2007-05-28 18:45:40 +02:00
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Filename: 114-distributed-storage.txt
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Title: Distributed Storage for Tor Hidden Service Descriptors
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2007-06-17 00:37:23 +02:00
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Version: $Revision$
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Last-Modified: $Date$
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2007-05-28 18:45:40 +02:00
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Author: Karsten Loesing
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Created: 13-May-2007
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2007-12-07 22:27:58 +01:00
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Status: Closed
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2007-05-28 18:45:40 +02:00
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Change history:
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13-May-2007 Initial proposal
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2007-08-12 00:33:42 +02:00
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14-May-2007 Added changes suggested by Lasse Øverlier
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2007-05-30 11:01:10 +02:00
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30-May-2007 Changed descriptor format, key length discussion, typos
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2007-07-09 16:54:48 +02:00
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09-Jul-2007 Incorporated suggestions by Roger, added status of specification
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and implementation for upcoming GSoC mid-term evaluation
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2007-08-12 00:33:42 +02:00
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11-Aug-2007 Updated implementation statuses, included non-consecutive
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replication to descriptor format
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2007-08-20 18:32:00 +02:00
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20-Aug-2007 Renamed config option HSDir as HidServDirectoryV2
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2007-12-07 22:27:58 +01:00
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02-Dec-2007 Closed proposal
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2007-05-28 18:45:40 +02:00
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Overview:
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The basic idea of this proposal is to distribute the tasks of storing and
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serving hidden service descriptors from currently three authoritative
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2007-07-12 20:06:13 +02:00
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directory nodes among a large subset of all onion routers. The three
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reasons to do this are better robustness (availability), better
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scalability, and improved security properties. Further,
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2007-05-28 18:45:40 +02:00
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this proposal suggests changes to the hidden service descriptor format to
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2007-07-09 16:54:48 +02:00
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prevent new security threats coming from decentralization and to gain even
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better security properties.
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2007-12-07 22:27:58 +01:00
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Status:
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As of December 2007, the new hidden service descriptor format is implemented
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and usable. However, servers and clients do not yet make use of descriptor
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cookies, because there are open usability issues of this feature that might
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be resolved in proposal 121. Further, hidden service directories do not
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perform replication by themselves, because (unauthorized) replica fetch
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requests would allow any attacker to fetch all hidden service descriptors in
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the system. As neither issue is critical to the functioning of v2
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descriptors and their distribution, this proposal is considered as Closed.
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2007-07-09 16:54:48 +02:00
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Motivation:
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The current design of hidden services exhibits the following performance and
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security problems:
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First, the three hidden service authoritative directories constitute a
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2007-07-09 16:54:48 +02:00
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performance bottleneck in the system. The directory nodes are responsible for
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storing and serving all hidden service descriptors. As of May 2007 there are
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about 1000 descriptors at a time, but this number is assumed to increase in
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the future. Further, there is no replication protocol for descriptors between
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the three directory nodes, so that hidden services must ensure the
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2007-05-28 18:45:40 +02:00
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availability of their descriptors by manually publishing them on all
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directory nodes. Whenever a fourth or fifth hidden service authoritative
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2007-06-01 01:58:29 +02:00
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directory is added, hidden services will need to maintain an equally
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increasing number of replicas. These scalability issues have an impact on the
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current usage of hidden services and put an even higher burden on the
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2007-05-28 18:45:40 +02:00
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development of new kinds of applications for hidden services that might
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2007-07-12 20:06:13 +02:00
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require storing even more descriptors.
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Second, besides posing a limitation to scalability, storing all hidden
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service descriptors on three directory nodes also constitutes a security
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risk. The directory node operators could easily analyze the publish and fetch
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requests to derive information on service activity and usage and read the
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descriptor contents to determine which onion routers work as introduction
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2007-06-01 01:58:29 +02:00
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points for a given hidden service and need to be attacked or threatened to
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shut it down. Furthermore, the contents of a hidden service descriptor offer
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only minimal security properties to the hidden service. Whoever gets aware of
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the service ID can easily find out whether the service is active at the
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moment and which introduction points it has. This applies to (former)
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clients, (former) introduction points, and of course to the directory nodes.
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It requires only to request the descriptor for the given service ID, which
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can be performed by anyone anonymously.
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This proposal suggests two major changes to approach the described
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performance and security problems:
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2007-07-09 16:54:48 +02:00
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The first change affects the storage location for hidden service descriptors.
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Descriptors are distributed among a large subset of all onion routers instead
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of three fixed directory nodes. Each storing node is responsible for a subset
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of descriptors for a limited time only. It is not able to choose which
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descriptors it stores at a certain time, because this is determined by its
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onion ID which is hard to change frequently and in time (only routers which
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are stable for a given time are accepted as storing nodes). In order to
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resist single node failures and untrustworthy nodes, descriptors are
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replicated among a certain number of storing nodes. A first replication
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protocol makes sure that descriptors don't get lost when the node population
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changes; therefore, a storing node periodically requests the descriptors from
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its siblings. A second replication protocol distributes descriptors among
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non-consecutive nodes of the ID ring to prevent a group of adversaries from
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generating new onion keys until they have consecutive IDs to create a 'black
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hole' in the ring and make random services unavailable. Connections to
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storing nodes are established by extending existing circuits by one hop to
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the storing node. This also ensures that contents are encrypted. The effect
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of this first change is that the probability that a single node operator
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learns about a certain hidden service is very small and that it is very hard
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to track a service over time, even when it collaborates with other node
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operators.
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The second change concerns the content of hidden service descriptors.
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Obviously, security problems cannot be solved only by decentralizing storage;
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in fact, they could also get worse if done without caution. At first, a
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descriptor ID needs to change periodically in order to be stored on changing
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nodes over time. Next, the descriptor ID needs to be computable only for the
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service's clients, but should be unpredictable for all other nodes. Further,
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the storing node needs to be able to verify that the hidden service is the
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true originator of the descriptor with the given ID even though it is not a
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client. Finally, a storing node should learn as little information as
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necessary by storing a descriptor, because it might not be as trustworthy as
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a directory node; for example it does not need to know the list of
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introduction points. Therefore, a second key is applied that is only known to
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the hidden service provider and its clients and that is not included in the
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descriptor. It is used to calculate descriptor IDs and to encrypt the
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introduction points. This second key can either be given to all clients
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together with the hidden service ID, or to a group or a single client as
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2007-07-12 20:06:13 +02:00
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an authentication token. In the future this second key could be the result of
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2007-05-28 18:45:40 +02:00
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some key agreement protocol between the hidden service and one or more
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clients. A new text-based format is proposed for descriptors instead of an
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extension of the existing binary format for reasons of future extensibility.
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Design:
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2007-07-09 16:54:48 +02:00
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The proposed design is described by the required changes to the current
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design. These requirements are grouped by content, rather than by affected
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specification documents or code files, and numbered for reference below.
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Hidden service clients, servers, and directories:
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/1/ Create routing list
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All participants can filter the consensus status document received from the
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directory authorities to one routing list containing only those servers
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that store and serve hidden service descriptors and which are running for
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at least 24 hours. A participant only trusts its own routing list and never
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learns about routing information from other parties.
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/2/ Determine responsible hidden service directory
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All participants can determine the hidden service directory that is
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responsible for storing and serving a given ID, as well as the hidden
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service directories that replicate its content. Every hidden service
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directory is responsible for the descriptor IDs in the interval from
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its predecessor, exclusive, to its own ID, inclusive. Further, a hidden
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service directory holds replicas for its n predecessors, where n denotes
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the number of consecutive replicas. (requires /1/)
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2007-12-07 22:27:58 +01:00
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[/3/ and /4/ were requirements to use BEGIN_DIR cells for directory
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requests which have not been fulfilled in the course of the implementation
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of this proposal, but elsewhere.]
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Hidden service directory nodes:
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/5/ Advertise hidden service directory functionality
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Every onion router that has its directory port open can decide whether it
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wants to store and serve hidden service descriptors by setting a new config
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2007-08-20 18:30:49 +02:00
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option "HidServDirectoryV2" 0|1 to 1. An onion router with this config
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option being set includes the flag "hidden-service-dir" in its router
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descriptors that it sends to directory authorities.
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/6/ Accept v2 publish requests, parse and store v2 descriptors
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Hidden service directory nodes accept publish requests for hidden service
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descriptors and store them to their local memory. (It is not necessary to
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make descriptors persistent, because after disconnecting, the onion router
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would not be accepted as storing node anyway, because it has not been
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running for at least 24 hours.) All requests and replies are formatted as
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HTTP messages. Requests are directed to the router's directory port and are
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contained within BEGIN_DIR cells. A hidden service directory node stores a
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descriptor only when it thinks that it is responsible for storing that
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descriptor based on its own routing table. Every hidden service directory
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node is responsible for the descriptor IDs in the interval of its n-th
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predecessor in the ID circle up to its own ID (n denotes the number of
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consecutive replicas). (requires /1/)
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/7/ Accept v2 fetch requests
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Same as /6/, but with fetch requests for hidden service descriptors.
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(requires /2/)
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/8/ Replicate descriptors with neighbors
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A hidden service directory node replicates descriptors from its two
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predecessors by downloading them once an hour. Further, it checks its
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routing table periodically for changes. Whenever it realizes that a
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predecessor has left the network, it establishes a connection to the new
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n-th predecessor and requests its stored descriptors in the interval of its
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(n+1)-th predecessor and the requested n-th predecessor. Whenever it
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realizes that a new onion router has joined with an ID higher than its
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former n-th predecessor, it adds it to its predecessors and discards all
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descriptors in the interval of its (n+1)-th and its n-th predecessor.
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(requires /1/)
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2007-12-07 22:27:58 +01:00
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[Dec 02: This function has not been implemented, because arbitrary nodes
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what have been able to download the entire set of v2 descriptors. An
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authorized replication request would be necessary. For the moment, the
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system runs without any directory-side replication. -KL]
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Authoritative directory nodes:
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/9/ Confirm a router's hidden service directory functionality
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Directory nodes include a new flag "HSDir" for routers that decided to
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provide storage for hidden service descriptors and that are running for at
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least 24 hours. The last requirement prevents a node from frequently
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changing its onion key to become responsible for an identifier it wants to
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target.
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Hidden service provider:
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/10/ Configure v2 hidden service
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Each hidden service provider that has set the config option
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"PublishV2HidServDescriptors" 0|1 to 1 is configured to publish v2
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descriptors and conform to the v2 connection establishment protocol. When
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configuring a hidden service, a hidden service provider checks if it has
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already created a random secret_cookie and a hostname2 file; if not, it
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creates both of them. (requires /2/)
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/11/ Establish introduction points with fresh key
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If configured to publish only v2 descriptors and no v0/v1 descriptors any
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more, a hidden service provider that is setting up the hidden service at
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introduction points does not pass its own public key, but the public key
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of a freshly generated key pair. It also includes these fresh public keys
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in the hidden service descriptor together with the other introduction point
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information. The reason is that the introduction point does not need to and
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therefore should not know for which hidden service it works, so as to
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prevent it from tracking the hidden service's activity. (If a hidden
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service provider supports both, v0/v1 and v2 descriptors, v0/v1 clients
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rely on the fact that all introduction points accept the same public key,
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so that this new feature cannot be used.)
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/12/ Encode v2 descriptors and send v2 publish requests
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If configured to publish v2 descriptors, a hidden service provider
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publishes a new descriptor whenever its content changes or a new
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publication period starts for this descriptor. If the current publication
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period would only last for less than 60 minutes (= 2 x 30 minutes to allow
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the server to be 30 minutes behind and the client 30 minutes ahead), the
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hidden service provider publishes both a current descriptor and one for
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the next period. Publication is performed by sending the descriptor to all
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hidden service directories that are responsible for keeping replicas for
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the descriptor ID. This includes two non-consecutive replicas that are
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stored at 3 consecutive nodes each. (requires /1/ and /2/)
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Hidden service client:
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/13/ Send v2 fetch requests
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A hidden service client that has set the config option
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"FetchV2HidServDescriptors" 0|1 to 1 handles SOCKS requests for v2 onion
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addresses by requesting a v2 descriptor from a randomly chosen hidden
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service directory that is responsible for keeping replica for the
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descriptor ID. In total there are six replicas of which the first and the
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last three are stored on consecutive nodes. The probability of picking one
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of the three consecutive replicas is 1/6, 2/6, and 3/6 to incorporate the
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fact that the availability will be the highest on the node with next higher
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ID. A hidden service client relies on the hidden service provider to store
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two sets of descriptors to compensate clock skew between service and
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client. (requires /1/ and /2/)
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/14/ Process v2 fetch reply and parse v2 descriptors
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A hidden service client that has sent a request for a v2 descriptor can
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parse it and store it to the local cache of rendezvous service descriptors.
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/15/ Establish connection to v2 hidden service
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A hidden service client can establish a connection to a hidden service
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using a v2 descriptor. This includes using the secret cookie for decrypting
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the introduction points contained in the descriptor. When contacting an
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introduction point, the client does not use the public key of the hidden
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service provider, but the freshly-generated public key that is included in
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the hidden service descriptor. Whether or not a fresh key is used instead
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of the key of the hidden service depends on the available protocol versions
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that are included in the descriptor; by this, connection establishment is
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to a certain extend decoupled from fetching the descriptor.
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2007-05-28 18:45:40 +02:00
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Hidden service descriptor:
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2007-07-09 16:54:48 +02:00
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(Requirements concerning the descriptor format are contained in /6/ and /7/.)
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The new v2 hidden service descriptor format looks like this:
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onion-address = h(public-key) + cookie
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descriptor-id = h(h(public-key) + h(time-period + cookie + relica))
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descriptor-content = {
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descriptor-id,
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version,
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public-key,
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h(time-period + cookie + replica),
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timestamp,
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protocol-versions,
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{ introduction-points } encrypted with cookie
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} signed with private-key
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The "descriptor-id" needs to change periodically in order for the
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descriptor to be stored on changing nodes over time. It may only be
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computable by a hidden service provider and all of his clients to prevent
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unauthorized nodes from tracking the service activity by periodically
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checking whether there is a descriptor for this service. Finally, the
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hidden service directory needs to be able to verify that the hidden service
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provider is the true originator of the descriptor with the given ID.
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Therefore, "descriptor-id" is derived from the "public-key" of the hidden
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service provider, the current "time-period" which changes every 24 hours,
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2007-08-12 00:33:42 +02:00
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a secret "cookie" shared between hidden service provider and clients, and
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a "replica" denoting the number of this non-consecutive replica. (The
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"time-period" is constructed in a way that time periods do not change at
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the same moment for all descriptors by deriving a value between 0:00 and
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23:59 hours from h(public-key) and making the descriptors of this hidden
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2007-07-09 16:54:48 +02:00
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service provider expire at that time of the day.) The "descriptor-id" is
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defined to be 160 bits long. [extending the "descriptor-id" length
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2007-08-12 00:33:42 +02:00
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suggested by LØ]
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2007-07-09 16:54:48 +02:00
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Only the hidden service provider and the clients are able to generate
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future "descriptor-ID"s. Hence, the "onion-address" is extended from now
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the hash value of "public-key" by the secret "cookie". The "public-key" is
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determined to be 80 bits long, whereas the "cookie" is dimensioned to be
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120 bits long. This makes a total of 200 bits or 40 base32 chars, which is
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quite a lot to handle for a human, but necessary to provide sufficient
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protection against an adversary from generating a key pair with same
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"public-key" hash or guessing the "cookie".
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2007-05-28 18:45:40 +02:00
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A hidden service directory can verify that a descriptor was created by the
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2007-07-09 16:54:48 +02:00
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hidden service provider by checking if the "descriptor-id" corresponds to
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the "public-key" and if the signature can be verified with the
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"public-key".
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The "introduction-points" that are included in the descriptor are encrypted
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using the same "cookie" that is shared between hidden service provider and
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clients. [correction to use another key than h(time-period + cookie) as
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2007-08-12 00:33:42 +02:00
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encryption key for introduction points made by LØ]
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2007-05-28 18:45:40 +02:00
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2007-07-09 16:54:48 +02:00
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A new text-based format is proposed for descriptors instead of an extension
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of the existing binary format for reasons of future extensibility.
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2007-05-28 18:45:40 +02:00
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Security implications:
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2007-07-09 16:54:48 +02:00
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The security implications of the proposed changes are grouped by the roles of
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nodes that could perform attacks or on which attacks could be performed.
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2007-05-28 18:45:40 +02:00
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Attacks by authoritative directory nodes
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|
2007-07-12 20:06:13 +02:00
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Authoritative directory nodes are no longer the single places in the
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2007-05-28 18:45:40 +02:00
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network that know about a hidden service's activity and introduction
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points. Thus, they cannot perform attacks using this information, e.g.
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track a hidden service's activity or usage pattern or attack its
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introduction points. Formerly, it would only require a single corrupted
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authoritative directory operator to perform such an attack.
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Attacks by hidden service directory nodes
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|
2007-07-09 16:54:48 +02:00
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A hidden service directory node could misuse a stored descriptor to track a
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hidden service's activity and usage pattern by clients. Though there is no
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countermeasure against this kind of attack, it is very expensive to track a
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certain hidden service over time. An attacker would need to run a large
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number of stable onion routers that work as hidden service directory nodes
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to have a good probability to become responsible for its changing
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2007-05-28 18:45:40 +02:00
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descriptor IDs. For each period, the probability is:
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2007-07-12 20:06:13 +02:00
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1-(N-c choose r)/(N choose r) for N-c>=r and 1 otherwise, with N
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as total
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2007-05-28 18:45:40 +02:00
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number of hidden service directories, c as compromised nodes, and r as
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number of replicas
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The hidden service directory nodes could try to make a certain hidden
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service unavailable to its clients. Therefore, they could discard all
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stored descriptors for that hidden service and reply to clients that there
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is no descriptor for the given ID or return an old or false descriptor
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content. The client would detect a false descriptor, because it could not
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contain a correct signature. But an old content or an empty reply could
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confuse the client. Therefore, the countermeasure is to replicate
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2007-07-12 20:06:13 +02:00
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descriptors among a small number of hidden service directories, e.g. 5.
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The probability of a group of collaborating nodes to make a hidden service
|
2007-05-28 18:45:40 +02:00
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completely unavailable is in each period:
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|
2007-07-12 20:06:13 +02:00
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(c choose r)/(N choose r) for c>=r and N>=r, and 0 otherwise,
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with N as total
|
2007-05-28 18:45:40 +02:00
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number of hidden service directories, c as compromised nodes, and r as
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number of replicas
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A hidden service directory could try to find out which introduction points
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|
are working on behalf of a hidden service. In contrast to the previous
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design, this is not possible anymore, because this information is encrypted
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|
to the clients of a hidden service.
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Attacks on hidden service directory nodes
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|
An anonymous attacker could try to swamp a hidden service directory with
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|
false descriptors for a given descriptor ID. This is prevented by requiring
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that descriptors are signed.
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Anonymous attackers could swamp a hidden service directory with correct
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descriptors for non-existing hidden services. There is no countermeasure
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|
against this attack. However, the creation of valid descriptors is more
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|
expensive than verification and storage in local memory. This should make
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|
this kind of attack unattractive.
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Attacks by introduction points
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|
Current or former introduction points could try to gain information on the
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|
hidden service they serve. But due to the fresh key pair that is used by
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|
the hidden service, this attack is not possible anymore.
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|
Attacks by clients
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|
Current or former clients could track a hidden service's activity, attack
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|
its introduction points, or determine the responsible hidden service
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|
directory nodes and attack them. There is nothing that could prevent them
|
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|
from doing so, because honest clients need the full descriptor content to
|
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|
establish a connection to the hidden service. At the moment, the only
|
2007-07-09 16:54:48 +02:00
|
|
|
countermeasure against dishonest clients is to change the secret cookie and
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|
|
pass it only to the honest clients.
|
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|
Compatibility:
|
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|
|
The proposed design is meant to replace the current design for hidden service
|
|
|
|
descriptors and their storage in the long run.
|
|
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|
There should be a first transition phase in which both, the current design
|
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|
|
and the proposed design are served in parallel. Onion routers should start
|
|
|
|
serving as hidden service directories, and hidden service providers and
|
|
|
|
clients should make use of the new design if both sides support it. Hidden
|
|
|
|
service providers should be allowed to publish descriptors of the current
|
|
|
|
format in parallel, and authoritative directories should continue storing and
|
|
|
|
serving these descriptors.
|
|
|
|
|
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|
|
After the first transition phase, hidden service providers should stop
|
|
|
|
publishing descriptors on authoritative directories, and hidden service
|
|
|
|
clients should not try to fetch descriptors from the authoritative
|
|
|
|
directories. However, the authoritative directories should continue serving
|
|
|
|
hidden service descriptors for a second transition phase. As of this point,
|
|
|
|
all v2 config options should be set to a default value of 1.
|
|
|
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|
|
After the second transition phase, the authoritative directories should stop
|
|
|
|
serving hidden service descriptors.
|
2007-05-28 18:45:40 +02:00
|
|
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|