26fb5480a2
Enable the upper layer protocol to specify the SNI peername. This
avoids the need for tlshd to use a DNS lookup, which can return a
hostname that doesn't match the incoming certificate's SubjectName.
Fixes: 2fd5532044
("net/handshake: Add a kernel API for requesting a TLSv1.3 handshake")
Reviewed-by: Simon Horman <simon.horman@corigine.com>
Signed-off-by: Chuck Lever <chuck.lever@oracle.com>
Signed-off-by: Jakub Kicinski <kuba@kernel.org>
223 lines
8.3 KiB
ReStructuredText
223 lines
8.3 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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=======================
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In-Kernel TLS Handshake
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=======================
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Overview
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========
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Transport Layer Security (TLS) is a Upper Layer Protocol (ULP) that runs
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over TCP. TLS provides end-to-end data integrity and confidentiality in
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addition to peer authentication.
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The kernel's kTLS implementation handles the TLS record subprotocol, but
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does not handle the TLS handshake subprotocol which is used to establish
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a TLS session. Kernel consumers can use the API described here to
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request TLS session establishment.
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There are several possible ways to provide a handshake service in the
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kernel. The API described here is designed to hide the details of those
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implementations so that in-kernel TLS consumers do not need to be
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aware of how the handshake gets done.
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User handshake agent
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====================
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As of this writing, there is no TLS handshake implementation in the
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Linux kernel. To provide a handshake service, a handshake agent
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(typically in user space) is started in each network namespace where a
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kernel consumer might require a TLS handshake. Handshake agents listen
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for events sent from the kernel that indicate a handshake request is
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waiting.
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An open socket is passed to a handshake agent via a netlink operation,
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which creates a socket descriptor in the agent's file descriptor table.
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If the handshake completes successfully, the handshake agent promotes
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the socket to use the TLS ULP and sets the session information using the
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SOL_TLS socket options. The handshake agent returns the socket to the
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kernel via a second netlink operation.
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Kernel Handshake API
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====================
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A kernel TLS consumer initiates a client-side TLS handshake on an open
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socket by invoking one of the tls_client_hello() functions. First, it
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fills in a structure that contains the parameters of the request:
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.. code-block:: c
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struct tls_handshake_args {
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struct socket *ta_sock;
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tls_done_func_t ta_done;
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void *ta_data;
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const char *ta_peername;
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unsigned int ta_timeout_ms;
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key_serial_t ta_keyring;
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key_serial_t ta_my_cert;
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key_serial_t ta_my_privkey;
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unsigned int ta_num_peerids;
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key_serial_t ta_my_peerids[5];
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};
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The @ta_sock field references an open and connected socket. The consumer
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must hold a reference on the socket to prevent it from being destroyed
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while the handshake is in progress. The consumer must also have
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instantiated a struct file in sock->file.
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@ta_done contains a callback function that is invoked when the handshake
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has completed. Further explanation of this function is in the "Handshake
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Completion" sesction below.
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The consumer can provide a NUL-terminated hostname in the @ta_peername
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field that is sent as part of ClientHello. If no peername is provided,
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the DNS hostname associated with the server's IP address is used instead.
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The consumer can fill in the @ta_timeout_ms field to force the servicing
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handshake agent to exit after a number of milliseconds. This enables the
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socket to be fully closed once both the kernel and the handshake agent
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have closed their endpoints.
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Authentication material such as x.509 certificates, private certificate
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keys, and pre-shared keys are provided to the handshake agent in keys
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that are instantiated by the consumer before making the handshake
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request. The consumer can provide a private keyring that is linked into
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the handshake agent's process keyring in the @ta_keyring field to prevent
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access of those keys by other subsystems.
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To request an x.509-authenticated TLS session, the consumer fills in
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the @ta_my_cert and @ta_my_privkey fields with the serial numbers of
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keys containing an x.509 certificate and the private key for that
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certificate. Then, it invokes this function:
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.. code-block:: c
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ret = tls_client_hello_x509(args, gfp_flags);
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The function returns zero when the handshake request is under way. A
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zero return guarantees the callback function @ta_done will be invoked
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for this socket. The function returns a negative errno if the handshake
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could not be started. A negative errno guarantees the callback function
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@ta_done will not be invoked on this socket.
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To initiate a client-side TLS handshake with a pre-shared key, use:
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.. code-block:: c
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ret = tls_client_hello_psk(args, gfp_flags);
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However, in this case, the consumer fills in the @ta_my_peerids array
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with serial numbers of keys containing the peer identities it wishes
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to offer, and the @ta_num_peerids field with the number of array
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entries it has filled in. The other fields are filled in as above.
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To initiate an anonymous client-side TLS handshake use:
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.. code-block:: c
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ret = tls_client_hello_anon(args, gfp_flags);
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The handshake agent presents no peer identity information to the remote
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during this type of handshake. Only server authentication (ie the client
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verifies the server's identity) is performed during the handshake. Thus
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the established session uses encryption only.
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Consumers that are in-kernel servers use:
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.. code-block:: c
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ret = tls_server_hello_x509(args, gfp_flags);
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or
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.. code-block:: c
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ret = tls_server_hello_psk(args, gfp_flags);
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The argument structure is filled in as above.
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If the consumer needs to cancel the handshake request, say, due to a ^C
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or other exigent event, the consumer can invoke:
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.. code-block:: c
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bool tls_handshake_cancel(sock);
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This function returns true if the handshake request associated with
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@sock has been canceled. The consumer's handshake completion callback
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will not be invoked. If this function returns false, then the consumer's
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completion callback has already been invoked.
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Handshake Completion
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====================
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When the handshake agent has completed processing, it notifies the
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kernel that the socket may be used by the consumer again. At this point,
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the consumer's handshake completion callback, provided in the @ta_done
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field in the tls_handshake_args structure, is invoked.
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The synopsis of this function is:
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.. code-block:: c
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typedef void (*tls_done_func_t)(void *data, int status,
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key_serial_t peerid);
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The consumer provides a cookie in the @ta_data field of the
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tls_handshake_args structure that is returned in the @data parameter of
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this callback. The consumer uses the cookie to match the callback to the
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thread waiting for the handshake to complete.
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The success status of the handshake is returned via the @status
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parameter:
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+------------+----------------------------------------------+
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| status | meaning |
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+============+==============================================+
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| 0 | TLS session established successfully |
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+------------+----------------------------------------------+
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| -EACCESS | Remote peer rejected the handshake or |
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| | authentication failed |
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+------------+----------------------------------------------+
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| -ENOMEM | Temporary resource allocation failure |
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+------------+----------------------------------------------+
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| -EINVAL | Consumer provided an invalid argument |
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+------------+----------------------------------------------+
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| -ENOKEY | Missing authentication material |
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+------------+----------------------------------------------+
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| -EIO | An unexpected fault occurred |
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+------------+----------------------------------------------+
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The @peerid parameter contains the serial number of a key containing the
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remote peer's identity or the value TLS_NO_PEERID if the session is not
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authenticated.
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A best practice is to close and destroy the socket immediately if the
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handshake failed.
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Other considerations
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--------------------
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While a handshake is under way, the kernel consumer must alter the
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socket's sk_data_ready callback function to ignore all incoming data.
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Once the handshake completion callback function has been invoked, normal
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receive operation can be resumed.
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Once a TLS session is established, the consumer must provide a buffer
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for and then examine the control message (CMSG) that is part of every
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subsequent sock_recvmsg(). Each control message indicates whether the
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received message data is TLS record data or session metadata.
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See tls.rst for details on how a kTLS consumer recognizes incoming
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(decrypted) application data, alerts, and handshake packets once the
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socket has been promoted to use the TLS ULP.
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