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197 lines
9.6 KiB
Plaintext
Filename: 143-distributed-storage-improvements.txt
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Title: Improvements of Distributed Storage for Tor Hidden Service Descriptors
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Version: $Revision$
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Last-Modified: $Date$
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Author: Karsten Loesing
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Created: 28-Jun-2008
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Status: Open
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Target: 0.2.1.x
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Change history:
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28-Jun-2008 Initial proposal for or-dev
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Overview:
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An evaluation of the distributed storage for Tor hidden service
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descriptors and subsequent discussions have brought up a few improvements
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to proposal 114. All improvements are backwards compatible to the
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implementation of proposal 114.
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Design:
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1. Report Bad Directory Nodes
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Bad hidden service directory nodes could deny existence of previously
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stored descriptors. A bad directory node that does this with all stored
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descriptors causes harm to the distributed storage in general, but
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replication will cope with this problem in most cases. However, an
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adversary that attempts to make a specific hidden service unavailable by
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running relays that become responsible for all of a service's
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descriptors poses a more serious threat. The distributed storage needs to
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defend against this attack by detecting and removing bad directory nodes.
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As a countermeasure hidden services try to download their descriptors
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every hour at random times from the hidden service directories that are
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responsible for storing it. If a directory node replies with 404 (Not
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found), the hidden service reports the supposedly bad directory node to
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a random selection of half of the directory authorities (with version
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numbers equal to or higher than the first version that implements this
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proposal). The hidden service posts a complaint message using HTTP 'POST'
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to a URL "/tor/rendezvous/complain" with the following message format:
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"hidden-service-directory-complaint" identifier NL
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[At start, exactly once]
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The identifier of the hidden service directory node to be
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investigated.
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"rendezvous-service-descriptor" descriptor NL
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[At end, Excatly once]
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The hidden service descriptor that the supposedly bad directory node
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does not serve.
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The directory authority checks if the descriptor is valid and the hidden
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service directory responsible for storing it. It waits for a random time
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of up to 30 minutes before posting the descriptor to the hidden service
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directory. If the publication is acknowledged, the directory authority
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waits another random time of up to 30 minutes before attempting to
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request the descriptor that it has posted. If the directory node replies
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with 404 (Not found), it will be blacklisted for being a hidden service
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directory node for the next 48 hours.
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A blacklisted hidden service directory is assigned the new flag BadHSDir
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instead of the HSDir flag in the vote that a directory authority creates.
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In a consensus a relay is only assigned a HSDir flag if the majority of
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votes contains a HSDir flag and no more than one third of votes contains
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a BadHSDir flag. As a result, clients do not have to learn about the
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BadHSDir flag. A blacklisted directory node will simply not be assigned
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the HSDir flag in the consensus.
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In order to prevent an attacker from setting up new nodes as replacement
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for blacklisted directory nodes, all directory nodes in the same /24
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subnet are blacklisted, too. Furthermore, if two or more directory nodes
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are blacklisted in the same /16 subnet concurrently, all other directory
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nodes in that /16 subnet are blacklisted, too. Blacklisting holds for at
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most 48 hours.
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2. Publish Fewer Replicas
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The evaluation has shown that the probability of a directory node to
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serve a previously stored descriptor is 85.7% (more precisely, this is
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the 0.001-quantile of the empirical distribution with the rationale that
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it holds for 99.9% of all empirical cases). If descriptors are replicated
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to x directory nodes, the probability of at least one of the replicas to
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be available for clients is 1 - (1 - 85.7%) ^ x. In order to achieve an
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overall availability of 99.9%, x = 3.55 replicas need to be stored. From
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this follows that 4 replicas are sufficient, rather than the currently
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stored 6 replicas.
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Further, the current design stores 2 sets of descriptors on 3 directory
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nodes with consecutive identities. Originally, this was meant to
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facilitate replication between directory nodes, which has not been and
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will not be implemented (the selection criterion of 24 hours uptime does
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not make it necessary). As a result, storing descriptors on directory
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nodes with consecutive identities is not required. In fact it should be
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avoided to enable an attacker to create "black holes" in the identifier
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ring.
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Hidden services should store their descriptors on 4 non-consecutive
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directory nodes, and clients should request descriptors from these
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directory nodes only. For compatibility reasons, hidden services also
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store their descriptors on 2 consecutive directory nodes. Hence, 0.2.0.x
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clients will be able to retrieve 4 out of 6 descriptors, but will fail
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for the remaining 2 descriptors, which is sufficient for reliability. As
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soon as 0.2.0.x is deprecated, hidden services can stop publishing the
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additional 2 replicas.
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3. Change Default Value of Being Hidden Service Directory
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The requirements for becoming a hidden service directory node are an open
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directory port and an uptime of at least 24 hours. The evaluation has
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shown that there are 300 hidden service directory candidates in the mean,
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but only 6 of them are configured to act as hidden service directories.
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This is bad, because those 6 nodes need to serve a large share of all
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hidden service descriptors. Optimally, there should be hundreds of hidden
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service directories. Having a large number of 0.2.1.x directory nodes
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also has a positive effect on 0.2.0.x hidden services and clients.
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Therefore, the new default of HidServDirectoryV2 should be 1, so that a
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Tor relay that has an open directory port automatically accepts and
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serves v2 hidden service descriptors. A relay operator can still opt-out
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running a hidden service directory by changing HidServDirectoryV2 to 0.
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The additional bandwidth requirements for running a hidden service
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directory node in addition to being a directory cache are negligible.
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4. Make Descriptors Persistent on Directory Nodes
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Hidden service directories that are restarted by their operators or after
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a failure will not be selected as hidden service directories within the
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next 24 hours. However, some clients might still think that these nodes
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are responsible for certain descriptors, because they work on the basis
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of network consensuses that are up to three hours old. The directory
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nodes should be able to serve the previously received descriptors to
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these clients. Therefore, directory nodes make all received descriptors
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persistent and load previously received descriptors on startup.
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5. Store and Serve Descriptors Regardless of Responsibility
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Currently, directory nodes only accept descriptors for which they think
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they are responsible. This may lead to problems when a directory node
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uses an older or newer network consensus than hidden service or client
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or when a directory node has been restarted recently. In fact, there are
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no security issues in storing or serving descriptors for which a
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directory node thinks it is not responsible. To the contrary, doing so
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may improve reliability in border cases. As a result, a directory node
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does not pay attention to responsibilty when receiving a publication or
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fetch request, but stores or serves the requested descriptor. Likewise,
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the directory node does not remove descriptors when it thinks it is not
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responsible for them any more.
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6. Avoid Periodic Descriptor Re-Publication
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In the current implementation a hidden service re-publishes its
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descriptor either when its content changes or an hour elapses. However,
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the evaluation has shown that failures of hidden service directory nodes,
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i.e. of nodes that have not failed within the last 24 hours, are very
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rare. Together with making descriptors persistent on directory nodes,
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there is no necessity to re-publish descriptors hourly.
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The only two events leading to descriptor re-publication should be a
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change of the descriptor content and a new directory node becoming
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responsible for the descriptor. Hidden services should therefore consider
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re-publication every time they learn about a new network consensus
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instead of hourly.
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7. Discard Expired Descriptors
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The current implementation lets directory nodes keep a descriptor for two
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days before discarding it. However, with the v2 design, descriptors are
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only valid for at most one day. Directory nodes should determine the
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validity of stored descriptors and discard them one hour after they have
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expired (to compensate wrong clocks on clients).
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8. Shorten Client-Side Descriptor Fetch History
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When clients try to download a hidden service descriptor, they memorize
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fetch requests to directory nodes for up to 15 minutes. This allows them
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to request all replicas of a descriptor to avoid bad or failing directory
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nodes, but without querying the same directory node twice.
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The downside is that a client that has requested a descriptor without
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success, will not be able to find a hidden service that has been started
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during the following 15 minutes after the client's last request.
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This can be improved by shortening the fetch history to only 5 minutes.
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This time should be sufficient to complete requests for all replicas of a
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descriptor, but without ending in an infinite request loop.
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Compatibility:
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All proposed improvements are compatible to the currently implemented
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design as described in proposal 114.
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