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326 lines
14 KiB
Plaintext
Filename: 141-jit-sd-downloads.txt
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Title: Download server descriptors on demand
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Version: $Revision$
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Last-Modified: $Date$
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Author: Peter Palfrader
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Created: 15-Jun-2008
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Status: Draft
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1. Overview
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Downloading all server descriptors is the most expensive part
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of bootstrapping a Tor client. These server descriptors currently
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amount to about 1.5 Megabytes of data, and this size will grow
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linearly with network size.
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Fetching all these server descriptors takes a long while for people
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behind slow network connections. It is also a considerable load on
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our network of directory mirrors.
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This document describes proposed changes to the Tor network and
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directory protocol so that clients will no longer need to download
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all server descriptors.
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These changes consist of moving load balancing information into
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network status documents, implementing a means to download server
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descriptors on demand in an anonymity-preserving way, and dealing
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with exit node selection.
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2. What is in a server descriptor
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When a Tor client starts the first thing it will try to get is a
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current network status document: a consensus signed by a majority
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of directory authorities. This document is currently about 100
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Kilobytes in size, tho it will grow linearly with network size.
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This document lists all servers currently running on the network.
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The Tor client will then try to get a server descriptor for each
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of the running servers. All server descriptors currently amount
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to about 1.5 Megabytes of downloads.
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A Tor client learns several things about a server from its descriptor.
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Some of these it already learned from the network status document
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published by the authorities, but the server descriptor contains it
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again in a single statement signed by the server itself, not just by
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the directory authorities.
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Tor clients use the information from server descriptors for
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different purposes, which are considered in the following sections.
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#three ways: One, to determine if a server will be able to handle
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#this client's request; two, to actually communicate or use the server;
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#three, for load balancing decisions.
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#
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#These three points are considered in the following subsections.
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2.1 Load balancing
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The Tor load balancing mechanism is quite complex in its details, but
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it has a simple goal: The more traffic a server can handle the more
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traffic it should get. That means the more traffic a server can
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handle the more likely a client will use it.
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For this purpose each server descriptor has bandwidth information
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which tries to convey a server's capacity to clients.
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Currently we weigh servers differently for different purposes. There
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is a weight for when we use a server as a guard node (our entry to the
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Tor network), there is one weight we assign servers for exit duties,
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and a third for when we need intermediate (middle) nodes.
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2.2 Exit information
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When a Tor wants to exit to some resource on the internet it will
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build a circuit to an exit node that allows access to that resource's
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IP address and TCP Port.
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When building that circuit the client can make sure that the circuit
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ends at a server that will be able to fulfill the request because the
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client already learned of all the servers' exit policies from their
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descriptors.
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2.3 Capability information
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Server descriptors contain information about the specific version of
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the Tor protocol they understand [proposal 105].
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Furthermore the server descriptor also contains the exact version of
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the Tor software that the server is running and some decisions are
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made based on the server version number (for instance a Tor client
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will only make conditional consensus requests [proposal 139] when
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talking to Tor servers version 0.2.1.1-alpha or later).
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2.4 Contact/key information
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A server descriptor lists a server's IP address and TCP ports on which
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it accepts onion and directory connections. Furthermore it contains
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the onion key (a short lived RSA key to which clients encrypt CREATE
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cells).
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2.5 Identity information
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A Tor client learns the digest of a server's key from the network
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status document. Once it has a server descriptor this descriptor
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contains the full RSA identity key of the server. Clients verify
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that 1) the digest of the identity key matches the expected digest
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it got from the consensus, and 2) that the signature on the descriptor
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from that key is valid.
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3. No longer require clients to have copies of all SDs
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3.1 Load balancing info in consensus documents
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One of the reasons why clients download all server descriptors is for
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doing load proper load balancing as described in 2.1. In order for
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clients to not require all server descriptors this information will
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have to move into the network status document.
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Consensus documents will have a new line per router similar
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to the "r", "s", and "v" lines that already exist. This line
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will convey weight information to clients.
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"w Bandwidth=193"
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The bandwidth number is the lesser of observed bandwidth and bandwidth
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rate limit from the server descriptor that the "r" line referenced by
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digest (1st and 3rd field of the bandwidth line in the descriptor).
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It is given in kilobytes per second so the byte value in the
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descriptor has to be divided by 1024 (and is then truncated, i.e.
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rounded down).
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Authorities will cap the bandwidth number at some arbitrary value,
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currently 10MB/sec. If a router claims a larger bandwidth an
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authority's vote will still only show Bandwidth=10240.
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The consensus value for bandwidth is the median of all bandwidth
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numbers given in votes. In case of an even number of votes we use
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the lower median. (Using this procedure allows us to change the
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cap value more easily.)
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Clients should believe the bandwidth as presented in the consensus,
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not capping it again.
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3.2 Fetching descriptors on demand
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As described in 2.4 a descriptor lists IP address, OR- and Dir-Port,
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and the onion key for a server.
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A client already knows the IP address and the ports from the consensus
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documents, but without the onion key it will not be able to send
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CREATE/EXTEND cells for that server. Since the client needs the onion
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key it needs the descriptor.
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If a client only downloaded a few descriptors in an observable manner
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then that would leak which nodes it was going to use.
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This proposal suggests the following:
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1) when connecting to a guard node for which the client does not
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yet have a cached descriptor it requests the descriptor it
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expects by hash. (The consensus document that the client holds
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has a hash for the descriptor of this server. We want exactly
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that descriptor, not a different one.)
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It does that by sending a RELAY_REQUEST_SD cell.
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A client MAY cache the descriptor of the guard node so that it does
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not need to request it every single time it contacts the guard.
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2) when a client wants to extend a circuit that currently ends in
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server B to a new next server C, the client will send a
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RELAY_REQUEST_SD cell to server B. This cell contains in its
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payload the hash of a server descriptor the client would like
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to obtain (C's server descriptor). The server sends back the
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descriptor and the client can now form a valid EXTEND/CREATE cell
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encrypted to C's onion key.
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Clients MUST NOT cache such descriptors. If they did they might
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leak that they already extended to that server at least once
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before.
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Replies to RELAY_REQUEST_SD requests need to be padded to some
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constant upper limit in order to conceal a client's destination
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from anybody who might be counting cells/bytes.
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RELAY_REQUEST_SD cells contain the following information:
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- hash of the server descriptor requested
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- hash of the identity digest of the server for which we want the SD
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- IP address and OR-port or the server for which we want the SD
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- padding factor - the number of cells we want the answer
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padded to.
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[XXX this just occured to me and it might be smart. or it might
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be stupid. clients would learn the padding factor they want
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to use from the consensus document. This allows us to grow
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the replies later on should SDs become larger.]
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[XXX: figure out a decent padding size]
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3.3 Protocol versions
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Server descriptors contain optional information of supported
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link-level and circuit-level protocols in the form of
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"opt protocols Link 1 2 Circuit 1". These are not currently needed
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and will probably eventually move into the "v" (version) line in
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the consensus. This proposal does not deal with them.
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Similarly a server descriptor contains the version number of
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a Tor node. This information is already present in the consensus
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and is thus available to all clients immediately.
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3.4 Exit selection
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Currently finding an appropriate exit node for a user's request is
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easy for a client because it has complete knowledge of all the exit
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policies of all servers on the network.
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The consensus document will once again be extended to contain the
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information required by clients. This information will be a summary
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of each node's exit policy. The exit policy summary will only contain
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the list of ports to which a node exits to most destination IP
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addresses.
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A summary should claim a router exits to a specific TCP port if,
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ignoring private IP addresses, the exit policy indicates that the
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router would exit to this port to most IP address. either two /8
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netblocks, or one /8 and a couple of /12s or any other combination).
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The exact algorith used is this: Going through all exit policy items
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- ignore any accept that is not for all IP addresses ("*"),
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- ignore rejects for these netblocks (exactly, no subnetting):
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0.0.0.0/8, 169.254.0.0/16, 127.0.0.0/8, 192.168.0.0/16, 10.0.0.0/8,
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and 172.16.0.0/12m
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- for each reject count the number of IP addresses rejected against
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the affected ports,
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- once we hit an accept for all IP addresses ("*") add the ports in
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that policy item to the list of accepted ports, if they don't have
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more than 2^25 IP addresses (that's two /8 networks) counted
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against them (i.e. if the router exits to a port to everywhere but
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at most two /8 networks).
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An exit policy summary will be included in votes and consensus as a
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new line attached to each exit node. The line will have the format
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"p" <space> "accept"|"reject" <portlist>
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where portlist is a comma seperated list of single port numbers or
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portranges (e.g. "22,80-88,1024-6000,6667").
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Whether the summary shows the list of accepted ports or the list of
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rejected ports depends on which list is shorter (has a shorter string
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representation). In case of ties we choose the list of accepted
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ports. As an exception to this rule an allow-all policy is
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represented as "accept 1-65535" instead of "reject " and a reject-all
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policy is similarly given as "reject 1-65535".
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Summary items are compressed, that is instead of "80-88,89-100" there
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only is a single item of "80-100", similarly instead of "20,21" a
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summary will say "20-21".
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Port lists are sorted in ascending order.
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The maximum allowed length of a policy summary (including the "accept "
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or "reject ") is 1000 characters. If a summary exceeds that length we
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use an accept-style summary and list as much of the port list as is
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possible within these 1000 bytes.
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3.4.1 Consensus selection
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When building a consensus, authorities have to agree on a digest of
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the server descriptor to list in the router line for each router.
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This is documented in dir-spec section 3.4.
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All authorities that listed that agreed upon descriptor digest in
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their vote should also list the same exit policy summary - or list
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none at all if the authority has not been upgraded to list that
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information in their vote.
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If we have votes with matching server descriptor digest of which at
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least one of them has an exit policy then we differ between two cases:
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a) all authorities agree (or abstained) on the policy summary, and we
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use the exit policy summary that they all listed in their vote,
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b) something went wrong (or some authority is playing foul) and we
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have different policy summaries. In that case we pick the one
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that is most commonly listed in votes with the matching
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descriptor. We break ties in favour of the lexigraphically larger
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vote.
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If none one of the votes with a matching server descriptor digest has
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an exit policy summary we use the most commonly listed one in all
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votes, breaking ties like in case b above.
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3.4.2 Client behaviour
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When choosing an exit node for a specific request a Tor client will
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choose from the list of nodes that exit to the requested port as given
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by the consensus document. If a client has additional knowledge (like
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cached full descriptors) that indicates the so chosen exit node will
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reject the request then it MAY use that knowledge (or not include such
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nodes in the selection to begin with). However, clients MUST NOT use
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nodes that do not list the port as accepted in the summary (but for
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which they know that the node would exit to that address from other
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sources, like a cached descriptor).
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An exception to this is exit enclave behaviour: A client MAY use the
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node at a specific IP address to exit to any port on the same address
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even if that node is not listed as exiting to the port in the summary.
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4. Migration
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4.1 Consensus document changes.
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The consensus will need to include
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- bandwidth information (see 3.1)
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- exit policy summaries (3.4)
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A new consensus method (number TBD) will be chosen for this.
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5. Future possibilities
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This proposal still requires that all servers have the descriptors of
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every other node in the network in order to answer RELAY_REQUEST_SD
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cells. These cells are sent when a circuit is extended from ending at
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node B to a new node C. In that case B would have to answer a
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RELAY_REQUEST_SD cell that asks for C's server descriptor (by SD digest).
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In order to answer that request B obviously needs a copy of C's server
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descriptor. The RELAY_REQUEST_SD cell already has all the info that
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B needs to contact C so it can ask about the descriptor before passing it
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back to the client.
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