One document matched: draft-vandergaast-edns-client-ip-01.xml
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE rfc SYSTEM "rfc2629.dtd" [
<!ENTITY rfc2119 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.2119.xml'>
<!ENTITY rfc4035 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.4035.xml'>
<!ENTITY rfc4034 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.4034.xml'>
<!ENTITY rfc4033 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.4033.xml'>
<!ENTITY rfc4193 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.4193.xml'>
<!ENTITY rfc2671 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.2671.xml'>
<!ENTITY rfc1918 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.1918.xml'>
<!ENTITY rfc1034 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.1034.xml'>
<!ENTITY rfc1035 PUBLIC ''
'http://xml.resource.org/public/rfc/bibxml/reference.RFC.1035.xml'>
]>
<rfc category="exp" ipr="trust200902" docName="draft-vandergaast-edns-client-ip-01">
<?xml-stylesheet type='text/xsl' href='rfc2629.xslt' ?>
<?rfc toc="yes" ?>
<?rfc symrefs="yes" ?>
<?rfc sortrefs="yes"?>
<?rfc iprnotified="no" ?>
<?rfc strict="yes" ?>
<front>
<title>Client IP information in DNS requests</title>
<author initials='C.' surname="Contavalli" fullname='Carlo Contavalli'>
<organization>Google</organization>
<address>
<postal>
<street>Gordon House, Barrow Street</street>
<city>Dublin</city>
<code>4</code>
<country>IE</country>
</postal>
<email>ccontavalli@google.com</email>
</address>
</author>
<author initials='W.W.' surname="van der Gaast"
fullname='Wilmer van der Gaast'>
<organization>Google</organization>
<address>
<postal>
<street>Gordon House, Barrow Street</street>
<city>Dublin</city>
<code>4</code>
<country>IE</country>
</postal>
<email>wilmer@google.com</email>
</address>
</author>
<author initials='S.' surname="Leach"
fullname='Sean Leach'>
<organization>Name.com</organization>
<address>
<postal>
<street>125 Rampart Way, Suite 300</street>
<city>Denver, CO</city>
<code>80230</code>
<country>CO</country>
</postal>
<email>sleach@name.com</email>
</address>
</author>
<author initials='D.' surname="Rodden"
fullname='Darryl Rodden'>
<organization>Neustar</organization>
<address>
<postal>
<street>46000 Center Oak Plaza</street>
<city>Sterling, VA</city>
<code>20166</code>
<country>VA</country>
</postal>
<email>darryl.rodden@neustar.com</email>
</address>
</author>
<date month="May" year="2010" />
<area>int</area>
<workgroup>dnsext</workgroup>
<abstract><t>This draft defines an EDNS0 extension to carry
relevant network range information. In a query, it conveys the
network address of the originator. In a response, it conveys the
scope of network addresses that the answer is intended.</t></abstract>
</front>
<middle>
<section title="Introduction">
<t>Many Authoritative nameservers today return different replies
based on the perceived topological location of the user. These
servers use the IP address of the incoming query to identify that
location. Since most queries come from intermediate recursive
resolvers, the source address is that of the recursive rather
than of the query originator.</t>
<t>Traditionally and probably still in the majority of instances,
recursive resolvers are reasonably close in the topological sense
to the stub resolvers or forwarders that are the source of
queries. For these resolvers, using their own IP address is
sufficient for authority servers that tailor responses based upon
location of the querier.</t>
<t>Increasingly though a class of remote recursive servers has arisen
that serves query sources without regard to topology. The motivation
for a query source to use a remote recursive server varies but is
usually because of some enhanced experience, such as greater cache
security or applying policies regarding where users may connect.
(Although political censorship usually comes to mind here, the same
actions may be used by a parent when setting controls on where a minor
may connect.) When using a remote recursive server, there can no
longer be any assumption of close proximity between the originator and
the recursive, leading to less than optimal replies from the authority
servers.</t>
<t>A similar situation exists within some ISPs where the
recursive servers are topologically distant from some edges of the ISP
network, resulting in less than optimal replies from the authority
servers.</t>
<t>This draft defines an EDNS0 option to convey network
information that is relevant to the message but not otherwise included
in the datagram. This will provide the mechanism to carry sufficient
network information about the originator for the authority server to
tailor responses. It also provides for the authority server to
indicate the scope of network addresses that the tailored answer is
intended. This EDNS0 option is intended for those recursive and
authority servers that would benefit from the extension and not for
general purpose deployment. It is completely optional and can safely
be ignored by servers that choose not to implement it or enable it.</t>
<t>
This draft also includes guidelines on how to best cache those
results and provides recommendations on when this protocol
extension should be used.
</t>
<section title="Requirements notation">
<t>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 <xref target="RFC2119"/>.</t>
</section>
</section>
<section title="Terminology">
<t><list style="hanging">
<t hangText="Stub Resolver:">
A simple DNS protocol implementation on the client side
as described in <xref target="RFC1034"/> section 5.3.1.</t>
<t hangText="Authoritative Nameserver:">
A nameserver that has authority over one or more DNS zones.
These are normally not contacted by clients directly but by
Recursive Resolvers. Described in <xref target="RFC1035"/>
chapter 6.</t>
<t hangText="Recursive Resolver:">
A nameserver that is responsible for resolving domain names
for clients by following the domain's delegation chain,
starting at the root. Recursive Resolvers frequently use
caches to be able to respond to client queries quickly.
Described in <xref target="RFC1035"/> chapter 7.</t>
<t hangText="Intermediate Nameserver:">
Any nameserver (possibly a Recursive Resolver) in between
the Stub Resolver and the Authoritative Nameserver.</t>
<t hangText="Third-party Nameserver:">
Recursive Resolvers provided by parties that are not
Internet Service Providers (ISPs). These services are often
offered as substitutes for ISP-run nameservers.</t>
<t hangText="Optimized reply:">
A reply from a nameserver that is optimized for the node
that sent the request, normally based on performance (i.e.
lowest latency, least number of hops, topological
distance, ...).
</t>
<t hangText="Topologically close:">
Refers to two hosts being close in terms of number of hops
or time it takes for a packet to travel from one host to the other.
The concept of topological distance is only loosely related to the
concept of geographical distance: two geographically close hosts can
still be very distant from a topological perspective.
</t>
</list></t>
</section>
<section title="Option format" anchor="format">
<t>This draft uses an EDNS0 (<xref target="RFC2671"/>) option to
include client IP information in DNS messages. The option
is structured as follows:</t>
<figure><artwork align="left"><![CDATA[
+0 (MSB) +1 (LSB)
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
0: | OPTION-CODE |
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
2: | OPTION-LENGTH |
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
4: | FAMILY |
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
6: | SOURCE NETMASK | SCOPE NETMASK |
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
7: | ADDRESS... /
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
]]></artwork></figure>
<t><list style="symbols">
<t>(Defined in <xref target="RFC2671"/>) OPTION-CODE, 2
octets, for edns-client-subnet is TBD.</t>
<t>(Defined in <xref target="RFC2671"/>) OPTION-LENGTH,
2 octets, contains the length of the payload (everything after
OPTION-LENGTH) in bytes.</t>
<t>FAMILY, 2 octets, indicates the family of the address
contained in the option, using address family codes as
assigned by IANA in
<eref target="http://www.iana.org/assignments/address-family-numbers/">
IANA-AFI</eref>.</t>
</list>
The format of the address part depends on the value of FAMILY. This document
only defines the format for FAMILY 1 (IP version 4) and 2
(IP version 6), which are as follows:
<list style="symbols">
<t>SOURCE NETMASK, 1 octet, in requests, indicates how
many most-significant bits of the SOURCE ADDRESS are included
(i.e. a netmask in CIDR notation). In replies, it echoes back
the value from the query.</t>
<t>SCOPE NETMASK, 1 octet, in requests, it MUST be set to 0.
In replies, it indicates for which supernets of ADDRESS the
reply can be cached, or which netmask would be necessary
in requests to make a better choice, see next few sections.</t>
<t>ADDRESS, variable number of octets, contains either an IPv4
or IPv6 address (depending on FAMILY), truncated to the
number of bits indicated by the SOURCE NETMASK field, with
bits set to 0 to pad up to the end of the last octet used.</t>
</list>
All fields are in network byte order.
</t>
</section>
<section title="Protocol description">
<t>
The edns-client-subnet extension allows DNS servers to propagate the
network address of the client that initiated the resolution through
to Authoritative Nameservers during recursion.
</t>
<t>
Servers that receive queries containing an edns-client-subnet option
can generate answers based on the original network address of the
client. Those answers will generally be optimized for that
client and other clients in the same network.
</t>
<t>
The option also allows Authoritative Nameservers to specify the
network range for which the reply can be cached and re-used.
</t>
<section title="Originating the option">
<t>
The edns-client-subnet option can be added by Intermediate
Nameservers or Stub Resolvers. If an Intermediate Nameserver
receives a query from a routable (i.e. not private IP space
as described in <xref target="RFC1918"/>) IP address and
it doesn't yet have the option, it MAY add an edns-client-subnet
option populated with the source IP address of the query.
</t>
<t>
Alternatively, a Stub Resolver MAY generate DNS queries with
an edns-client-subnet option, for example if it has better knowledge
of where the connection following the DNS lookup is going to
enter the public network, or to request anonymization by
including an edns-client-subnet option with the address 0.0.0.0/0.
</t>
<t>
If an Intermediate Nameserver supporting edns-client-subnet receives
a query that already has a valid edns-client-subnet option, this
option MUST be passed through as-is and MUST NOT be modified.
</t>
<t>
For privacy reasons, and because the whole IP address is
rarely required to determine an optimized reply, the ADDRESS
field in the option SHOULD be truncated to a certain number of
bits, chosen by the administrators of the server, as described
in <xref target="security" />.
</t>
<t>Intermediate Nameservers that have not implemented or enabled
support for the edns-client-subnet can safely ignore the option within
incoming queries. Such a server MUST NOT include an
edns-client-subnet option within replies to indicate lack of
support for the option.
</t>
<t>
A Recursive Resolver MAY be configured to not include (or drop
an existing) edns-client-subnet option completely when querying
Authoritative Nameservers from which a delegation response is
expected, for example TLD servers or root servers.
</t>
</section>
<section title="Generating a response">
<t>
When a query containing an edns-client-subnet option is received,
an Authoritative Nameserver supporting edns-client-subnet MAY use
the address information specified in the option in order to
generate an optimized reply.
</t>
<t>Authoritative servers that have not implemented or enabled
support for the edns-client-subnet may safely ignore the option
within incoming queries. Such a server MUST NOT include an
edns-client-subnet option within replies to indicate lack of support
for the option.</t>
<t>
Requests with an edns-client-subnet option considered invalid
(i.e. wrong formatting, unsupported address family, private
address space) MUST be treated as if no edns-client-subnet option
was specified.
</t>
<t>
If the Authoritative Nameserver decides to use information
from the edns-client-subnet option to calculate a response, it
MUST include the option in the response to indicate that the
information was used (and has to be cached accordingly).
If the option was not included in a query, it MUST NOT be
included in the response.
</t>
<t>
The FAMILY, ADDRESS and SOURCE NETMASK in the response MUST
match those in the request. Echoing back the address and netmask
helps to mitigate certain attack vectors, as described in
<xref target="security" />.</t>
<t>The SCOPE NETMASK in the reply indicates the network range that
the answer is intended for.</t>
<t>A SCOPE NETMASK value larger than the SOURCE NETMASK indicates
that the address range provided in the query was not specific
enough to select a single, best response, and that an optimal
reply would require at least SCOPE NETMASK bits of address
information.</t>
<t>
Conversely, a lower SCOPE NETMASK indicates that more bits than
necessary were provided.
</t>
<t>
In both cases, the value of the SCOPE NETMASK in the reply has
strong implications with regard to how the reply will be cached by
Intermediate Nameservers, as described in <xref target="caching" />.
</t>
<t>
If the edns-client-subnet option in the request is not used at all
(for example if an optimized reply was temporarily unavailable
or not supported for the requested domain name), a server
supporting edns-client-subnet MUST indicate that no bits of the
ADDRESS in the request have been used by specifying a SCOPE
NETMASK of 0 (equivalent to the networks 0.0.0.0/0 or ::/0).
</t>
<t>
If no optimized answer could be found at all for the ADDRESS and
SOURCE NETMASK indicated in the query, the Authoritative
Nameserver SHOULD still return the best result it knows of
(i.e. by using the query source IP address instead, or a sensible
default), and indicate that this result should only be cached for
the FAMILY, ADDRESS and SOURCE NETMASK indicated in the request.
The server will indicate this by copying the SOURCE NETMASK into
the SCOPE NETMASK field.
</t>
</section>
<section anchor="caching"
title="Handling edns-client-subnet replies and caching">
<t>
When an Intermediate Nameserver receives a reply containing an
edns-client-subnet option, it will return a reply to its client
and may cache the result.
</t>
<t>
If the FAMILY, ADDRESS and SOURCE NETMASK fields in the reply
don't match the fields in the corresponding request, the full
reply MUST be dropped, as described in <xref target="security" />.
</t>
<t>
In the cache, any resource record in the answer section will be
tied to the network specified by the FAMILY, ADDRESS and SCOPE
NETMASK fields, as detailed below.
</t>
<t>
If another query is received matching the entry in the cache,
the resolver will verify that the FAMILY and ADDRESS that
represent the client match any of the networks in the cache
for that entry.
</t>
<t>
If the address of the client is within any of the networks in
the cache, then the cached response MUST be returned as usual.
In case the address of the client matches multiple networks in
the cache, the entry with the highest SCOPE NETMASK value MUST
be returned, as with most route-matching algorithms.
</t>
<t>
If the address of the client does not match any network in
the cache, then the Recursive Resolver MUST behave as if no
match was found and perform resolution as usual.
This is necessary to avoid sub-optimal replies in the
cache from being returned to the wrong clients, and to
avoid a single request coming from a client on a different
network from polluting the cache with a sub-optimal reply
for all the users of that resolver.
</t>
<t>
Note that every time a Recursive Resolver queries an
Authoritative Nameserver by forwarding the edns-client-subnet option
that it received from another client, a low SOURCE NETMASK in the
original request could cause a sub-optimal reply to be returned
by the Authoritative Nameserver.
</t>
<t>
To avoid this sub-optimal reply from being served from cache
for clients for which a better reply would be available,
the Recursive Resolver MUST check the SCOPE NETMASK that was
returned by the Authoritative Nameserver:
<list style="symbols">
<t>If the SCOPE NETMASK in the reply is higher than the
SOURCE NETMASK, it means that the reply might be sub-optimal.
A Recursive Resolver MUST return this entry from cache only
to queries that do not contain or allow a higher
SOURCE NETMASK to be forwarded.</t>
<t>If the SCOPE NETMASK in the reply is lower or equal to the
SOURCE NETMASK, the reply is optimal, and SHOULD
be returned from cache to any client within the network
range indicated by ADDRESS and SCOPE NETMASK.</t>
</list>
</t>
<t>
When another request is performed, the existing entries SHOULD
be kept in the cache until their TTL expires, as per standard
behavior.
</t>
<t>
As another reply is received, the reply will be tied to a
different network. The server MAY keep in cache both replies,
and return the most appropriate one depending on the address
of the client.
</t>
<t>
Any reply containing an edns-client-subnet option considered invalid
should be treated as if no edns-client-subnet option was specified at
all.
</t>
<t>
Replies coming from servers not supporting edns-client-subnet or
otherwise not containing an edns-client-subnet option SHOULD be
considered as containing a SCOPE NETMASK of 0 (e.g., cache the
result for 0.0.0.0/0 or ::/0) for all the supported families.
</t>
<t>
In any case, the response from the resolver to the client
MUST NOT contain
the edns-client-subnet option if none was present in the client's
original request. If the original client request contained a
valid edns-client-subnet option that was used during recursion,
the Recursive Resolver MUST include the edns-client-subnet option
from the Authoritative Nameserver response in the response
to the client.
</t>
<t>
Enabling support for edns-client-subnet in a recursive resolver will
significantly increase the size of the cache, reduce the number of
results that can be served from cache, and increase the load on
the server. Implementing the mitigation techniques described in
<xref target="security" /> is strongly recommended.
</t>
</section>
</section>
<section title="IANA Considerations">
<t>We request IANA to assign an option code for edns-client-subnet, as
specified in <xref target="RFC2671"/>. Within this document, the
text 'TBD' should be replaced with the option code assigned by
IANA.</t>
</section>
<section title="DNSSEC Considerations">
<t>
The presence or absence of an OPT resource record containing an
edns-client-subnet option in a DNS query does not change the usage
of those resource records and mechanisms used to provide
data origin authentication and data integrity to the DNS,
as described in <xref target="RFC4033" />, <xref target="RFC4034" />
and <xref target="RFC4035" />.
</t>
</section>
<section title="NAT Considerations">
<t>Special awareness of edns-client-subnet in devices that perform NAT
as described in <xref target="RFC2663"/> is not required, queries
can be passed through as-is. The client's network address MUST NOT be
added, and existing edns-client-subnet options, if present, MUST NOT
be modified by NAT devices.</t>
<t>Recursive Resolvers sited behind NAT devices MUST NOT add their
external network address in an edns-client-subnet options, and MUST behave
exactly as described in the previous sections.</t>
<t>Note that Authoritative Nameservers or Recursive Resolvers can
still provide an optimized reply by looking at the source IP of the
query.</t>
</section>
<section anchor="security" title="Security Considerations">
<section title="Privacy">
<t>With the edns-client-subnet option, the network address of the
client that initiated the resolution becomes visible to all
servers involved in the resolution process. Additionally, it
will be visible from any network traversed by the DNS
packets.</t>
<t>To protect users' privacy, Recursive Resolvers are strongly
encouraged to conceal part of the IP address of the user by
truncating IPv4 addresses to 24 bits. No recommendation is
provided for IPv6 at this time, but IPv6 addresses should be
similarly truncated in order to not allow to uniquely identify
the client.</t>
<t>Users who wish their full IP address to be hidden can include
an edns-client-subnet option specifying the wildcard address
0.0.0.0/0 (i.e. FAMILY set to 1 (IPv4), SOURCE NETMASK to 0 and no
ADDRESS). As described in previous sections, this option will
be forwarded across all the Recursive Resolvers supporting
edns-client-subnet, which MUST NOT modify it to include the network
address of the client.
</t>
<t>
Note that even without edns-client-subnet options, any server queried
directly by the user will be able to see the full client IP
address.
Recursive Resolvers or Authoritative Nameservers MAY use the
source IP address of requests to return a cached entry or to
generate an optimized reply that best matches the request.
</t>
</section>
<section title="Birthday attacks">
<t>edns-client-subnet adds information to the q-tuple. This allows
an attacker to send a caching Intermediate Nameserver multiple
queries with spoofed IP addresses either in the edns-client-subnet
option or as the source IP. These queries will trigger multiple
outgoing queries with the same name, type and class, just
different address information in the edns-client-subnet option.</t>
<t>With multiple queries for the same name in flight, the
attacker has a higher chance of success in sending a matching
response (with the address 0.0.0.0/0 to still get it cached
for many hosts).</t>
<t>To counter this, every edns-client-subnet option in a response
packet MUST contain the full FAMILY, ADDRESS and SOURCE NETMASK
fields from the corresponding request. Intermediate
Nameservers processing a response MUST verify that these
match, and MUST discard the entire reply if they do not.</t>
</section>
<section title="Cache pollution">
<t>It is simple for an arbitrary resolver or client to provide
false information in the edns-client-subnet option, or to send UDP
packets with forged source IP addresses.</t>
<t>This could be used to pollute the cache of intermediate
resolvers, by filling it with results that will rarely (if ever)
be used, or to reverse engineer the algorithms (or data) used by
the Authoritative Nameserver to calculate the optimized
answers.</t>
<t>Even without malicious intent, third-party Recursive Resolvers
providing answers to clients in multiple networks will need to
cache different replies for different networks, putting
more pressure on the cache.</t>
<t>To mitigate those problems:</t>
<t><list style="symbols">
<t>Recursive Resolvers implementing edns-client-subnet should only
enable it in deployments where it is expected to bring clear
advantages to the end users. For example, when expecting clients
from a variety of networks or from a wide geographical area.
Due to the high cache pressure introduced by edns-client-subnet,
the feature must be disabled in all default configurations.</t>
<t>Recursive Resolvers should limit the number of networks and
answers they keep in the cache for a given query.</t>
<t>Recursive Resolvers should limit the number of total different
networks that they keep in cache.</t>
<t>Recursive Resolvers should never send edns-client-subnet options
with SOURCE NETMASKs providing more bits in the ADDRESS than
they are willing to cache responses for.</t>
<t>Recursive Resolvers should implement algorithms to improve the
cache hit rate, given the size constraints indicated above.
Recursive Resolvers may, for example, decide to discard more
specific cache entries first.</t>
<t>Authoritative Nameservers and Recursive Resolvers should
discard known to be wrong or known to be forged edns-client-subnet
options. They must at least ignore unroutable addresses,
including the ones defined in <xref target="RFC1918" />
and <xref target="RFC4193" />, and should ignore and never
forward edns-client-subnet options specifying networks
or addresses that are known not to be served by those servers
when feasible.
</t>
<t>Authoritative Nameservers consider the edns-client-subnet option
just as a hint to provide better results. They can decide to
ignore the content of the edns-client-subnet option based on
black or white lists, rate limiting mechanisms, or any other
logic implemented in the software.</t>
</list></t>
</section>
</section>
<section title="Example">
<t><list style="numbers">
<t>A stub resolver SR with IP address 192.0.2.37 tries to
resolve www.example.com, by forwarding the query to the
Recursive Resolver R from IP address IP, asking for
recursion.</t>
<t>R, supporting edns-client-subnet, looks up www.example.com in
its cache. An entry is found neither for www.example.com,
nor for example.com.</t>
<t>R builds a query to send to the root and .com servers.
The implementation of R does not include an edns-client-subnet
option when querying TLD or root nameservers, because there is
no expectation to receive a client-network-specific response.
Thus, no edns-client-subnet option is added, and resolution is
performed as usual.</t>
<t>R now knows the Authoritative Nameserver ANS responsible for
example.com.</t>
<t>R prepares a new query for www.example.com, including an
edns-client-subnet option with:
<list style="symbols">
<t>OPTION-CODE, set to TBD.</t>
<t>OPTION-LENGTH, set to 0x00 0x07.</t>
<t>FAMILY, set to 0x00 0x01 as IP is an IPv4 address.</t>
<t>SOURCE NETMASK, set to 0x18, as R is configured to conceal
the last 8 bits of every IPv4 address.</t>
<t>SCOPE NETMASK, set to 0x00, as specified by this document
for all requests.</t>
<t>ADDRESS, set to 0xC0 0x00 0x02, providing only the first
24 bits of the IPv4 address.</t>
</list>
</t>
<t>The query is sent. Authoritative Nameserver ANS understands
and uses edns-client-subnet. It parses the edns-client-subnet
option, and generates an optimized reply.</t>
<t>Due to the internal implementation of the Authoritative
Nameserver ANS, ANS finds a reply that is optimal for the whole
/16 of the client that performed the request.</t>
<t>The Authoritative Nameserver ANS adds an edns-client-subnet
option in the reply, containing:
<list style="symbols">
<t>OPTION-CODE, set to TBD.</t>
<t>OPTION-LENGTH, set to 0x00 0x07.</t>
<t>FAMILY, set to 0x00 0x01.</t>
<t>SOURCE NETMASK, set to 0x18, copied from the request.</t>
<t>SCOPE NETMASK, set to 0x10, indicating a /16 network
range.</t>
<t>ADDRESS, set to 0xC0 0x00 0x02, copied from the
request.</t>
</list>
</t>
<t>The Recursive Resolver R receives the reply containing an
edns-client-subnet option. The resolver verifies that FAMILY,
SOURCE NETMASK, and ADDRESS match the request. If not, the
option is discarded.</t>
<t>
The reply is interpreted as usual. Since the reply
contains an edns-client-subnet option, the ADDRESS, SCOPE NETMASK,
and FAMILY in the response are used to cache the entry.
</t>
<t>R sends a response to stub resolver SR, without including
an edns-client-subnet option.</t>
<t>R receives another request to resolve www.example.com.
This time, a reply is cached. The reply, however, is tied
to a particular network. If the address of the client
matches any network in the cache, then the reply is
returned from the cache. Otherwise, another query is
performed. If multiple results match, the one with the
longest SCOPE NETMASK is chosen, as per common best-network
match algorithms.
</t>
</list></t>
</section>
<section title="Acknowledgements">
<t>
The authors wish to thank the following people for reviewing early
drafts of this document and for providing useful feedback: Paul
S. R. Chisholm, B. Narendran, Leonidas Kontothanassis, David
Presotto, Philip Rowlands, Chris Morrow, Kara Moscoe, Alex Nizhner,
Warren Kumari, Richard Rabbat from Google, Terry Farmer, Mark Teodoro,
Edward Lewis, Eric Burger from Neustar, David Ulevitch, Matthew
Dempsky from OpenDNS, Patrick W. Gilmore from Akamai,
Colm MacCarthaigh, Richard Sheehan and all the other people that
replied to our emails on various mailing lists.
</t>
</section>
<appendix title="Document Editing History">
<appendix title="Changes since -00">
<t><list style="symbols">
<t>Rewritten problem statement to be more clear about the
goal of edns-client-subnet and the fact that it's entirely
optional.</t>
<t>Wire format changed to include the original address and
netmask in responses in defence against birthday attacks.</t>
<t>Security considerations now includes a section about
birthday attacks.</t>
<t>Renamed edns-client-ip in edns-client-subnet, following
suggestions on the mailing list.</t>
<t>Clarified behavior of resolvers when presented with an
invalid edns-client-subnet option.</t>
<t>Fully take multi-tier DNS setups in mind and be more clear
about where the option should be originated.</t>
<t>Added a few definitions in the Terminology section, and
a few more aesthetic changes in the rest of the document.</t>
</list></t>
</appendix>
</appendix>
</middle>
<back>
<references title='Normative References'>
&rfc2119;
&rfc4035;
&rfc4034;
&rfc4033;
&rfc4193;
&rfc2671;
&rfc1918;
&rfc1035;
&rfc1034;
</references>
<references title='Informative References'>
<reference anchor="RFC2663">
<front>
<title>IP Network Address Translator (NAT)
Terminology and Considerations</title>
<author initials="P." surname="Srisuresh">
<organization>
Lucent Technologies
</organization>
</author>
<author initials="M." surname="Holdrege">
<organization>
Lucent Technologies
</organization>
</author>
</front>
<seriesInfo name="RFC" value="2663" />
</reference>
</references>
</back>
</rfc>
| PAFTECH AB 2003-2026 | 2026-04-23 19:36:12 |