One document matched: draft-cheshire-pcp-unsupp-family-02.txt
Differences from draft-cheshire-pcp-unsupp-family-01.txt
PCP working group S. Cheshire
Internet-Draft Apple
Updates: 6887 (if approved) June 11, 2013
Intended status: Standards Track
Expires: December 13, 2013
PCP Unsupported Family Error
draft-cheshire-pcp-unsupp-family-02
Abstract
The Port Control Protocol allows clients to request mappings in NAT
gateways and firewalls. The PCP UNSUPP_FAMILY error code enables PCP
servers to inform clients when the requested external address family
is not supported.
Status of this Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
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This Internet-Draft will expire on December 13, 2013.
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1. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
"Key words for use in RFCs to Indicate Requirement Levels" [RFC2119].
2. Introduction
The Port Control Protocol [RFC6887] allows clients to request
mappings in NAT gateways and firewalls. A client can request a
mapping to an external IPv6 address or to an external IPv4 address.
The client signifies which family of external address it desires by
the type of address it puts into the Suggested External Address
field.
If the client wants an external IPv6 address, then it populates the
Suggested External Address field with a native IPv6 address. In the
overwhelmingly common case where the client doesn't know the external
address when it makes its initial request, this will be the all-zeros
IPv6 address (::).
If the client wants an external IPv4 address, then it populates the
Suggested External Address field with an IPv4-mapped IPv6 address
(the first 80 bits set to zero, the next 16 set to one). In the
overwhelmingly common case where the client doesn't know the NAT's
external address when it makes its initial request, this will be the
all-zeros IPv4 address (::ffff:0:0).
Note that while the specific address placed in the Suggested External
Address field is merely a suggestion that the PCP server is free to
ignore, the address family is not. If the suggested address cannot
be provided, another address of the same family SHOULD be provided if
possible, but if the suggested address *family* cannot be provided by
this PCP server, it MUST return a PCP error reply containing the
UNSUPP_FAMILY error code.
Many gateway devices, particularly early ones, may not be able to
provide both external address families. For example, an IPv4-only
NAT cannot provide an external IPv6 address.
Even with gateway devices that can support both external address
families, the ability to provide the an external address of the
requested family may depend on the family of the client's internal
address. For example, a gateway that supports native IPv6, and
traditional NAT44, but not NAT64, can provide mappings from an
internal IPv6 address to an external IPv6 address (typically the same
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address when no address translation is being performed), and can
provide mappings from an internal IPv4 address to an external IPv4
address, but not mappings from an internal IPv6 address to an
external IPv4 address. When such a gateway receives a request to map
an internal IPv6 address to an external IPv4 address it MUST return
the UNSUPP_FAMILY error code.
Note that it is possible and valid for a given internal address and
port to have two mappings simultaneously, one to an external IPv4
address and one to an external IPv6 address. The handling of
outbound packets is determined by the outbound destination address;
for example, an outbound IPv6 packet addressed to an IPv6 address in
the NAT64 gateway's IPv6 address pool is translated to the
corresponding IPv4 packet before forwarding; an outbound IPv6 packet
addressed to some other routable IPv6 address is forwarded
unmodified.
A client that can handle both IPv6 and IPv4 external addresses MAY
send two requests, and then determine its behaviour based on the
responses it receives. For example, if the client requests and
receives an IPv6 external address, it may create a DNS AAAA record
giving that IPv6 address. If the client requests and receives an
IPv4 external address, it may create a DNS address record giving that
IPv4 address. If the client requests and receives both families of
external address, it may create both DNS records. Or, if one
external address is sufficient for the client, then it MAY first
request its preferred address family, and only if that fails with an
UNSUPP_FAMILY error, request the other family.
3. Implications for RFC 6887
Various sections of the PCP specification [RFC6887] describe clients
and servers identifying a mapping by examining the three-tuple of
{ internal port, protocol, internal address } in a request or reply.
For example:
If the internal port, protocol, and internal address match an
existing static mapping (which will have no nonce), then a PCP
reply is sent giving the external address and port of that static
mapping, using the nonce from the PCP request. The server does
not record the nonce.
It is possible that a mapping might already exist for a requested
internal address, protocol, and port. If so, the PCP server takes
the following actions...
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If no mapping exists for the internal address, protocol, and port,
and the PCP server is able to create a mapping using the suggested
external address and port, it SHOULD do so.
After performing common PCP response processing, the response is
further matched with a previously sent MAP request by comparing
the internal IP address (the destination IP address of the PCP
response, or other IP address specified via the THIRD_PARTY
option), the protocol, the internal port, and the mapping nonce.
Other fields are not compared, because the PCP server sets those
fields.
Everywhere that RFC 6887 refers to using the "internal port,
protocol, and internal address" to identify a particular mapping, it
should be read to mean the four-tuple of
{ int port, protocol, internal address, external address family }.
PCP clients and servers that only support one external address family
can continue to use the previous three-tuple
{ internal port, protocol, internal address } to identify a mapping,
since they only support one external address family, and unilaterally
reject requests and responses containing the unsupported family. For
PCP servers this means rejecting requests containing the unsupported
address family via the UNSUPP_FAMILY error code. For PCP clients
this should be a non-issue because a PCP client should never receive
a reply containing an external address family it didn't request, but
should a client receive such a reply from a misbehaving PCP server
offering an external address family the client did not request, the
client MUST silently ignore the erroneous reply.
An implication of this is that when renewing a mapping, a PCP client
MUST include a suggested external address of the correct family, so
that the gateway device can identify which mapping is being renewed.
Ideally a PCP client SHOULD record the previously-granted external
address and use that as the suggested external address in its renewal
request, to facilitate recovery in the event of gateway state loss,
but at the very least a PCP client MUST provide an all-zeroes
suggested external address of the correct family (just as it must
have indicated the desired address family in its initial request that
created the mapping).
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4. IANA Considerations
IANA should allocate the following PCP Result Code:
14 UNSUPP_FAMILY: Unsupported external address family, e.g., IPv6 in
a NAT that handles only IPv4. This is a long lifetime error.
5. Security Considerations
This new error code leaks no sensitive information and creates no new
security vulnerabilities.
6. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC6887] Wing, D., Cheshire, S., Boucadair, M., Penno, R., and P.
Selkirk, "Port Control Protocol (PCP)", RFC 6887,
April 2013.
Author's Address
Stuart Cheshire
Apple Inc.
1 Infinite Loop
Cupertino, California 95014
USA
Phone: +1 408 974 3207
Email: cheshire@apple.com
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