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523 lines
23 KiB
Plaintext
$Id$
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Tor directory protocol for 0.1.1.x series
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0. Scope and preliminaries
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This document should eventually be merged to replace and supplement the
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existing notes on directories in tor-spec.txt.
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This is not a finalized version; what we actually wind up implementing
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may be different from the system described here.
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0.1. Goals
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There are several problems with the way Tor handles directory information
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in version 0.1.0.x and earlier. Here are the problems we try to fix with
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this new design, already partially implemented in 0.1.1.x:
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1. Directories are very large and use up a lot of bandwidth: clients
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download descriptors for all router several times an hour.
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2. Every directory authority is a trust bottleneck: if a single
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directory authority lies, it can make clients believe for a time an
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arbitrarily distorted view of the Tor network.
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3. Our current "verified server" system is kind of nonsensical.
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4. Getting more directory authorities adds more points of failure and
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worsens possible partitioning attacks.
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There are two problems that remain unaddressed by this design.
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5. Requiring every client to know about every router won't scale.
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6. Requiring every directory cache to know every router won't scale.
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1. Outline
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There is a small set (say, around 10) of semi-trusted directory
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authorities. A default list of authorities is shipped with the Tor
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software. Users can change this list, but are encouraged not to do so, in
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order to avoid partitioning attacks.
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Routers periodically upload signed "descriptors" to the directory
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authorities describing their keys, capabilities, and other information.
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Routers may act as directory mirrors (also called "caches"), to reduce
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load on the directory authorities. They announce this in their
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descriptors.
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Each directory authority periodically generates and signs a compact
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"network status" document that lists that authority's view of the current
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descriptors and status for known routers, but which does not include the
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descriptors themselves.
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Directory mirrors download, cache, and re-serve network-status documents
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to clients.
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Clients, directory mirrors, and directory authorities all use
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network-status documents to find out when their list of routers is
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out-of-date. If it is, they download any missing router descriptors.
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Clients download missing descriptors from mirrors; mirrors and authorities
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download from authorities. Descriptors are downloaded by the hash of the
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descriptor, not by the server's identity key: this prevents servers from
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attacking clients by giving them descriptors nobody else uses.
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All directory information is uploaded and downloaded with HTTP.
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Coordination among directory authorities is done client-side: clients
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compute a vote-like algorithm among the network-status documents they
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have, and base their decisions on the result.
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1.1. What's different from 0.1.0.x?
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Clients used to download a signed concatenated set of router descriptors
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(called a "directory") from directory mirrors, regardless of which
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descriptors had changed.
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Between downloading directories, clients would download "network-status"
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documents that would list which servers were supposed to running.
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Clients would always believe the most recently published network-status
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document they were served.
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Routers used to upload fresh descriptors all the time, whether their keys
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and other information had changed or not.
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2. Router operation
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The router descriptor format is unchanged from tor-spec.txt.
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ORs SHOULD generate a new router descriptor whenever any of the
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following events have occurred:
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- A period of time (18 hrs by default) has passed since the last
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time a descriptor was generated.
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- A descriptor field other than bandwidth or uptime has changed.
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- Bandwidth has changed by more than +/- 50% from the last time a
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descriptor was generated, and at least a given interval of time
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(20 mins by default) has passed since then.
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- Its uptime has been reset (by restarting).
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After generating a descriptor, ORs upload it to every directory
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authority they know, by posting it to the URL
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http://<hostname>/tor/
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3. Network status format
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Directory authorities generate, sign, and compress network-status
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documents. Directory servers SHOULD generate a fresh network-status
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document when the contents of such a document would be different from the
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last one generated, and some time (at least one second, possibly longer)
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has passed since the last one was generated.
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The network status document contains a preamble, a set of router status
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entries, and a signature, in that order.
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We use the same meta-format as used for directories and router descriptors
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in "tor-spec.txt". Implementations MAY insert blank lines
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for clarity between sections; these blank lines are ignored.
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Implementations MUST NOT depend on blank lines in any particular location.
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As used here, "whitespace" is a sequence of 1 or more tab or space
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characters.
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The preamble contains:
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"network-status-version" -- A document format version. For this
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specification, the version is "2".
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"dir-source" -- The authority's hostname, current IP address, and
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directory port, all separated by whitespace.
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"fingerprint" -- A base16-encoded hash of the signing key's
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fingerprint, with no additional spaces added.
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"contact" -- An arbitrary string describing how to contact the
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directory server's administrator. Administrators should include at
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least an email address and a PGP fingerprint.
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"dir-signing-key" -- The directory server's public signing key.
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"client-versions" -- A comma-separated list of recommended client
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versions.
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"server-versions" -- A comma-separated list of recommended server
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versions.
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"published" -- The publication time for this network-status object.
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"dir-options" -- A set of flags, in any order, separated by whitespace:
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"Names" if this directory authority performs name bindings.
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"Versions" if this directory authority recommends software versions.
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The dir-options entry is optional. The "-versions" entries are required if
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the "Versions" flag is present. The other entries are required and must
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appear exactly once. The "network-status-version" entry must appear first;
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the others may appear in any order. Implementations MUST ignore
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additional arguments to the items above, and MUST ignore unrecognized
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flags.
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For each router, the router entry contains: (This format is designed for
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conciseness.)
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"r" -- followed by the following elements, in order, separated by
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whitespace:
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- The OR's nickname,
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- A hash of its identity key, encoded in base64, with trailing =
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signs removed.
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- A hash of its most recent descriptor, encoded in base64, with
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trailing = signs removed. (The hash is calculated as for
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computing the signature of a descriptor.)
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- The publication time of its most recent descriptor, in the form
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YYYY-MM-DD HH:MM:SS, in GMT.
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- An IP address
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- An OR port
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- A directory port (or "0" for none")
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"s" -- A series of whitespace-separated status flags, in any order:
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"Authority" if the router is a directory authority.
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"Exit" if the router is useful for building general-purpose exit
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circuits.
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"Fast" if the router is suitable for high-bandwidth circuits.
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"Guard" if the router is suitable for use as an entry guard.
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(Currently, this means 'fast' and 'stable'.)
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"Named" if the router's identity-nickname mapping is canonical,
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and this authority binds names.
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"Stable" if the router is suitable for long-lived circuits.
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"Running" if the router is currently usable.
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"Valid" if the router has been 'validated'.
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"V2Dir" if the router implements this protocol.
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The "r" entry for each router must appear first and is required. The
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's" entry is optional. Unrecognized flags and extra elements on the
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"r" line must be ignored.
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The signature section contains:
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"directory-signature". A signature of the rest of the document using
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the directory authority's signing key.
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We compress the network status list with zlib before transmitting it.
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3.1. Establishing server status
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[[XXXXX Describe how authorities actually decide Fast, Named, Stable,
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Running, Valid
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For each OR, a directory server remembers whether the OR was running and
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functional the last time they tried to connect to it, and possibly other
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liveness information.
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Directory server administrators may label some servers or IPs as
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blacklisted, and elect not to include them in their network-status lists.
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Thus, the network-status list includes all non-blacklisted,
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non-expired, non-superseded descriptors for ORs that the directory has
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observed at least once to be running.
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Directory server administrators may decide to support name binding. If
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they do, then they must maintain a file of nickname-to-identity-key
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mappings, and try to keep this file consistent with other directory
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servers. If they don't, they act as clients, and report bindings made by
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other directory servers (name X is bound to identity Y if at least one
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binding directory lists it, and no directory binds X to some other Y'.)
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]]
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4. Directory server operation
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All directory authorities and directory mirrors ("directory servers")
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implement this section, except as noted.
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4.1. Accepting uploads (authorities only)
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When a router posts a signed descriptor to a directory authority, the
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authority first checks whether it is well-formed and correctly
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self-signed. If it is, the authority next verifies that the nickname
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question is already assigned to a router with a different public key.
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Finally, the authority MAY check that the router is not blacklisted
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because of its key, IP, or another reason.
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If the descriptor passes these tests, and the authority does not already
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have a descriptor for a router with this public key, it accepts the
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descriptor and remembers it.
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If the authority _does_ have a descriptor with the same public key, the
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newly uploaded descriptor is remembered if its publication time is more
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recent than the most recent old descriptor for that router, and either:
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- There are non-cosmetic differences between the old descriptor and the
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new one.
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- Enough time has passed between the descriptors' publication times.
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(Currently, 12 hours.)
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Differences between router descriptors are "non-cosmetic" if they would be
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sufficient to force an upload as described in section 2 above.
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Note that the "cosmetic difference" test only applies to uploaded
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descriptors, not to descriptors that the authority downloads from other
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authorities.
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4.2. Downloading network-status documents
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All directory servers (authorities and mirrors) try to keep a fresh
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set of network-status documents from every authority. To do so,
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every 5 minutes, each authority asks every other authority for its
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most recent network-status document. Every 15 minutes, each mirror
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picks a random authority and asks it for the most recent network-status
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documents for all the authorities the authority knows about (including
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the chosen authority itself).
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Directory servers and mirrors remember and serve the most recent
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network-status document they have from each authority. Other
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network-status documents don't need to be stored. If the most recent
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network-status document is over 10 days old, it is discarded anyway.
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Mirrors SHOULD store and serve network-status documents from authorities
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they don't recognize, but SHOULD NOT use such documents for any other
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purpose.
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4.3. Downloading and storing router descriptors
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Periodically (currently, every 10 seconds), directory servers check
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whether there are any specific descriptors (as identified by descriptor
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hash in a network-status document) that they do not have and that they
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are not currently trying to download.
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If so, the directory server launches requests to the authorities for these
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descriptors, such that each authority is only asked for descriptors listed
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in its most recent network-status. When more than one authority lists the
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descriptor, we choose which to ask at random.
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If one of these downloads fails, we do not try to download that descriptor
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from the authority that failed to serve it again unless we receive a newer
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network-status from that authority that lists the same descriptor.
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Directory servers must potentially cache multiple descriptors for each
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router. Servers must not discard any descriptor listed by any current
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network-status document from any authority. If there is enough space to
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store additional descriptors [XXXXXX then how do we pick.]
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Authorities SHOULD NOT download descriptors for routers that they would
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immediately reject for reasons listed in 3.1.
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4.4. HTTP URLs
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"Fingerprints" in these URLs are base-16-encoded SHA1 hashes.
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The authoritative network-status published by a host should be available at:
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http://<hostname>/tor/status/authority.z
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The network-status published by a host with fingerprint
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<F> should be available at:
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http://<hostname>/tor/status/fp/<F>.z
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The network-status documents published by hosts with fingerprints
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<F1>,<F2>,<F3> should be available at:
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http://<hostname>/tor/status/fp/<F1>+<F2>+<F3>.z
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The most recent network-status documents from all known authorities,
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concatenated, should be available at:
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http://<hostname>/tor/status/all.z
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The most recent descriptor for a server whose identity key has a
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fingerprint of <F> should be available at:
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http://<hostname>/tor/server/fp/<F>.z
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The most recent descriptors for servers with identity fingerprints
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<F1>,<F2>,<F3> should be available at:
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http://<hostname>/tor/server/fp/<F1>+<F2>+<F3>.z
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(NOTE: Implementations SHOULD NOT download descriptors by identity key
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fingerprint. This allows a corrupted server (in collusion with a cache) to
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provide a unique descriptor to a client, and thereby partition that client
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from the rest of the network.)
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The server descriptor with (descriptor) digest <D> (in hex) should be
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available at:
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http://<hostname>/tor/server/d/<D>.z
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The most recent descriptors with digests <D1>,<D2>,<D3> should be
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available at:
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http://<hostname>/tor/server/d/<D1>+<D2>+<D3>.z
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The most recent descriptor for this server should be at:
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http://<hostname>/tor/server/authority.z
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[Nothing in the Tor protocol uses this resource yet, but it is useful
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for debugging purposes. Also, the official Tor implementations
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(starting at 0.1.1.x) use this resource to test whether a server's
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own DirPort is reachable.]
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A concatenated set of the most recent descriptors for all known servers
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should be available at:
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http://<hostname>/tor/server/all.z
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For debugging, directories SHOULD expose non-compressed objects at URLs like
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the above, but without the final ".z".
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Clients MUST handle compressed concatenated information in two forms:
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- A concatenated list of zlib-compressed objects.
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- A zlib-compressed concatenated list of objects.
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Directory servers MAY generate either format: the former requires less
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CPU, but the latter requires less bandwidth.
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Clients SHOULD use upper case letters (A-F) when base16-encoding
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fingerprints. Servers MUST accept both upper and lower case fingerprints
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in requests.
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5. Client operation: downloading information
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Every Tor that is not a directory server (that is, clients and ORs that do
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not have a DirPort set) implements this section.
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5.1. Downloading network-status documents
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Each client maintains an ordered list of directory authorities.
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Insofar as possible, clients SHOULD all use the same ordered list.
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Clients check whether they have enough recently published network-status
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documents (currently, this means that they must have a network-status
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published within the last 48 hours for over half of the authorities).
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If they do not, they download enough network-status documents so that this
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is so.
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Also, if the most recently published network-status document is over 30
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minutes old, the client downloads a network-status document.
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When choosing which documents to download, clients treat their list of
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directory authorities as a circular ring, and begin with the authority
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appearing immediately after the authority for their most recently
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published network-status document.
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If enough mirrors (currently 4) claim not to have a given network status,
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we stop trying to download that authority's network-status, until we
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download a new network-status that makes us believe that the authority in
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question is running.
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Network-status documents published over 10 hours in the past are
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discarded.
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5.2. Downloading router descriptors
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Clients try to have the best descriptor for each router. A descriptor is
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"best" if:
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* it the most recently published descriptor listed for that router by
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at least two network-status documents.
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* OR, no descriptor for that router is listed by two or more
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network-status documents, and it is the most recently published
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descriptor listed by any network-status document.
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Periodically (currently every 10 seconds) clients check whether there are
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any "downloadable" descriptors. A descriptor is downloadable if:
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- It is the "best" descriptor for some router.
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- The descriptor was published at least 5 minutes (???) in the past.
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[This prevents clients from trying to fetch descriptors that the
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mirrors have not yet retrieved and cached.]
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- The client does not currently have it.
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- The client is not currently trying to download it.
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If at least 1/16 of known routers have downloadable descriptors, or if
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enough time (currently 10 minutes) has passed since the last time the
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client tried to download descriptors, it launches requests for all
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downloadable descriptors, as described in 5.3 below.
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When a descriptor download fails, the client notes it, and does not
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consider the descriptor downloadable again until a certain amount of time
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has passed. (Currently 0 seconds for the first failure, 60 seconds for the
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second, 5 minutes for the third, 10 minutes for the fourth, and 1 day
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thereafter.) Periodically (currently once an hour) clients reset the
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failure count.
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No descriptors are downloaded until the client has downloaded more than
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half of the network-status documents.
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5.3. Managing downloads
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When a client has no live network-status documents, it downloads
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network-status documents from a randomly chosen authority. In all other
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cases, the client downloads from mirrors randomly chosen from among those
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believed to be V2 directory servers. (This information comes from the
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network-status documents; see 6 below.)
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When downloading multiple router descriptors, the client chooses multiple
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mirrors so that:
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- At least 3 different mirrors are used, except when this would result
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in more than one request for under 4 descriptors.
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- No more than 128 descriptors are requested from a single mirror.
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- Otherwise, as few mirrors as possible are used.
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After choosing mirrors, the client divides the descriptors among them
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randomly.
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After receiving any response client MUST discard any network-status
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documents and descriptors that it did not request.
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6. Using directory information
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Everyone besides directory authorities uses the approaches in this section
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to decide which servers to use and what their keys are likely to be.
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(Directory authorities just believe their own opinions, as in 3.1 above.)
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6.1. Choosing routers for circuits.
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Tor implementations only pay attention to "live" network-status documents.
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A network status is "live" if it is the most recently downloaded network
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status document for a given directory server, and the server is a
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directory server trusted by the client, and the network-status document is
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no more than 2 days old.
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For time-sensitive information, Tor implementations focus on "recent"
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network-status documents. A network status is "recent" if it is live, and
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if it was published in the last 60 minutes. If there are fewer
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than 3 such documents, the most recently published 3 are "recent." If
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there are fewer than 3 in all, all are "recent.")
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Circuits SHOULD NOT be built until the client has enough directory
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information: at least two live network-status documents, and descriptors
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for at least 1/4 of the servers believed to be running.
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A server is "listed" if it is included by more than half of the live
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network status documents. Clients SHOULD NOT use unlisted servers.
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A server is "valid" if it is listed as valid by more than half of the live
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network-status documents. Clients SHOULD NOT use non-valid servers unless
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specifically configured to do so.
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A server is "running" if it is listed as running by more than half of the
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recent network-status documents. Clients SHOULD NOT try to use
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non-running servers.
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A server is believed to be a directory mirror if it is listed as a V2
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directory by more than half of the recent network-status documents.
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6.1. Managing naming
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In order to provide human-memorable names for individual server
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identities, some directory servers bind names to IDs. Clients handle
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names in two ways:
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When a client encounters a name it has not mapped before:
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If all the live "Naming" network-status documents the client has
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claim that the name binds to some identity ID, and the client has at
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least three live network-status documents, the client maps the name to
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ID.
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If a client encounters a name it has mapped before:
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It uses the last-mapped identity value, unless all of the "Naming"
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network status documents that list the name bind it to some other
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identity.
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When a user tries to refer to a router with a name that does not have a
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mapping under the above rules, the implementation SHOULD warn the user.
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After giving the warning, the implementation MAY use a router that at
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least one Naming authority maps the name to, so long as no other naming
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authority maps that name to a different router.
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6.2. Software versions
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An implementation of Tor SHOULD warn when it has live network-statuses from
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more than half of the authorities, and it is running a software version
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|
not listed on more than half of the live "Versioning" network-status
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|
documents.
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TODO:
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- Resolve XXXXs
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|
- Are the magic numbers above sane?
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|
- Client-knowledge partitioning is worrisome. Most versions of this
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|
don't seem to be worse than the Danezis-Murdoch tracing attack, since
|
|
an attacker can't do more than deduce probable exits from entries (or
|
|
vice versa). But what about when the client connects to A and B but in
|
|
a different order? How bad can it be partitioned based on its
|
|
knowledge?
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