Thus spake Ondrej Mikle (ondrej.mikle@xxxxxxxxx): > I've revised the DNS draft, attaching it. In section 4 there are some options > for integration with libunbound, but each of them requires some work with the > stock libunbound code. I'm not a DNS expert, but I have a couple preliminary requests/questions. First, can you provide a section in the proposal on the analysis of the number of round trips over Tor for different request scenarios? If you offload full DNS responsibility to the client, certain query behaviors are going to be better than others with respect to the number of round trips over Tor. We're going to want to minimize these round trips, especially if we decide we want to rely on DNSsec/DANE for everything. Clients may also want to use this information to try to intelligently decide cases where we don't want to do full DNSsec queries and revert to the oldstyle SOCKS4A. Second (and related), is it totally insane to map some sort of magic IP to "foward this query the local exit node resolver" so that the client can easily get DNS(sec) perspectives from each exit node's resolver caches? This might both minimize round trips for clients who don't want to either hardcode 8.8.8.8 or do full recursive resolves against the root servers. On the other hand, it might complicate query handling on the exit side and also introduce weird cache/poisoning attacks? These two areas are probably useful to describe in the proposal, since it or the spec it turns in to will presumably be read by random people looking to use the new full DNS support and who might do it wrong, either from a performance or a security perspective. > Filename: xxx-dns-dnssec.txt > Title: Support for full DNS and DNSSEC resolution in Tor > Authors: Ondrej Mikle > Created: 4 February 2012 > Modified: 19 August 2012 > Status: Draft > > 0. Overview > > Adding support for any DNS query type to Tor, as well as DNSSEC support. > > 0.1. Motivation > > Many applications running over Tor need more than just resolving FQDN to > IPv4 and vice versa. Sometimes to prevent DNS leaks the applications have to > be hacked around to be supplied necessary data by hand (e.g. SRV records in > XMPP). TLS connections will benefit from planned TLSA record that provides > certificate pinning to avoid another Diginotar-like fiasco. > > DNSSEC is part of the DNS protocol and the most appropriate place for DNSSEC > API would be probably in OS libraries (e.g. libc). However that will > probably take time until it becomes widespread. > > On the Tor's side (as opposed to application's side), DNSSEC will provide > protection against DNS cache-poisoning attacks (provided that exit is not > malicious itself, but still reduces attack surface). > > 1. Design > > 1.1 New cells > > There will be two new cells, RELAY_DNS_BEGIN and RELAY_DNS_RESPONSE (we'll > use DNS_BEGIN and DNS_RESPONSE for short below). > > DNS_BEGIN payload: > > DNS packet data (variable length) > > The DNS packet must be generated internally by libunbound to avoid > fingerprinting users by differences in client resolvers' behavior. > > DNS_RESPONSE payload: > > total length (2 octets) > data (variable) > > Data contains the reply DNS packet or its part if packet would not fit into > the cell. Total length describes length of complete response packet, thus > one DNS_BEGIN may be answered by multiple DNS_RESPONSE cells. > > DNS_BEGIN must use a non-zero, distinct StreamID, corresponding DNS_RESPONSE > will use the same StreamID. Similarly to RELAY_RESOLVE(D), no actual stream > is created. > > AXFR and IXRF are not supported in this cell by design (see specialized tool > below). > > 2. Interfaces to applications > > DNSPort evdns - existing implementation will be updated to use DNS_BEGIN. > > 3. Limitations on DNS query > > Query class is limited to IN (INTERNET) since the only other useful class > CHAOS is practical for directly querying authoritative servers (OR in this > case acts as a recursive resolver). Query for class other than IN will > return REFUSED in the inner DNS packet. > > Multiple questions in a single packet are not supported and OR will respond > with REFUSED as the DNS error code. > > All query RR types are allowed. > > [XXXX I originally thought about some exit policy like "basic RR types" and > "all RRs", but managing such list in deployed nodes with extra directory > flags outweighs the benefit. Maybe disallow ANY RR type? ] > > Client as well as OR MUST block attempts to resolve local RFC 1918, 4193, > 4291 adresses (PTR). REFUSED will be returned as DNS error code from OR. > > Request for special names (.onion, .exit, .noconnect) will return REFUSED. > > 4. Implementation notes > > Client will periodically purge incomplete DNS replies. Any unexpected > DNS_RESPONSE will be dropped. > > AD flag must be zeroed out on client unless validation is performed. > > [XXXX libunbound lowlevel API, Tor+libunbound libevent loop > > libunbound doesn't publicly expose all the necessary parts of low-level API. > It can return the received DNS packet, but not let you construct a packet > and get it in wire-format, for example. > > Options I see: > > a) patch libunbound to be able feed wire-format DNS packets and add API to > obtain constructed packets instead of sending over network > > b) replace bufferevents for sockets in unbound with something like > libevent's paired bufferevents. This means that data extracted from > DNS_RESPONSE/DNS_BEGIN cells would be fed directly to some evbuffers that > would be picked up by libunbound. It could possibly result in avoiding > background thread of libunbound's ub_resolve_async running separate libevent > loop. > > c) bind to some arbitrary local address like 127.1.2.3:53 and use it as > forwarder for libunbound. The code there would pack/unpack the DNS packets > from/to libunbound into DNS_BEGIN/DNS_RESPONSE cells. It wouldn't require > modification of libunbound code, but it's not pretty either. Also the bind > port must be 53 which usually requires superuser privileges. > > Code of libunbound is fairly complex for me to see outright what would the > best approach be. > ] > > 5. Separate tool for AXFR > > The AXFR tool will have similar interface like tor-resolve, but will > return raw DNS data. > > Parameters are: query domain, server IP of authoritative DNS. > > The tool will transfer the data through "ordinary" tunnel using RELAY_BEGIN > and related cells. > > This design decision serves two goals: > > - DNS_BEGIN and DNS_RESPONSE will be simpler to implement (lower chance of > bugs) > - in practice it's often useful do AXFR queries on secondary authoritative > DNS servers > > IXFR will not be supported (infrequent corner case, can be done by manual > tunnel creation over Tor if truly necessary). > > 6. Security implications > > Transaction ID is provided randomly by libunbound, no need to modify. > > As proposal 171 mentions, we need mitigate circuit correlation. One solution > would be keeping multiple streams to multiple exit nodes and picking one at > random for DNS resolution. Other would be keeping DNS-resolving circuit open > only for a short time (e.g. 1-2 minutes). Randomly changing the circuits > however means that it would probably incur additional latency since there > would likely be a few cache misses on the newly selected exits. > > > 7. TTL normalization idea > > A bit complex on implementation, because it requires parsing DNS packets at > exit node. > > TTL in reply DNS packet MUST be normalized at exit node so that client won't > learn what other clients queried. The normalization is done in following > way: > > - for a RR, the original TTL value received from authoritative DNS server > should be used when sending DNS_RESPONSE, trimming the values to interval > [5, 600] > - does not pose "ghost-cache-attack", since once RR is flushed from > libunbound's cache, it must be fetched anew > > _______________________________________________ > tor-dev mailing list > tor-dev@xxxxxxxxxxxxxxxxxxxx > https://lists.torproject.org/cgi-bin/mailman/listinfo/tor-dev -- Mike Perry
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