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doc: describe TLS session resumption
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PR-URL: #25174
Reviewed-By: Luigi Pinca <luigipinca@gmail.com>
Reviewed-By: James M Snell <jasnell@gmail.com>
Reviewed-By: Vse Mozhet Byt <vsemozhetbyt@gmail.com>
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sam-github authored and BethGriggs committed Apr 28, 2019
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186 changes: 147 additions & 39 deletions doc/api/tls.md
Original file line number Diff line number Diff line change
Expand Up @@ -140,6 +140,94 @@ To test the renegotiation limits on a server, connect to it using the OpenSSL
command-line client (`openssl s_client -connect address:port`) then input
`R<CR>` (i.e., the letter `R` followed by a carriage return) multiple times.

### Session Resumption

Establishing a TLS session can be relatively slow. The process can be sped
up by saving and later reusing the session state. There are several mechanisms
to do so, discussed here from oldest to newest (and preferred).

***Session Identifiers*** Servers generate a unique ID for new connections and
send it to the client. Clients and servers save the session state. When
reconnecting, clients send the ID of their saved session state and if the server
also has the state for that ID, it can agree to use it. Otherwise, the server
will create a new session. See [RFC 2246][] for more information, page 23 and
30.

Resumption using session identifiers is supported by most web browsers when
making HTTPS requests.

For Node.js, clients must call [`tls.TLSSocket.getSession()`][] after the
[`'secureConnect'`][] event to get the session data, and provide the data to the
`session` option of [`tls.connect()`][] to reuse the session. Servers must
implement handlers for the [`'newSession'`][] and [`'resumeSession'`][] events
to save and restore the session data using the session ID as the lookup key to
reuse sessions. To reuse sessions across load balancers or cluster workers,
servers must use a shared session cache (such as Redis) in their session
handlers.

***Session Tickets*** The servers encrypt the entire session state and send it
to the client as a "ticket". When reconnecting, the state is sent to the server
in the initial connection. This mechanism avoids the need for server-side
session cache. If the server doesn't use the ticket, for any reason (failure
to decrypt it, it's too old, etc.), it will create a new session and send a new
ticket. See [RFC 5077][] for more information.

Resumption using session tickets is becoming commonly supported by many web
browsers when making HTTPS requests.

For Node.js, clients use the same APIs for resumption with session identifiers
as for resumption with session tickets. For debugging, if
[`tls.TLSSocket.getTLSTicket()`][] returns a value, the session data contains a
ticket, otherwise it contains client-side session state.

Single process servers need no specific implementation to use session tickets.
To use session tickets across server restarts or load balancers, servers must
all have the same ticket keys. There are three 16-byte keys internally, but the
tls API exposes them as a single 48-byte buffer for convenience.

Its possible to get the ticket keys by calling [`server.getTicketKeys()`][] on
one server instance and then distribute them, but it is more reasonable to
securely generate 48 bytes of secure random data and set them with the
`ticketKeys` option of [`tls.createServer()`][]. The keys should be regularly
regenerated and server's keys can be reset with
[`server.setTicketKeys()`][].

Session ticket keys are cryptographic keys, and they ***must be stored
securely***. With TLS 1.2 and below, if they are compromised all sessions that
used tickets encrypted with them can be decrypted. They should not be stored
on disk, and they should be regenerated regularly.

If clients advertise support for tickets, the server will send them. The
server can disable tickets by supplying
`require('constants').SSL_OP_NO_TICKET` in `secureOptions`.

Both session identifiers and session tickets timeout, causing the server to
create new sessions. The timeout can be configured with the `sessionTimeout`
option of [`tls.createServer()`][].

For all the mechanisms, when resumption fails, servers will create new sessions.
Since failing to resume the session does not cause TLS/HTTPS connection
failures, it is easy to not notice unnecessarily poor TLS performance. The
OpenSSL CLI can be used to verify that servers are resuming sessions. Use the
`-reconnect` option to `openssl s_client`, for example:

```sh
$ openssl s_client -connect localhost:443 -reconnect
```

Read through the debug output. The first connection should say "New", for
example:

```text
New, TLSv1.2, Cipher is ECDHE-RSA-AES128-GCM-SHA256
```

Subsequent connections should say "Reused", for example:

```text
Reused, TLSv1.2, Cipher is ECDHE-RSA-AES128-GCM-SHA256
```

## Modifying the Default TLS Cipher suite

Node.js is built with a default suite of enabled and disabled TLS ciphers.
Expand Down Expand Up @@ -169,10 +257,10 @@ HIGH:
!CAMELLIA
```

This default can be replaced entirely using the [`--tls-cipher-list`][] command line
switch (directly, or via the [`NODE_OPTIONS`][] environment variable). For
instance, the following makes `ECDHE-RSA-AES128-GCM-SHA256:!RC4` the default
TLS cipher suite:
This default can be replaced entirely using the [`--tls-cipher-list`][] command
line switch (directly, or via the [`NODE_OPTIONS`][] environment variable). For
instance, the following makes `ECDHE-RSA-AES128-GCM-SHA256:!RC4` the default TLS
cipher suite:

```sh
node --tls-cipher-list="ECDHE-RSA-AES128-GCM-SHA256:!RC4" server.js
Expand Down Expand Up @@ -221,11 +309,13 @@ added: v0.9.2
-->

The `'newSession'` event is emitted upon creation of a new TLS session. This may
be used to store sessions in external storage. The listener callback is passed
three arguments when called:
be used to store sessions in external storage. The data should be provided to
the [`'resumeSession'`][] callback.

The listener callback is passed three arguments when called:

* `sessionId` - The TLS session identifier
* `sessionData` - The TLS session data
* `sessionId` {Buffer} The TLS session identifier
* `sessionData` {Buffer} The TLS session data
* `callback` {Function} A callback function taking no arguments that must be
invoked in order for data to be sent or received over the secure connection.

Expand Down Expand Up @@ -288,15 +378,19 @@ The `'resumeSession'` event is emitted when the client requests to resume a
previous TLS session. The listener callback is passed two arguments when
called:

* `sessionId` - The TLS/SSL session identifier
* `sessionId` {Buffer} The TLS session identifier
* `callback` {Function} A callback function to be called when the prior session
has been recovered.

When called, the event listener may perform a lookup in external storage using
the given `sessionId` and invoke `callback(null, sessionData)` once finished. If
the session cannot be resumed (i.e., doesn't exist in storage) the callback may
be invoked as `callback(null, null)`. Calling `callback(err)` will terminate the
incoming connection and destroy the socket.
has been recovered: `callback([err[, sessionData]])`
* `err` {Error}
* `sessionData` {Buffer}

The event listener should perform a lookup in external storage for the
`sessionData` saved by the [`'newSession'`][] event handler using the given
`sessionId`. If found, call `callback(null, sessionData)` to resume the session.
If not found, the session cannot be resumed. `callback()` must be called
without `sessionData` so that the handshake can continue and a new session can
be created. It is possible to call `callback(err)` to terminate the incoming
connection and destroy the socket.

Listening for this event will have an effect only on connections established
after the addition of the event listener.
Expand Down Expand Up @@ -406,10 +500,11 @@ Returns the current number of concurrent connections on the server.
added: v3.0.0
-->

* Returns: {Buffer}
* Returns: {Buffer} A 48-byte buffer containing the session ticket keys.

Returns a `Buffer` instance holding the keys currently used for
encryption/decryption of the [TLS Session Tickets][].
Returns the session ticket keys.

See [Session Resumption][] for more information.

### server.listen()

Expand All @@ -421,17 +516,15 @@ This method is identical to [`server.listen()`][] from [`net.Server`][].
added: v3.0.0
-->

* `keys` {Buffer} The keys used for encryption/decryption of the
[TLS Session Tickets][].

Updates the keys for encryption/decryption of the [TLS Session Tickets][].
* `keys` {Buffer} A 48-byte buffer containing the session ticket keys.

The key's `Buffer` should be 48 bytes long. See `ticketKeys` option in
[`tls.createServer()`] for more information on how it is used.
Sets the session ticket keys.

Changes to the ticket keys are effective only for future server connections.
Existing or currently pending server connections will use the previous keys.

See [Session Resumption][] for more information.

## Class: tls.TLSSocket
<!-- YAML
added: v0.11.4
Expand Down Expand Up @@ -695,19 +788,28 @@ information.
added: v0.11.4
-->

Returns the ASN.1 encoded TLS session or `undefined` if no session was
negotiated. Can be used to speed up handshake establishment when reconnecting
to the server.
* {Buffer}

Returns the TLS session data or `undefined` if no session was
negotiated. On the client, the data can be provided to the `session` option of
[`tls.connect()`][] to resume the connection. On the server, it may be useful
for debugging.

See [Session Resumption][] for more information.

### tlsSocket.getTLSTicket()
<!-- YAML
added: v0.11.4
-->

Returns the TLS session ticket or `undefined` if no session was negotiated.
* {Buffer}

For a client, returns the TLS session ticket if one is available, or
`undefined`. For a server, always returns `undefined`.

It may be useful for debugging.

This only works with client TLS sockets. Useful only for debugging, for session
reuse provide `session` option to [`tls.connect()`][].
See [Session Resumption][] for more information.

### tlsSocket.localAddress
<!-- YAML
Expand Down Expand Up @@ -1162,18 +1264,17 @@ changes:
* `requestCert` {boolean} If `true` the server will request a certificate from
clients that connect and attempt to verify that certificate. **Default:**
`false`.
* `sessionTimeout` {number} An integer specifying the number of seconds after
which the TLS session identifiers and TLS session tickets created by the
server will time out. See [`SSL_CTX_set_timeout`] for more details.
* `sessionTimeout` {number} The number of seconds after which a TLS session
created by the server will no longer be resumable. See
[Session Resumption][] for more information. **Default:** `300`.
* `SNICallback(servername, cb)` {Function} A function that will be called if
the client supports SNI TLS extension. Two arguments will be passed when
called: `servername` and `cb`. `SNICallback` should invoke `cb(null, ctx)`,
where `ctx` is a `SecureContext` instance. (`tls.createSecureContext(...)`
can be used to get a proper `SecureContext`.) If `SNICallback` wasn't
provided the default callback with high-level API will be used (see below).
* `ticketKeys`: A 48-byte `Buffer` instance consisting of a 16-byte prefix,
a 16-byte HMAC key, and a 16-byte AES key. This can be used to accept TLS
session tickets on multiple instances of the TLS server.
* `ticketKeys`: {Buffer} 48-bytes of cryptographically strong pseudo-random
data. See [Session Resumption][] for more information.
* ...: Any [`tls.createSecureContext()`][] option can be provided. For
servers, the identity options (`pfx` or `key`/`cert`) are usually required.
* `secureConnectionListener` {Function}
Expand Down Expand Up @@ -1348,21 +1449,26 @@ secureSocket = tls.TLSSocket(socket, options);

where `secureSocket` has the same API as `pair.cleartext`.

[`'newSession'`]: #tls_event_newsession
[`'resumeSession'`]: #tls_event_resumesession
[`'secureConnect'`]: #tls_event_secureconnect
[`'secureConnection'`]: #tls_event_secureconnection
[`--tls-cipher-list`]: cli.html#cli_tls_cipher_list_list
[`NODE_OPTIONS`]: cli.html#cli_node_options_options
[`SSL_CTX_set_timeout`]: https://www.openssl.org/docs/man1.1.0/ssl/SSL_CTX_set_timeout.html
[`crypto.getCurves()`]: crypto.html#crypto_crypto_getcurves
[`dns.lookup()`]: dns.html#dns_dns_lookup_hostname_options_callback
[`net.Server.address()`]: net.html#net_server_address
[`net.Server`]: net.html#net_class_net_server
[`net.Socket`]: net.html#net_class_net_socket
[`server.getConnections()`]: net.html#net_server_getconnections_callback
[`server.getTicketKeys()`]: #tls_server_getticketkeys
[`server.listen()`]: net.html#net_server_listen
[`server.setTicketKeys()`]: #tls_server_setticketkeys_keys
[`tls.DEFAULT_ECDH_CURVE`]: #tls_tls_default_ecdh_curve
[`tls.Server`]: #tls_class_tls_server
[`tls.TLSSocket.getPeerCertificate()`]: #tls_tlssocket_getpeercertificate_detailed
[`tls.TLSSocket.getSession()`]: #tls_tlssocket_getsession
[`tls.TLSSocket.getTLSTicket()`]: #tls_tlssocket_gettlsticket
[`tls.TLSSocket`]: #tls_class_tls_tlssocket
[`tls.connect()`]: #tls_tls_connect_options_callback
[`tls.createSecureContext()`]: #tls_tls_createsecurecontext_options
Expand All @@ -1376,10 +1482,12 @@ where `secureSocket` has the same API as `pair.cleartext`.
[OpenSSL Options]: crypto.html#crypto_openssl_options
[OpenSSL cipher list format documentation]: https://www.openssl.org/docs/man1.1.0/apps/ciphers.html#CIPHER-LIST-FORMAT
[Perfect Forward Secrecy]: #tls_perfect_forward_secrecy
[RFC 2246]: https://www.ietf.org/rfc/rfc2246.txt
[RFC 5077]: https://tools.ietf.org/html/rfc5077
[RFC 5929]: https://tools.ietf.org/html/rfc5929
[SSL_METHODS]: https://www.openssl.org/docs/man1.1.0/ssl/ssl.html#Dealing-with-Protocol-Methods
[Session Resumption]: #tls_session_resumption
[Stream]: stream.html#stream_stream
[TLS Session Tickets]: https://www.ietf.org/rfc/rfc5077.txt
[TLS recommendations]: https://wiki.mozilla.org/Security/Server_Side_TLS
[asn1.js]: https://www.npmjs.com/package/asn1.js
[modifying the default cipher suite]: #tls_modifying_the_default_tls_cipher_suite
Expand Down

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