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267 lines
7.9 KiB
267 lines
7.9 KiB
12 years ago
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============================================
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BitTorrent extension for arbitrary DHT store
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============================================
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:Author: Arvid Norberg, arvid@rasterbar.com
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:Version: 1.0.0
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.. contents:: Table of contents
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:depth: 2
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:backlinks: none
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This is a proposal for an extension to the BitTorrent DHT to allow
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storing and retrieving of arbitrary data.
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It supports both storing *immutable* items, where the key is
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the SHA-1 hash of the data itself, and *mutable* items, where
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the key is the public key of the key pair used to sign the data.
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There are two new proposed messages, ``put`` and ``get``.
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terminology
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-----------
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In this document, a *storage node* refers to the node in the DHT to which
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an item is being announced and stored on. A *subscribing node* refers to
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a node which makes look-ups in the DHT to find the storage nodes, to
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request items from them, and possibly re-announce those items to keep them
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alive.
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messages
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--------
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The proposed new messages ``get`` and ``put`` are similar to the existing ``get_peers``
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and ``announce_peer``.
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Responses to ``get`` should always include ``nodes`` and ``nodes6`` has the same
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semantics as in its ``get_peers`` response. It should also include a write token,
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``token``, with the same semantics as ``get_peers``.
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The ``id`` field in these messages has the same semantics as the standard DHT messages,
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i.e. the node ID of the node sending the message, to maintain the structure of the DHT
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network.
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The ``token`` field also has the same semantics as the standard DHT message ``get_peers``
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and ``announce_peer``, when requesting an item and to write an item respectively.
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The ``k`` field is the PKCS#1 encoded 2048 bit RSA public key, which the signature
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can be authenticated with. When looking up a mutable item, the ``target`` field
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MUST be the SHA-1 hash of this key.
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The distinction between storing mutable and immutable items is the inclusion
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of a public key, a sequence number and signature (``k``, ``seq`` and ``sig``).
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``get`` requests for mutable items and immutable items cannot be distinguished from
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eachother. An implementation can either store mutable and immutable items in the same
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hash table internally, or in separate ones and potentially do two lookups for ``get``
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requests.
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The ``v`` field is the *value* to be stored. It is allowed to be any bencoded type (list,
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dict, string or integer). When it's being hashed (for verifying its signature or to calculate
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its key), its flattened, bencoded, form is used. It is important to use the exact
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bencoded representation as it appeared in the message. decoding and then re-encoding
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bencoded structures is not necessarily an identity operation.
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Storing nodes SHOULD reject ``put`` requests where the bencoded form of ``v`` is longer
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than 767 bytes.
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immutable items
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---------------
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Immutable items are stored under their SHA-1 hash, and since they cannot be modified,
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there is no need to authenticate the origin of them. This makes immutable items simple.
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A node making a lookup SHOULD verify the data it receives from the network, to verify
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that its hash matches the target that was looked up.
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put message
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...........
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Request:
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.. parsed-literal::
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{
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"a":
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{
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"id": *<20 byte id of sending node (string)>*,
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"v": *<any bencoded type, whose encoded size < 768>*
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},
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"t": *<transaction-id (string)>*,
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"y": "q",
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"q": "put"
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}
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Response:
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.. parsed-literal::
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{
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"r": { "id": *<20 byte id of sending node (string)>* },
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"t": *<transaction-id (string)>*,
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"y": "r",
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}
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get message
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...........
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Request:
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.. parsed-literal::
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{
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"a":
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{
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"id": *<20 byte id of sending node (string)>*,
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"target": *<SHA-1 hash of item (string)>*,
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},
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"t": *<transaction-id (string)>*,
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"y": "q",
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"q": "get"
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}
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Response:
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.. parsed-literal::
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{
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"r":
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{
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"id": *<20 byte id of sending node (string)>*,
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"token": *<write token (string)>*,
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"v": *<any bencoded type whose SHA-1 hash matches 'target'>*,
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"nodes": *<IPv4 nodes close to 'target'>*,
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"nodes6": *<IPv6 nodes close to 'target'>*
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},
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"t": *<transaction-id>*,
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"y": "r",
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}
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mutable items
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-------------
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Mutable items can be updated, without changing their DHT keys. To authenticate
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that only the original publisher can update an item, it is signed by a private key
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generated by the original publisher. The target ID mutable items are stored under
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is the SHA-1 hash of the public key (as it appears in the ``put`` message).
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In order to avoid a malicious node to overwrite the list head with an old
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version, the sequence number ``seq`` must be monotonically increasing for each update,
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and a node hosting the list node MUST not downgrade a list head from a higher sequence
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number to a lower one, only upgrade. The sequence number SHOULD not exceed ``MAX_INT64``,
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(i.e. ``0x7fffffffffffffff``. A client MAY reject any message with a sequence number
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exceeding this.
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The signature is a 2048 bit RSA signature of the SHA-1 hash of the bencoded sequence
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number and ``v`` key. e.g. something like this:: ``3:seqi4e1:v12:Hello world!``.
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put message
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...........
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Request:
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.. parsed-literal::
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{
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"a":
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{
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"id": *<20 byte id of sending node (string)>*,
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"k": *<RSA-2048 public key (PKCS#1 encoded)>*,
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"seq": *<monotonically increasing sequence number (integer)>*,
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"sig": *<RSA-2048 signature (256 bytes string)>*,
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"token": *<write-token (string)>*,
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"v": *<any bencoded type, whose encoded size < 768>*
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},
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"t": *<transaction-id (string)>*,
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"y": "q",
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"q": "put"
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}
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Storing nodes receiving a ``put`` request where ``seq`` is lower than what's already
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stored on the node, MUST reject the request.
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Response:
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.. parsed-literal::
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{
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"r": { "id": *<20 byte id of sending node (string)>* },
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"t": *<transaction-id (string)>*,
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"y": "r",
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}
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get message
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...........
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Request:
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.. parsed-literal::
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{
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"a":
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{
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"id": *<20 byte id of sending node (string)>*,
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"target:" *<20 byte SHA-1 hash of public key (string)>*
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},
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"t": *<transaction-id (string)>*,
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"y": "q",
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"q": "get"
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}
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Response:
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.. parsed-literal::
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{
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"r":
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{
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"id": *<20 byte id of sending node (string)>*,
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"k": *<RSA-2048 public key (268 bytes string)>*,
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"nodes": *<IPv4 nodes close to 'target'>*,
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"nodes6": *<IPv6 nodes close to 'target'>*,
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"seq": *<monotonically increasing sequence number (integer)>*,
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"sig": *<RSA-2048 signature (256 bytes string)>*,
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"token": *<write-token (string)>*,
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"v": *<any bencoded type, whose encoded size < 768>*
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},
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"t": *<transaction-id (string)>*,
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"y": "r",
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}
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signature verification
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----------------------
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In order to make it maximally difficult to attack the bencoding parser, signing and verification of the
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value and sequence number should be done as follows:
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1. encode value and sequence number separately
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2. concatenate "3:seqi" ``seq`` "e1:v" and the encoded value.
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sequence number 1 of value "Hello World!" would be converted to: 3:seqi1e1:v12:Hello World!
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In this way it is not possible to convince a node that part of the length is actually part of the
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sequence number even if the parser contains certain bugs. Furthermore it is not possible to have a
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verification failure if a bencoding serializer alters the order of entries in the dictionary.
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3. hash the concatenated string with SHA-1
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4. sign or verify the hash digest.
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On the storage node, the signature MUST be verified before accepting the store command. The data
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MUST be stored under the SHA-1 hash of the public key (as it appears in the bencoded dict).
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On the subscribing nodes, the key they get back from a ``get`` request MUST be verified to hash
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to the target ID the lookup was made for, as well as verifying the signature. If any of these fail,
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the response SHOULD be considered invalid.
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expiration
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----------
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Without re-announcement, these items MAY expire in 2 hours. In order
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to keep items alive, they SHOULD be re-announced once an hour.
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Subscriber nodes MAY help out in announcing items the are interested in to the DHT,
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to keep them alive.
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test vectors
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------------
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