>.
|
|
|
|
=item L<BIO_sendmmsg(3)>, L<BIO_recvmmsg(3)>
|
|
|
|
This is a new BIO API which can be implemented by BIOs which implement datagram
|
|
semantics. It is implemented by L<BIO_s_datagram(3)> and L<BIO_s_dgram_pair(3)>.
|
|
It is used by the QUIC implementation to send and receive UDP datagrams.
|
|
|
|
=item L<BIO_dgram_set_no_trunc(3)>, L<BIO_dgram_get_no_trunc(3)>
|
|
|
|
By default, L<BIO_s_dgram_pair(3)> has semantics comparable to those of Berkeley
|
|
sockets being used with datagram semantics. This allows an alternative mode
|
|
to be enabled in which datagrams will not be silently truncated if they are
|
|
too large.
|
|
|
|
=item L<BIO_dgram_set_caps(3)>, L<BIO_dgram_get_caps(3)>
|
|
|
|
These functions are used to allow the user of one end of a
|
|
L<BIO_s_dgram_pair(3)> to indicate its capabilities to the other end of a
|
|
L<BIO_s_dgram_pair(3)>. In particular, this allows an application to inform the
|
|
QUIC implementation of whether it is prepared to handle local and/or peer
|
|
addresses in transmitted datagrams and to provide the applicable information in
|
|
received datagrams.
|
|
|
|
=item L<BIO_dgram_get_local_addr_cap(3)>, L<BIO_dgram_set_local_addr_enable(3)>,
|
|
L<BIO_dgram_get_local_addr_enable(3)>
|
|
|
|
Local addressing support refers to the ability of a BIO with datagram semantics
|
|
to allow a source address to be specified on transmission and to report the
|
|
destination address on reception. These functions can be used to determine if a
|
|
BIO can support local addressing and to enable local addressing support if it
|
|
can.
|
|
|
|
=item L<BIO_err_is_non_fatal(3)>
|
|
|
|
This is used to determine if an error while calling L<BIO_sendmmsg(3)> or
|
|
L<BIO_recvmmsg(3)> is ephemeral in nature, such as "would block" errors.
|
|
|
|
=back
|
|
|
|
=head1 THREAD ASSISTED MODE
|
|
|
|
The optional thread assisted mode can be used with
|
|
L<OSSL_QUIC_client_thread_method(3)>. In this mode, a background thread is
|
|
created automatically. The OpenSSL QUIC implementation then takes responsibility
|
|
for ensuring that timeout events are handled on a timely basis even if no SSL
|
|
I/O function such as L<SSL_read(3)> or L<SSL_write(3)> is called by the
|
|
application for a long time.
|
|
|
|
All necessary locking is handled automatically internally, but the thread safety
|
|
guarantees for the public SSL API are unchanged. Therefore, an application must
|
|
still do its own locking if it wishes to make concurrent use of the public SSL
|
|
APIs.
|
|
|
|
Because this method relies on threads, it is not available on platforms where
|
|
threading support is not available or not supported by OpenSSL. However, it
|
|
does provide the simplest mode of usage for an application.
|
|
|
|
The implementation may or may not use a common thread or thread pool to service
|
|
multiple SSL objects in the same B<SSL_CTX>.
|
|
|
|
=head1 APPLICATION-DRIVEN EVENT LOOPS
|
|
|
|
OpenSSL's QUIC implementation is designed to facilitate applications which wish
|
|
to use the SSL APIs in a blocking fashion, but is also designed to facilitate
|
|
applications which wish to use the SSL APIs in a nonblocking fashion and manage
|
|
their own event loops and polling directly. This is useful when it is desirable
|
|
to host OpenSSL's QUIC implementation on top of an application's existing
|
|
nonblocking I/O infrastructure.
|
|
|
|
This is supported via the concept of poll descriptors; see
|
|
L<BIO_get_rpoll_descriptor(3)> for details. Broadly, a B<BIO_POLL_DESCRIPTOR> is
|
|
a structure which expresses some kind of OS resource which can be used to
|
|
synchronise on I/O events. The QUIC implementation provides a
|
|
B<BIO_POLL_DESCRIPTOR> based on the poll descriptor provided by the underlying
|
|
network BIO. This is typically an OS socket handle, though custom BIOs could
|
|
choose to implement their own custom poll descriptor format.
|
|
|
|
Broadly, an application which wishes to manage its own event loop should
|
|
interact with the SSL object as follows:
|
|
|
|
=over 4
|
|
|
|
=item
|
|
|
|
It should provide read and write BIOs with nonblocking datagram semantics to
|
|
the SSL object using L<SSL_set0_rbio(3)> and L<SSL_set0_wbio(3)>. This could be
|
|
a BIO abstracting a network socket such as L<BIO_s_datagram(3)>, or a BIO
|
|
abstracting some kind of memory buffer such as L<BIO_s_dgram_pair(3)>. Use of a
|
|
custom BIO is also possible.
|
|
|
|
=item
|
|
|
|
It should configure the SSL object into nonblocking mode by calling
|
|
L<SSL_set_blocking_mode(3)>.
|
|
|
|
=item
|
|
|
|
It should configure the SSL object as desired, set an initial peer as needed
|
|
using L<SSL_set1_initial_peer_addr(3)>, and trigger the connection process by
|
|
calling L<SSL_connect(3)>.
|
|
|
|
=item
|
|
|
|
If the network read and write BIOs provided were pollable (for example,
|
|
a L<BIO_s_datagram(3)>, or a custom BIO which implements
|
|
L<BIO_get_rpoll_descriptor(3)> and L<BIO_get_wpoll_descriptor(3)>), it should
|
|
perform the following steps repeatedly:
|
|
|
|
=over 4
|
|
|
|
=item
|
|
|
|
The application should call L<SSL_get_rpoll_descriptor(3)> and
|
|
L<SSL_get_wpoll_descriptor(3)> to identify OS resources which can be used for
|
|
synchronisation.
|
|
|
|
=item
|
|
|
|
It should call L<SSL_net_read_desired(3)> and L<SSL_net_write_desired(3)> to determine
|
|
whether the QUIC implementation is currently interested in readability and
|
|
writability events on the underlying network BIO which was provided, and call
|
|
L<SSL_get_event_timeout(3)> to determine if any timeout event will become
|
|
applicable in the future.
|
|
|
|
=item
|
|
|
|
It should wait until one of the following events occurs:
|
|
|
|
=over 4
|
|
|
|
=item
|
|
|
|
The poll descriptor returned by L<SSL_get_rpoll_descriptor(3)> becomes readable
|
|
(if L<SSL_net_read_desired(3)> returned 1);
|
|
|
|
=item
|
|
|
|
The poll descriptor returned by L<SSL_get_wpoll_descriptor(3)> becomes writable
|
|
(if L<SSL_net_write_desired(3)> returned 1);
|
|
|
|
=item
|
|
|
|
The timeout returned by L<SSL_get_event_timeout(3)> (if any) expires.
|
|
|
|
=back
|
|
|
|
Once any of these events occurs, L<SSL_handle_events(3)> should be called.
|
|
|
|
=back
|
|
|
|
=item
|
|
|
|
If the network read and write BIOs provided were not pollable (for example, in
|
|
the case of L<BIO_s_dgram_pair(3)>), the application is responsible for managing
|
|
and synchronising network I/O. It should call L<SSL_handle_events(3)> after it
|
|
writes data to a L<BIO_s_dgram_pair(3)> or otherwise takes action so that the
|
|
QUIC implementation can read new datagrams via a call to L<BIO_recvmmsg(3)> on
|
|
the underlying network BIO. The QUIC implementation may output datagrams via a
|
|
call to L<BIO_sendmmsg(3)> and the application is responsible for ensuring these
|
|
are transmitted.
|
|
|
|
The application must call L<SSL_get_event_timeout(3)> after every call to
|
|
L<SSL_handle_events(3)> (or another I/O function on the SSL object), and ensure
|
|
that a call to L<SSL_handle_events(3)> is performed after the specified timeout
|
|
(if any).
|
|
|
|
=back
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<SSL_handle_events(3)>, L<SSL_get_event_timeout(3)>,
|
|
L<SSL_net_read_desired(3)>, L<SSL_net_write_desired(3)>,
|
|
L<SSL_get_rpoll_descriptor(3)>, L<SSL_get_wpoll_descriptor(3)>,
|
|
L<SSL_set_blocking_mode(3)>, L<SSL_shutdown_ex(3)>,
|
|
L<SSL_set1_initial_peer_addr(3)>, L<SSL_stream_conclude(3)>,
|
|
L<SSL_stream_reset(3)>, L<SSL_get_stream_read_state(3)>,
|
|
L<SSL_get_stream_read_error_code(3)>, L<SSL_get_conn_close_info(3)>,
|
|
L<SSL_get0_connection(3)>, L<SSL_get_stream_type(3)>, L<SSL_get_stream_id(3)>,
|
|
L<SSL_new_stream(3)>, L<SSL_accept_stream(3)>,
|
|
L<SSL_set_incoming_stream_policy(3)>, L<SSL_set_default_stream_mode(3)>
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright 2022-2023 The OpenSSL Project Authors. All Rights Reserved.
|
|
|
|
Licensed under the Apache License 2.0 (the "License"). You may not use
|
|
this file except in compliance with the License. You can obtain a copy
|
|
in the file LICENSE in the source distribution or at
|
|
L<https://www.openssl.org/source/license.html>.
|
|
|
|
=cut
|