Network Working Group | D. Benjamin |
Internet-Draft | |
Intended status: Informational | June 6, 2018 |
Expires: December 8, 2018 |
Applying GREASE to TLS Extensibility
draft-ietf-tls-grease-01
This document describes GREASE (Generate Random Extensions And Sustain Extensibility), a mechanism to prevent extensibility failures in the TLS ecosystem. It reserves a set of TLS protocol values that may be advertised to ensure peers correctly handle unknown values.
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The TLS protocol [I-D.ietf-tls-tls13] includes several points of extensibility, including the list of cipher suites and the list of extensions. The values in these lists identify implementation capabilities. TLS follows a model where one side, usually the client, advertises capabilities and the peer, usually the server, selects them. The responding side must ignore unknown values so that new capabilities may be introduced to the ecosystem while maintaining interoperability.
However, bugs may cause an implementation to reject unknown values. It will interoperate with existing peers, so the mistake may spread through the ecosystem unnoticed. Later, when new values are defined, updated peers will discover that the metaphorical joint in the protocol has rusted shut and that the new values cannot be deployed without interoperability failures.
To avoid this problem, this document reserves some currently unused values for TLS implementations to advertise at random. Correctly implemented peers will ignore these values and interoperate. Peers that do not tolerate unknown values will fail to interoperate, revealing the mistake before it is widespread.
In keeping with the rusted joint metaphor, this technique is named GREASE (Generate Random Extensions And Sustain Extensibility).
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119.
This document reserves a number of TLS protocol values, referred to as GREASE values. These values were allocated sparsely to discourage server implementations from conditioning on them. For convenience, they were also chosen so all types share a number scheme with a consistent pattern while avoiding collisions with any existing applicable registries in TLS.
The following values are reserved as GREASE values for cipher suites:
The following values are reserved as GREASE values for extensions, named groups, signature algorithms, and versions:
Future versions of TLS or DTLS [RFC6347] MUST NOT use any of the above values as versions.
The following values are reserved as GREASE values for PskKeyExchangeModes.
Finally, this document reserves all ALPN identifiers [RFC7301] beginning with the prefix "ignore/". This corresponds to the seven-octet prefix: 0x69, 0x67, 0x6e, 0x6f, 0x72, 0x65, 0x2f.
Most extension points in TLS are offered by the client and selected by the server. This section details client and server behavior around GREASE values for these.
When sending a ClientHello, a client MAY behave as follows:
Clients MUST reject GREASE values when negotiated by the server. Specifically, the client MUST fail the connection if a GREASE value appears any in the following:
Note that this requires no special processing on the client. Clients are already required to reject unknown values selected by the server.
When processing a ClientHello, servers MUST NOT treat GREASE values differently from any unknown value. Servers MUST NOT negotiate any GREASE value when offered in a ClientHello. Servers MUST correctly ignore unknown values in a ClientHello and attempt to negotiate with one of the remaining parameters.
Note that these requirements are restatements or corollaries of existing server requirements in TLS.
Some extension points are offered by the server and selected by the client. This section details client and server behavior around GREASE values for these.
When sending a CertificateRequest in TLS 1.3, a server MAY behave as follows:
When sending a NewSessionTicket message in TLS 1.3, a server MAY select one or more GREASE extension values and advertise corresponding extensions with varying length and contents.
Servers MUST reject GREASE values when negotiated by the client. Specifically, the server MUST fail the connection if a GREASE value appears any in the following:
Note that this requires no special processing on the server. Servers are already required to reject unknown values selected by the client.
When processing a CertificateRequest or NewSessionTicket, clients MUST NOT treat GREASE values differently from any unknown value. Clients MUST NOT negotiate any GREASE value when offered by the server. Clients MUST correctly ignore unknown values offered by the server and attempt to negotiate with one of the remaining parameters.
Note that these requirements are restatements or corollaries of existing client requirements in TLS.
Implementations advertising GREASE values SHOULD select them at random. This is intended to encourage implementations to ignore all unknown values rather than any individual value. Implementations MUST honor protocol specifications when sending GREASE values. For instance, implementations sending multiple GREASE values as extensions MUST NOT send the same GREASE value twice.
Implementations SHOULD balance diversity in GREASE advertisements with determinism. For example, a client which randomly varies GREASE value positions for each connection may only fail against a broken server with some probability. This risks the failure being masked by automatic retries. A client which positions GREASE values deterministically over a period of time (such as a single software release) stresses fewer cases but is more likely to detect bugs from those cases.
[[TODO: Update IANA considerations for TLS 1.3 and rebase over draft-ietf-tls-iana-registry-updates.]]
This document updates the TLS Cipher Suite Registry, available from <https://www.iana.org/assignments/tls-parameters>:
Value | Description | DTLS-OK | Reference |
---|---|---|---|
{TBD} {0x0A,0x0A} | Reserved | Y | (this document) |
{TBD} {0x1A,0x1A} | Reserved | Y | (this document) |
{TBD} {0x2A,0x2A} | Reserved | Y | (this document) |
{TBD} {0x3A,0x3A} | Reserved | Y | (this document) |
{TBD} {0x4A,0x4A} | Reserved | Y | (this document) |
{TBD} {0x5A,0x5A} | Reserved | Y | (this document) |
{TBD} {0x6A,0x6A} | Reserved | Y | (this document) |
{TBD} {0x7A,0x7A} | Reserved | Y | (this document) |
{TBD} {0x8A,0x8A} | Reserved | Y | (this document) |
{TBD} {0x9A,0x9A} | Reserved | Y | (this document) |
{TBD} {0xAA,0xAA} | Reserved | Y | (this document) |
{TBD} {0xBA,0xBA} | Reserved | Y | (this document) |
{TBD} {0xCA,0xCA} | Reserved | Y | (this document) |
{TBD} {0xDA,0xDA} | Reserved | Y | (this document) |
{TBD} {0xEA,0xEA} | Reserved | Y | (this document) |
{TBD} {0xFA,0xFA} | Reserved | Y | (this document) |
The cipher suite numbers listed in the first column are numbers used for cipher suite interoperability testing and it's suggested that IANA use these values for assignment.
This document updates the Supported Groups Registry, available from <https://www.iana.org/assignments/tls-parameters>:
Value | Description | DTLS-OK | Reference |
---|---|---|---|
{TBD} 2570 | Reserved | Y | (this document) |
{TBD} 6682 | Reserved | Y | (this document) |
{TBD} 10794 | Reserved | Y | (this document) |
{TBD} 14906 | Reserved | Y | (this document) |
{TBD} 19018 | Reserved | Y | (this document) |
{TBD} 23130 | Reserved | Y | (this document) |
{TBD} 27242 | Reserved | Y | (this document) |
{TBD} 31354 | Reserved | Y | (this document) |
{TBD} 35466 | Reserved | Y | (this document) |
{TBD} 39578 | Reserved | Y | (this document) |
{TBD} 43690 | Reserved | Y | (this document) |
{TBD} 47802 | Reserved | Y | (this document) |
{TBD} 51914 | Reserved | Y | (this document) |
{TBD} 56026 | Reserved | Y | (this document) |
{TBD} 60138 | Reserved | Y | (this document) |
{TBD} 64250 | Reserved | Y | (this document) |
The named group numbers listed in the first column are numbers used for cipher suite interoperability testing and it's suggested that IANA use these values for assignment.
This document updates the ExtensionType Values registry, available from <https://www.iana.org/assignments/tls-extensiontype-values>:
Value | Extension name | Reference |
---|---|---|
{TBD} 2570 | Reserved | (this document) |
{TBD} 6682 | Reserved | (this document) |
{TBD} 10794 | Reserved | (this document) |
{TBD} 14906 | Reserved | (this document) |
{TBD} 19018 | Reserved | (this document) |
{TBD} 23130 | Reserved | (this document) |
{TBD} 27242 | Reserved | (this document) |
{TBD} 31354 | Reserved | (this document) |
{TBD} 35466 | Reserved | (this document) |
{TBD} 39578 | Reserved | (this document) |
{TBD} 43690 | Reserved | (this document) |
{TBD} 47802 | Reserved | (this document) |
{TBD} 51914 | Reserved | (this document) |
{TBD} 56026 | Reserved | (this document) |
{TBD} 60138 | Reserved | (this document) |
{TBD} 64250 | Reserved | (this document) |
The extension numbers listed in the first column are numbers used for cipher suite interoperability testing and it's suggested that IANA use these values for assignment.
[[TODO: How do I write IANA instructions to reserve all ALPN identifiers that begin with "ignore/"? Perhaps it would be better to reserve a concrete handful of identifiers instead.]]
GREASE values may not be negotiated, so they do not directly impact the security of TLS connections.
Historically, when interoperability problems arise in deploying new TLS features, implementations have used a fallback retry on error with the feature disabled. This allows an active attacker to silently disable the new feature. By preventing a class of such interoperability problems, GREASE reduces the need for this kind of fallback.
The author would like to thank Adam Langley, Nick Harper, and Steven Valdez for their feedback and suggestions. In addition, the rusted joint metaphor is originally due to Adam Langley.
[I-D.ietf-tls-tls13] | Rescorla, E., "The Transport Layer Security (TLS) Protocol Version 1.3", Internet-Draft draft-ietf-tls-tls13-28, March 2018. |
[RFC2119] | Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997. |
[RFC6347] | Rescorla, E. and N. Modadugu, "Datagram Transport Layer Security Version 1.2", RFC 6347, DOI 10.17487/RFC6347, January 2012. |
[RFC7301] | Friedl, S., Popov, A., Langley, A. and E. Stephan, "Transport Layer Security (TLS) Application-Layer Protocol Negotiation Extension", RFC 7301, DOI 10.17487/RFC7301, July 2014. |