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- $Id$
- Tor Rendezvous Specification
- 0. Overview and preliminaries
- Read http://tor.eff.org/doc/design-paper/tor-design.html#sec:rendezvous
- before you read this specification. It will make more sense.
- Rendezvous points provide location-hidden services (server
- anonymity) for the onion routing network. With rendezvous points,
- Bob can offer a TCP service (say, a webserver) via the onion
- routing network, without revealing the IP of that service.
- Bob does this by anonymously advertising a public key for his
- service, along with a list of onion routers to act as "Introduction
- Points" for his service. He creates forward circuits to those
- introduction points, and tells them about his public key. To
- connect to Bob, Alice first builds a circuit to an OR to act as
- her "Rendezvous Point." She then connects to one of Bob's chosen
- introduction points, optionally provides authentication or
- authorization information, and asks it to tell him about her Rendezvous
- Point (RP). If Bob chooses to answer, he builds a circuit to her
- RP, and tells it to connect him to Alice. The RP joins their
- circuits together, and begins relaying cells. Alice's 'BEGIN'
- cells are received directly by Bob's OP, which passes data to
- and from the local server implementing Bob's service.
- Below we describe a network-level specification of this service,
- along with interfaces to make this process transparent to Alice
- (so long as she is using an OP).
- 0.1. Notation, conventions and prerequisites
- In the specifications below, we use the same notation and terminology
- as in "tor-spec.txt". The service specified here also requires the
- existence of an onion routing network as specified in that file.
- H(x) is a SHA1 digest of x.
- PKSign(SK,x) is a PKCS.1-padded RSA signature of x with SK.
- PKEncrypt(SK,x) is a PKCS.1-padded RSA encryption of x with SK.
- Public keys are all RSA, and encoded in ASN.1.
- All integers are stored in network (big-endian) order.
- All symmetric encryption uses AES in counter mode, except where
- otherwise noted.
- In all discussions, "Alice" will refer to a user connecting to a
- location-hidden service, and "Bob" will refer to a user running a
- location-hidden service.
- An OP is (as defined elsewhere) an "Onion Proxy" or Tor client.
- An OR is (as defined elsewhere) an "Onion Router" or Tor server.
- An "Introduction point" is a Tor server chosen to be Bob's medium-term
- 'meeting place'. A "Rendezvous point" is a Tor server chosen by Alice to
- be a short-term communication relay between her and Bob. All Tor servers
- potentially act as introduction and rendezvous points.
- 0.2. Protocol outline
- 1. Bob->Bob's OP: "Offer IP:Port as
- public-key-name:Port". [configuration]
- (We do not specify this step; it is left to the implementor of
- Bob's OP.)
- 2. Bob's OP generates keypair and rendezvous service descriptor:
- "Meet public-key X at introduction point A, B, or C." (signed)
- 3. Bob's OP->Introduction point via Tor: [introduction setup]
- "This pk is me."
- 4. Bob's OP->directory service via Tor: publishes Bob's service
- descriptor [advertisement]
- 5. Out of band, Alice receives a [x.y.]z.onion:port address.
- She opens a SOCKS connection to her OP, and requests
- x.y.z.onion:port.
- 6. Alice's OP retrieves Bob's descriptor via Tor. [descriptor lookup.]
- 7. Alice's OP chooses a rendezvous point, opens a circuit to that
- rendezvous point, and establishes a rendezvous circuit. [rendezvous
- setup.]
- 8. Alice connects to the Introduction point via Tor, and tells it about
- her rendezvous point and optional authentication/authorization
- information. (Encrypted to Bob.) [Introduction 1]
- 9. The Introduction point passes this on to Bob's OP via Tor, along the
- introduction circuit. [Introduction 2]
- 10. Bob's OP decides whether to connect to Alice, and if so, creates a
- circuit to Alice's RP via Tor. Establishes a shared circuit.
- [Rendezvous.]
- 11. Alice's OP sends begin cells to Bob's OP. [Connection]
- 0.3. Constants and new cell types
- Relay cell types
- 32 -- RELAY_ESTABLISH_INTRO
- 33 -- RELAY_ESTABLISH_RENDEZVOUS
- 34 -- RELAY_INTRODUCE1
- 35 -- RELAY_INTRODUCE2
- 36 -- RELAY_RENDEZVOUS1
- 37 -- RELAY_RENDEZVOUS2
- 38 -- RELAY_INTRO_ESTABLISHED
- 39 -- RELAY_RENDEZVOUS_ESTABLISHED
- 40 -- RELAY_COMMAND_INTRODUCE_ACK
- 1. The Protocol
- 1.1. Bob configures his local OP.
- We do not specify a format for the OP configuration file. However,
- OPs SHOULD allow Bob to provide more than one advertised service
- per OP, and MUST allow Bob to specify one or more virtual ports per
- service. Bob provides a mapping from each of these virtual ports
- to a local IP:Port pair.
- 1.2. Bob's OP generates service descriptors.
- The first time the OP provides an advertised service, it generates
- a public/private keypair (stored locally). Periodically, the OP
- generates a pair of service descriptors, one "V1" and one "V0".
- The "V1" descriptor in 0.1.1.6-alpha contains:
- V Format byte: set to 255 [1 octet]
- V Version byte: set to 1 [1 octet]
- KL Key length [2 octets]
- PK Bob's public key [KL octets]
- TS A timestamp [4 octets]
- PROTO Rendezvous protocol versions: bitmask [2 octets]
- NA Number of auth mechanisms accepted [1 octet]
- For each auth mechanism:
- AUTHT The auth type that is supported [2 octets]
- AUTHL Length of auth data [1 octet]
- AUTHD Auth data [variable]
- NI Number of introduction points [2 octets]
- For each introduction point: (as in INTRODUCE2 cells)
- ATYPE An address type (typically 4) [1 octet]
- ADDR Introduction point's IP address [4 or 16 octets]
- PORT Introduction point's OR port [2 octets]
- AUTHT The auth type that is supported [2 octets]
- AUTHL Length of auth data [1 octet]
- AUTHD Auth data [variable]
- ID Introduction point identity ID [20 octets]
- KLEN Length of onion key [2 octets]
- KEY Introduction point onion key [KLEN octets]
- SIG Signature of above fields [variable]
- The "V1" descriptor in 0.1.1.5-alpha-cvs contains:
- V Format byte: set to 255 [1 octet]
- V Version byte: set to 1 [1 octet]
- KL Key length [2 octets]
- PK Bob's public key [KL octets]
- TS A timestamp [4 octets]
- PROTO Protocol versions: bitmask [2 octets]
- NI Number of introduction points [2 octets]
- For each introduction point: (as in INTRODUCE2 cells)
- IP Introduction point's address [4 octets]
- PORT Introduction point's OR port [2 octets]
- ID Introduction point identity ID [20 octets]
- KLEN Length of onion key [2 octets]
- KEY Introduction point onion key [KLEN octets]
- SIG Signature of above fields [variable]
- The "V0" descriptor contains:
- KL Key length [2 octets]
- PK Bob's public key [KL octets]
- TS A timestamp [4 octets]
- NI Number of introduction points [2 octets]
- Ipt A list of NUL-terminated ORs [variable]
- SIG Signature of above fields [variable]
- KL is the length of PK, in octets.
- TS is the number of seconds elapsed since Jan 1, 1970.
- AUTHT specifies which authentication/authorization mechanism is
- required by the hidden service or the introduction point. AUTHD
- is arbitrary data that can be associated with an auth approach.
- Currently only AUTHT of [00 00] is supported, with an AUTHL of 0.
- See section 2 of this document for details on auth mechanisms.
- The members of Ipt may be either (a) nicknames, or (b) identity key
- digests, encoded in hex, and prefixed with a '$'. Clients must
- accept both forms. Services must only generate the second form.
- Once 0.0.9.x is obsoleted, we can drop the first form.
- [It's ok for Bob to advertise 0 introduction points. He might want
- to do that if he previously advertised some introduction points,
- and now he doesn't have any. -RD]
- [Once Tor 0.1.0.x is obsolete, we can stop generating or using V0
- descriptors. -NM]
- 1.3. Bob's OP establishes his introduction points.
- The OP establishes a new introduction circuit to each introduction
- point. These circuits MUST NOT be used for anything but rendezvous
- introduction. To establish the introduction, Bob sends a
- RELAY_ESTABLISH_INTRO cell, containing:
- KL Key length [2 octets]
- PK Bob's public key [KL octets]
- HS Hash of session info [20 octets]
- SIG Signature of above information [variable]
- [XXX011, need to add auth information here. -RD]
- To prevent replay attacks, the HS field contains a SHA-1 hash based on the
- shared secret KH between Bob's OP and the introduction point, as
- follows:
- HS = H(KH | "INTRODUCE")
- That is:
- HS = H(KH | [49 4E 54 52 4F 44 55 43 45])
- (KH, as specified in tor-spec.txt, is H(g^xy | [00]) .)
- Upon receiving such a cell, the OR first checks that the signature is
- correct with the included public key. If so, it checks whether HS is
- correct given the shared state between Bob's OP and the OR. If either
- check fails, the OP discards the cell; otherwise, it associates the
- circuit with Bob's public key, and dissociates any other circuits
- currently associated with PK. On success, the OR sends Bob a
- RELAY_INTRO_ESTABLISHED cell with an empty payload.
- 1.4. Bob's OP advertises his service descriptor(s).
- Bob's OP opens a stream to each directory server's directory port via Tor.
- (He may re-use old circuits for this.) Over this stream, Bob's OP makes
- an HTTP 'POST' request, to a URL "/tor/rendezvous/publish" relative to the
- directory server's root, containing as its body Bob's service descriptor.
- Bob should upload a service descriptor for each version format that
- is supported in the current Tor network.
- Upon receiving a descriptor, the directory server checks the signature,
- and discards the descriptor if the signature does not match the enclosed
- public key. Next, the directory server checks the timestamp. If the
- timestamp is more than 24 hours in the past or more than 1 hour in the
- future, or the directory server already has a newer descriptor with the
- same public key, the server discards the descriptor. Otherwise, the
- server discards any older descriptors with the same public key and
- version format, and associates the new descriptor with the public key.
- The directory server remembers this descriptor for at least 24 hours
- after its timestamp. At least every 18 hours, Bob's OP uploads a
- fresh descriptor.
- 1.5. Alice receives a x.y.z.onion address.
- When Alice receives a pointer to a location-hidden service, it is as a
- hostname of the form "z.onion" or "y.z.onion" or "x.y.z.onion", where
- z is a base-32 encoding of a 10-octet hash of Bob's service's public
- key, computed as follows:
- 1. Let H = H(PK).
- 2. Let H' = the first 80 bits of H, considering each octet from
- most significant bit to least significant bit.
- 2. Generate a 16-character encoding of H', using base32 as defined
- in RFC 3548.
- (We only use 80 bits instead of the 160 bits from SHA1 because we
- don't need to worry about arbitrary collisions, and because it will
- make handling the url's more convenient.)
- The string "x", if present, is the base-32 encoding of the
- authentication/authorization required by the introduction point.
- The string "y", if present, is the base-32 encoding of the
- authentication/authorization required by the hidden service.
- Omitting a string is taken to mean auth type [00 00].
- See section 2 of this document for details on auth mechanisms.
- [Yes, numbers are allowed at the beginning. See RFC 1123. -NM]
- 1.6. Alice's OP retrieves a service descriptor.
- Alice opens a stream to a directory server via Tor, and makes an HTTP GET
- request for the document '/tor/rendezvous/<z>' or '/tor/rendezvous1/<z>',
- where '<z>' is replaced with the encoding of Bob's public key as described
- above. (She may re-use old circuits for this.) The directory replies with
- a 404 HTTP response if it does not recognize <z>, and otherwise returns
- Bob's most recently uploaded service descriptor. (If Alice requests
- 'rendezvous1', the directory server provides a V1 descriptor or a V0
- descriptor if no V1 descriptor is available. If Alice requests
- 'rendezvous', the directory server returns a V0 descriptor.)
- If Alice's OP receives a 404 response, it tries the other directory
- servers, and only fails the lookup if none recognize the public key hash.
- Upon receiving a service descriptor, Alice verifies with the same process
- as the directory server uses, described above in section 1.4.
- The directory server gives a 400 response if it cannot understand Alice's
- request.
- Alice should cache the descriptor locally, but should not use
- descriptors that are more than 24 hours older than their timestamp.
- [Caching may make her partitionable, but she fetched it anonymously,
- and we can't very well *not* cache it. -RD]
- 1.7. Alice's OP establishes a rendezvous point.
- When Alice requests a connection to a given location-hidden service,
- and Alice's OP does not have an established circuit to that service,
- the OP builds a rendezvous circuit. It does this by establishing
- a circuit to a randomly chosen OR, and sending a
- RELAY_ESTABLISH_RENDEZVOUS cell to that OR. The body of that cell
- contains:
- RC Rendezvous cookie [20 octets]
- [XXX011 this looks like an auth mechanism. should we generalize here? -RD]
- The rendezvous cookie is an arbitrary 20-byte value, chosen randomly by
- Alice's OP.
- Upon receiving a RELAY_ESTABLISH_RENDEZVOUS cell, the OR associates the
- RC with the circuit that sent it. It replies to Alice with an empty
- RELAY_RENDEZVOUS_ESTABLISHED cell to indicate success.
- Alice's OP MUST NOT use the circuit which sent the cell for any purpose
- other than rendezvous with the given location-hidden service.
- 1.8. Introduction: from Alice's OP to Introduction Point
- Alice builds a separate circuit to one of Bob's chosen introduction
- points, and sends it a RELAY_INTRODUCE1 cell containing:
- Cleartext
- PK_ID Identifier for Bob's PK [20 octets]
- [XXX011 want to put intro-level auth info here, but no version. crap. -RD]
- Encrypted to Bob's PK:
- RP Rendezvous point's nickname [20 octets]
- RC Rendezvous cookie [20 octets]
- g^x Diffie-Hellman data, part 1 [128 octets]
- OR
- VER Version byte: set to 1. [1 octet]
- RP Rendezvous point nick or ID [42 octets]
- RC Rendezvous cookie [20 octets]
- g^x Diffie-Hellman data, part 1 [128 octets]
- OR
- VER Version byte: set to 2. [1 octet]
- IP Rendezvous point's address [4 octets]
- PORT Rendezvous point's OR port [2 octets]
- ID Rendezvous point identity ID [20 octets]
- KLEN Length of onion key [2 octets]
- KEY Rendezvous point onion key [KLEN octets]
- RC Rendezvous cookie [20 octets]
- g^x Diffie-Hellman data, part 1 [128 octets]
- OR
- VER Version byte: set to 3. [1 octet]
- ATYPE An address type (typically 4) [1 octet]
- ADDR Rendezvous point's IP address [4 or 16 octets]
- PORT Rendezvous point's OR port [2 octets]
- AUTHT The auth type that is supported [2 octets]
- AUTHL Length of auth data [1 octet]
- AUTHD Auth data [variable]
- ID Rendezvous point identity ID [20 octets]
- KLEN Length of onion key [2 octets]
- KEY Rendezvous point onion key [KLEN octets]
- RC Rendezvous cookie [20 octets]
- g^x Diffie-Hellman data, part 1 [128 octets]
- PK_ID is the hash of Bob's public key. RP is NUL-padded and terminated,
- and must contain EITHER a nickname, or an identity key digest, encoded in
- hex, and prefixed with a '$'.
- Implementations SHOULD accept all variants, and list the variants they
- accept in their V1 descriptor. Implementations should only generate the
- variants listed in the service's V1 descriptor; if no V1 descriptor is
- available, only the first variant should be generated. No version should
- generate the second variant (version byte=1).
- The hybrid encryption to Bob's PK works just like the hybrid
- encryption in CREATE cells (see main spec). Thus the payload of the
- RELAY_INTRODUCE1 cell on the wire will contain 20+42+16+20+20+128=246
- bytes. [XXXX not really]
- 1.9. Introduction: From the Introduction Point to Bob's OP
- If the Introduction Point recognizes PK_ID as a public key which has
- established a circuit for introductions as in 1.3 above, it sends the body
- of the cell in a new RELAY_INTRODUCE2 cell down the corresponding circuit.
- (If the PK_ID is unrecognized, the RELAY_INTRODUCE1 cell is discarded.)
- After sending the RELAY_INTRODUCE2 cell, the OR replies to Alice with an
- empty RELAY_COMMAND_INTRODUCE_ACK cell. If no RELAY_INTRODUCE2 cell can
- be sent, the OR replies to Alice with a non-empty cell to indicate an
- error. (The semantics of the cell body may be determined later; the
- current implementation sends a single '1' byte on failure.)
- When Bob's OP receives the RELAY_INTRODUCE2 cell, it decrypts it with
- the private key for the corresponding hidden service, and extracts the
- rendezvous point's nickname, the rendezvous cookie, and the value of g^x
- chosen by Alice.
- 1.10. Rendezvous
- Bob's OP builds a new Tor circuit ending at Alice's chosen rendezvous
- point, and sends a RELAY_RENDEZVOUS1 cell along this circuit, containing:
- RC Rendezvous cookie [20 octets]
- g^y Diffie-Hellman [128 octets]
- KH Handshake digest [20 octets]
- (Bob's OP MUST NOT use this circuit for any other purpose.)
- If the RP recognizes RC, it relays the rest of the cell down the
- corresponding circuit in a RELAY_RENDEZVOUS2 cell, containing:
- g^y Diffie-Hellman [128 octets]
- KH Handshake digest [20 octets]
- (If the RP does not recognize the RC, it discards the cell and
- tears down the circuit.)
- When Alice's OP receives a RELAY_RENDEZVOUS2 cell on a circuit which
- has sent a RELAY_ESTABLISH_RENDEZVOUS cell but which has not yet received
- a reply, it uses g^y and H(g^xy) to complete the handshake as in the Tor
- circuit extend process: they establish a 60-octet string as
- K = SHA1(g^xy | [00]) | SHA1(g^xy | [01]) | SHA1(g^xy | [02])
- and generate
- KH = K[0..15]
- Kf = K[16..31]
- Kb = K[32..47]
- Subsequently, the rendezvous point passes relay cells, unchanged, from
- each of the two circuits to the other. When Alice's OP sends
- RELAY cells along the circuit, it first encrypts them with the
- Kf, then with all of the keys for the ORs in Alice's side of the circuit;
- and when Alice's OP receives RELAY cells from the circuit, it decrypts
- them with the keys for the ORs in Alice's side of the circuit, then
- decrypts them with Kb. Bob's OP does the same, with Kf and Kb
- interchanged.
- 1.11. Creating streams
- To open TCP connections to Bob's location-hidden service, Alice's OP sends
- a RELAY_BEGIN cell along the established circuit, using the special
- address "", and a chosen port. Bob's OP chooses a destination IP and
- port, based on the configuration of the service connected to the circuit,
- and opens a TCP stream. From then on, Bob's OP treats the stream as an
- ordinary exit connection.
- [ Except he doesn't include addr in the connected cell or the end
- cell. -RD]
- Alice MAY send multiple RELAY_BEGIN cells along the circuit, to open
- multiple streams to Bob. Alice SHOULD NOT send RELAY_BEGIN cells for any
- other address along her circuit to Bob; if she does, Bob MUST reject them.
- 2. Authentication and authorization.
- Foo.
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