This is a purely informative rendering of an RFC that includes verified errata. This rendering may not be used as a reference.

The following 'Verified' errata have been incorporated in this document: EID 3267, EID 3455
Internet Engineering Task Force (IETF)                       B. Trammell
Request for Comments: 6546                                    ETH Zurich
Obsoletes: 6046                                               April 2012
Category: Standards Track
ISSN: 2070-1721

      Transport of Real-time Inter-network Defense (RID) Messages
                             over HTTP/TLS


   The Incident Object Description Exchange Format (IODEF) defines a
   common XML format for document exchange, and Real-time Inter-network
   Defense (RID) defines extensions to IODEF intended for the
   cooperative handling of security incidents within consortia of
   network operators and enterprises.  This document specifies an
   application-layer protocol for RID based upon the passing of RID
   messages over HTTP/TLS.

Status of This Memo

   This is an Internet Standards Track document.

   This document is a product of the Internet Engineering Task Force
   (IETF).  It represents the consensus of the IETF community.  It has
   received public review and has been approved for publication by the
   Internet Engineering Steering Group (IESG).  Further information on
   Internet Standards is available in Section 2 of RFC 5741.

   Information about the current status of this document, any errata,
   and how to provide feedback on it may be obtained at

Copyright Notice

   Copyright (c) 2012 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents
   ( in effect on the date of
   publication of this document.  Please review these documents
   carefully, as they describe your rights and restrictions with respect
   to this document.  Code Components extracted from this document must
   include Simplified BSD License text as described in Section 4.e of
   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.

1.  Introduction

   The Incident Object Description Exchange Format (IODEF) [RFC5070]
   describes an XML document format for the purpose of exchanging data
   between Computer Security Incident Response Teams (CSIRTs) or those
   responsible for security incident handling for service providers
   (SPs).  The defined document format provides a simple way for CSIRTs
   to exchange data in a way which can be easily parsed.

   IODEF defines a message format, not a protocol, as the sharing of
   messages is assumed to be out of scope in order to allow CSIRTs to
   exchange and store messages in a way most suited to their established
   incident-handling processes.  However, Real-time Inter-network
   Defense (RID) [RFC6545] does require a specification of a protocol to
   ensure interoperability among members in a RID consortium.  This
   document specifies the transport of RID messages within HTTP
   [RFC2616] Request and Response messages over TLS [RFC5246] (herein,
   HTTP/TLS).  Note that any IODEF message may also be transported using
   this mechanism, by sending it as a RID Report message.

1.1.  Changes from RFC 6046

   This document contains the following changes with respect to its
   predecessor [RFC6046]:

   o  The status of the document is Standards Track.

   o  The document is updated to refer to the updated RID specification,
      [RFC6545], where appropriate.

   o  Language regarding the use of HTTP/1.1 and TCP ports for RID
      transport is clarified.

   o  The RID-Callback-Token entity header field is added to allow
      matching of RID replies during callback, independent of the
      content of the underlying RID message.

   o  The minimum required version of TLS is upgraded to 1.1, and the
      minimum recommended version to 1.2.

   o  Language regarding PKI for RID over HTTPS is clarified, and
      updated to refer to [RFC6125].

   This document obsoletes [RFC6046] and moves it to Historic status.

2.  Terminology and Normative Sections

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   document are to be interpreted as described in [RFC2119].

   RID systems participating in a consortium are required to fully
   implement the protocol in Section 3 in order to interoperate within
   the consortium; the remainder of this document is informative and
   provides helpful background or explanatory information.

3.  Transmission of RID Messages over HTTP/TLS

EID 3267 (Verified) is as follows:

Section: 3

Original Text:

In paragraph 4 of section 3, fourth sentence:

   As RID messages MUST be
   sent using the POST method, the GET and HEAD methods have no
   particular meaning on a RID system; a RID system SHOULD answer
   'GET /' or 'HEAD /' with 204 No Content.

Corrected Text:

Consistent with RFC 2616 section 10.4.6, a RID system MUST answer 
any HTTP request to Request-URI of '/' which uses an HTTP method 
other than 'POST' by producing an HTTP response with a status code 
of 405 Method Not Allowed.  The RID system HTTP response MUST also 
include an Allow header indicating that only the 'POST' method is 
There has been a brief discussion of this errata on the MILE list, with the first message in the thread having been posted on June 5, 2012.

The corrected text that I have suggested above has been written as narrowly as possible, and remains consistent with the original functionality described in 6546.

Lacking support for 'GET' means that there is no way to verify if a RID endpoint is active, other than by doing a real request, i.e. a Report, or Query, etc. Thus, one might also consider supporting HEAD, e.g. for RID testing purposes, though that option has not been discussed yet. Note, however, that supporting HEAD potentially raises further issues since according to RFC 2616 the response headers to a HEAD request SHOULD be consistent with a GET, which is specifically not supported.
This section specifies the details of the transport of RID messages [RFC6545] over HTTP/TLS. In this arrangement, each RID server is both an HTTP/TLS server and an HTTP/TLS client. When a RID message is sent, the sending RID system connects to the receiving RID system and sends the message, optionally receiving a message in reply. Each RID system MUST be prepared to accept HTTP/TLS connections from any RID peer with which it communicates, in order to support callback for delayed replies (see below). BCP 56 [RFC3205] contains a number of important considerations when using HTTP for application protocols. These include the size of the payload for the application, whether the application will use a web browser, whether the protocol should be defined on a port other than 80, and if the security provided through HTTP/TLS suits the needs of the new application. It is acknowledged within the scope of these concerns that HTTP/TLS is not ideally suited for RID transport, as the former is a client- server protocol and the latter a message-exchange protocol; however, the ease of implementation of RID systems over HTTP/TLS outweighs these concerns. Consistent with BCP 56, RID systems listen for TCP connections on port 4590 (see Section 5). Every RID system participating in a consortium SHOULD listen for HTTP/TLS connections on the assigned port. RID systems MAY be configurable to listen on ports other than the well-known port; this configuration is out of scope for this specification. RID systems SHOULD NOT use TCP port 443 (the standard port for HTTP over TLS) for RID messages in order to avoid confusing standard HTTP/TLS servers for RID systems. RID systems MUST implement all REQUIRED functionality for HTTP/1.1 [RFC2616]. All RID messages sent in HTTP Requests MUST be sent using the POST method with a Request-URI of '/'. As RID documents are XML, the RID media type is 'text/xml'; i.e., the 'Content-type' Request and Response headers MUST be 'text/xml'. As RID messages MUST be sent using the POST method, the GET and HEAD methods have no particular meaning on a RID system; a RID system SHOULD answer 'GET /' or 'HEAD /' with 204 No Content. Other Request-URIs are reserved for future use; any access to Request-URIs other than '/' by any method on a RID system SHOULD return the appropriate HTTP error (404 Not Found). Since the content of RID messages is essentially declarative, a RID system interrupted during transport MAY simply repeat the transaction; the sending of a RID message is idempotent. As the queries and replies in a RID message exchange may be significantly separated in time, RID over HTTP/TLS supports a callback mechanism. In this mechanism, the receiving RID system MAY return a 202 Accepted response, called a RID callback, instead of a RID message. The RID callback MUST contain a zero-length entity body and a 'RID-Callback-Token' entity header field, itself containing a unique token generated by the receiving RID system. The RID-Callback-Token is an opaque, whitespace-free string of up to 255 printable ASCII characters that MUST uniquely identify the callback among all callbacks from the receiving RID system to the sending RID system. Due to the amount of time that may be required to generate a RID Result or Report response, there is no upper bound on the time period for this uniqueness requirement. The RID- Callback-Token in ABNF [RFC5234] form is shown below: callback-token = 1*255(VCHAR) When performing RID callback, a responding system MUST connect to the host at the network-layer address from which the original request was sent; there is no mechanism in RID for redirected callback. This callback SHOULD use TCP port 4590 unless configured to use a different port. While a RID system SHOULD return the reply in an HTTP Response if it is available immediately or within a generally accepted HTTP client timeout (about thirty seconds), this is not mandatory, and as such RID systems MUST be prepared for a query to be met with a 202 Accepted, an empty Response body, a connection termination, and a callback. Note that all RID messages require a response from the receiving RID system, so a sending RID system can expect either an immediate response or a callback. Table 1 lists the allowable RID message types in an HTTP Response for a given RID message type in the Request. A RID system MUST be prepared to handle an HTTP Response of the given type(s) when sending the corresponding HTTP Request. A RID system MUST NOT send an HTTP Response containing any RID message other than the one corresponding to the one sent in the HTTP Request. +----------------------+----------+--------+-------------------+ | Request RID type | Callback | Result | Response RID type | +----------------------+----------+--------+-------------------+ | InvestigationRequest | | 200 | Acknowledgement | | InvestigationRequest | | 200 | Result | | InvestigationRequest | | 200 | Report | | InvestigationRequest | | 202 | [empty] | | TraceRequest | | 200 | Acknowledgement | | TraceRequest | | 200 | Result | | TraceRequest | | 200 | Report | | TraceRequest | | 202 | [empty] | | Query | | 200 | Acknowledgement | | Query | | 200 | Report | | Query | | 202 | [empty] | | Acknowledgement | X | 200 | [empty] | | Result | X | 200 | [empty] | | Report | | 200 | Acknowledgement | | Report | | 200 | [empty] | | Report | X | 200 | [empty] | +----------------------+----------+--------+-------------------+ Table 1 The use of stable DNS names to address RID systems is RECOMMENDED; in addition to facilitating connection to RID systems within a consortium, these are to be used as reference identifiers for a RID system's peers. For security purposes, RID systems SHOULD NOT return 3xx Redirection response codes, and SHOULD NOT follow any 3xx Redirection. The protocol provides no in-band method for handling a change of address of a RID system. If a RID system receives an improper HTTP Request, it MUST return an appropriate 4xx Client Error result code to the requesting RID system. If a RID system cannot process a RID message
EID 3455 (Verified) is as follows:

Section: 3

Original Text:

If a RID system receives an improper RID message in an HTTP Request,
it MUST return an appropriate 4xx Client Error result code to the 
requesting RID system.

Corrected Text:

If a RID system receives an improper HTTP Request, it MUST return 
an appropriate 4xx Client Error result code to the requesting RID 
There has been some discussion of this issue on the MILE mailing list. Another possible option for the corrected text is to say nothing at all. That is, by changing the specification to focus on an improper HTTP request, rather than an improper RID message, the corrected text is simply a restatement of existing HTTP behavior. (Either way, this still does constitute a technical change since we would no longer be requiring the 400 status code when the error is with the *RID* content). On this technical point, we had consensus on the MILE mailing list: we SHOULD NOT require an HTTP 4xx status code when there is an error with the RID content itself (as opposed to the HTTP layer). HTTP 4xx status is reserved for errors occurring in the HTTP protocol layer. Errors in the RID content will be reported via the RID Acknowledgement message type, with appropriate choices for the RequestStatus element, and Justification attribute.
received in an HTTP Request due to an error on its own side, it MUST return an appropriate 5xx Server Error result code to the requesting RID system. Note that HTTP provides no mechanism for signaling to a server that a response body is not a valid RID message. If a RID system receives an improper RID message in an HTTP Response, or cannot process a RID message received in an HTTP Response due to an error on its own side, it MUST log the error and present it to the RID system administrator for handling; the error logging format is an implementation detail and is considered out of scope for this specification. RID systems MUST support and SHOULD use HTTP/1.1 persistent connections as described in [RFC2616]. RID systems MUST support chunked transfer encoding on the HTTP server side to allow the implementation of clients that do not need to pre-calculate message sizes before constructing HTTP headers. RID systems MUST use TLS version 1.1 [RFC4346] or higher for confidentiality, identification, and authentication, when sending RID messages over HTTPS. HTTPS is specified in Section 2 of [RFC2818]. RID systems MUST use mutual authentication; that is, both RID systems acting as HTTPS clients and RID systems acting as HTTPS servers MUST be identified by an X.509 certificate [RFC5280]. Mutual authentication requires full path validation on each certificate, as defined in [RFC5280]. The TLS session MUST use non-NULL ciphersuites for authentication, integrity, and confidentiality. Sessions MAY be renegotiated within these constraints. All RID systems SHOULD be identified by a certificate containing DNS-ID identifier as in Section 6.4 of [RFC6125]; the inclusion of Common Names (CN-IDs) in certificates identifying RID systems is NOT RECOMMENDED. RID systems MUST verify the reference identifiers of their peers against those stored in the certificates presented using one of the methods in the following paragraph. Wildcards MUST NOT appear in the DNS-ID or CN-ID of a certificate identifying a RID system. RID systems MUST support the verification of certificates against an explicit whitelist of peer certificates. RID systems SHOULD support the verification of reference identifiers by matching the DNS-ID or CN-ID with a reverse DNS lookup of the connecting RID peer; this support SHOULD allow the lookup to be cached and/or done in advance in order to ensure verifiability during instability or compromise of DNS itself. Additional general information on the use of PKI with RID systems is detailed in Section 9.3 of [RFC6545]. RID systems MUST support TLS version 1.1 and SHOULD support TLS version 1.2 [RFC5246]; RID systems MUST NOT request, offer, or use any version of SSL, or any version of TLS prior to 1.1, due to known security vulnerabilities in prior versions of the protocol; see Appendix E of [RFC5246] for more information. 4. Security Considerations In addition to the final paragraphs in Section 3 on the use of TLS to secure RID message transport, all security considerations of related documents apply, especially the Incident Object Description Exchange Format (IODEF) [RFC5070] and Real-time Inter-network Defense (RID) [RFC6545]. The protocol described herein is built on the foundation of those documents; the security considerations contained therein are incorporated by reference. 5. IANA Considerations Consistent with BCP 56 [RFC3205], since RID over HTTP/TLS is a substantially new service, and should be controlled at the consortium member network's border differently than HTTP/TLS, it requires a new port number. IANA has assigned port 4590/tcp to RID with service name "RID over HTTP/TLS". 6. Acknowledgements The author would like to thank David Black for the review, and Kathleen Moriarty for work on earlier revisions of this specification. This work was partially supported by the European Union Seventh Framework Program under grant agreement 257315 (DEMONS). 7. References 7.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H., Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999. [RFC2818] Rescorla, E., "HTTP Over TLS", RFC 2818, May 2000. [RFC5070] Danyliw, R., Meijer, J., and Y. Demchenko, "The Incident Object Description Exchange Format", RFC 5070, December 2007. [RFC5246] Dierks, T. and E. Rescorla, "The Transport Layer Security (TLS) Protocol Version 1.2", RFC 5246, August 2008. [RFC5280] Cooper, D., Santesson, S., Farrell, S., Boeyen, S., Housley, R., and W. Polk, "Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile", RFC 5280, May 2008. [RFC6125] Saint-Andre, P. and J. Hodges, "Representation and Verification of Domain-Based Application Service Identity within Internet Public Key Infrastructure Using X.509 (PKIX) Certificates in the Context of Transport Layer Security (TLS)", RFC 6125, March 2011. [RFC6545] Moriarty, K., "Real-time Inter-network Defense (RID)", RFC 6545, April 2012. 7.2. Informative References [RFC3205] Moore, K., "On the use of HTTP as a Substrate", BCP 56, RFC 3205, February 2002. [RFC4346] Dierks, T. and E. Rescorla, "The Transport Layer Security (TLS) Protocol Version 1.1", RFC 4346, April 2006. [RFC5234] Crocker, D. and P. Overell, "Augmented BNF for Syntax Specifications: ABNF", STD 68, RFC 5234, January 2008. [RFC6046] Moriarty, K. and B. Trammell, "Transport of Real-time Inter-network Defense (RID) Messages", RFC 6046, November 2010. Author's Address Brian Trammell Swiss Federal Institute of Technology Zurich Gloriastrasse 35 8092 Zurich Switzerland Phone: +41 44 632 70 13 EMail: