[tor-commits] [bridgedb/master] Remove doc/bridge-db-spec.txt; it lives in torspec.git now.
isis at torproject.org
isis at torproject.org
Fri May 16 18:52:51 UTC 2014
commit 639cef05249121692cb4280034e97a3ed6ffb4df
Author: Isis Lovecruft <isis at torproject.org>
Date: Wed Apr 23 05:27:49 2014 +0000
Remove doc/bridge-db-spec.txt; it lives in torspec.git now.
https://gitweb.torproject.org/torspec.git/blob/HEAD:/bridgedb-spec.txt
---
doc/bridge-db-spec.txt | 391 ------------------------------------------------
1 file changed, 391 deletions(-)
diff --git a/doc/bridge-db-spec.txt b/doc/bridge-db-spec.txt
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-
- BridgeDB specification
-
- Karsten Loesing
- Nick Mathewson
-
-0. Preliminaries
-
- This document specifies how BridgeDB processes bridge descriptor files
- to learn about new bridges, maintains persistent assignments of bridges
- to distributors, and decides which bridges to give out upon user
- requests.
-
- Some of the decisions here may be suboptimal: this document is meant to
- specify current behavior as of August 2013, not to specify ideal
- behavior.
-
-1. Importing bridge network statuses and bridge descriptors
-
- BridgeDB learns about bridges by parsing bridge network statuses,
- bridge descriptors, and extra info documents as specified in Tor's
- directory protocol. BridgeDB parses one bridge network status file
- first and at least one bridge descriptor file and potentially one extra
- info file afterwards.
-
- BridgeDB scans its files on sighup.
-
- BridgeDB does not validate signatures on descriptors or networkstatus
- files: the operator needs to make sure that these documents have come
- from a Tor instance that did the validation for us.
-
-1.1. Parsing bridge network statuses
-
- Bridge network status documents contain the information of which bridges
- are known to the bridge authority and which flags the bridge authority
- assigns to them.
- We expect bridge network statuses to contain at least the following two
- lines for every bridge in the given order (format fully specified in Tor's
- directory protocol):
-
- "r" SP nickname SP identity SP digest SP publication SP IP SP ORPort
- SP DirPort NL
- "a" SP address ":" port NL (no more than 8 instances)
- "s" SP Flags NL
-
- BridgeDB parses the identity and the publication timestamp from the "r"
- line, the OR address(es) and ORPort(s) from the "a" line(s), and the
- assigned flags from the "s" line, specifically checking the assignment
- of the "Running" and "Stable" flags.
- BridgeDB memorizes all bridges that have the Running flag as the set of
- running bridges that can be given out to bridge users.
- BridgeDB memorizes assigned flags if it wants to ensure that sets of
- bridges given out should contain at least a given number of bridges
- with these flags.
-
-1.2. Parsing bridge descriptors
-
- BridgeDB learns about a bridge's most recent IP address and OR port
- from parsing bridge descriptors.
- In theory, both IP address and OR port of a bridge are also contained
- in the "r" line of the bridge network status, so there is no mandatory
- reason for parsing bridge descriptors. But the functionality described
- in this section is still implemented in case we need data from the
- bridge descriptor in the future.
-
- Bridge descriptor files may contain one or more bridge descriptors.
- We expect a bridge descriptor to contain at least the following lines in
- the stated order:
-
- "@purpose" SP purpose NL
- "router" SP nickname SP IP SP ORPort SP SOCKSPort SP DirPort NL
- "published" SP timestamp
- ["opt" SP] "fingerprint" SP fingerprint NL
- "router-signature" NL Signature NL
-
- BridgeDB parses the purpose, IP, ORPort, nickname, and fingerprint
- from these lines.
- BridgeDB skips bridge descriptors if the fingerprint is not contained
- in the bridge network status parsed earlier or if the bridge does not
- have the Running flag.
- BridgeDB discards bridge descriptors which have a different purpose
- than "bridge". BridgeDB can be configured to only accept descriptors
- with another purpose or not discard descriptors based on purpose at
- all.
- BridgeDB memorizes the IP addresses and OR ports of the remaining
- bridges.
- If there is more than one bridge descriptor with the same fingerprint,
- BridgeDB memorizes the IP address and OR port of the most recently
- parsed bridge descriptor.
- If BridgeDB does not find a bridge descriptor for a bridge contained in
- the bridge network status parsed before, it does not add that bridge
- to the set of bridges to be given out to bridge users.
-
-1.3. Parsing extra-info documents
-
- BridgeDB learns if a bridge supports a pluggable transport by parsing
- extra-info documents.
- Extra-info documents contain the name of the bridge (but only if it is
- named), the bridge's fingerprint, the type of pluggable transport(s) it
- supports, and the IP address and port number on which each transport
- listens, respectively.
-
- Extra-info documents may contain zero or more entries per bridge. We expect
- an extra-info entry to contain the following lines in the stated order:
-
- "extra-info" SP name SP fingerprint NL
- "transport" SP transport SP IP ":" PORT ARGS NL
-
- BridgeDB parses the fingerprint, transport type, IP address, port and any
- arguments that are specified on these lines. BridgeDB skips the name. If
- the fingerprint is invalid, BridgeDB skips the entry. BridgeDB memorizes
- the transport type, IP address, port number, and any arguments that are be
- provided and then it assigns them to the corresponding bridge based on the
- fingerprint. Arguments are comma-separated and are of the form k=v,k=v.
- Bridges that do not have an associated extra-info entry are not invalid.
-
-2. Assigning bridges to distributors
-
- A "distributor" is a mechanism by which bridges are given (or not
- given) to clients. The current distributors are "email", "https",
- and "unallocated".
-
- BridgeDB assigns bridges to distributors based on an HMAC hash of the
- bridge's ID and a secret and makes these assignments persistent.
- Persistence is achieved by using a database to map node ID to
- distributor.
- Each bridge is assigned to exactly one distributor (including
- the "unallocated" distributor).
- BridgeDB may be configured to support only a non-empty subset of the
- distributors specified in this document.
- BridgeDB may be configured to use different probabilities for assigning
- new bridges to distributors.
- BridgeDB does not change existing assignments of bridges to
- distributors, even if probabilities for assigning bridges to
- distributors change or distributors are disabled entirely.
-
-3. Giving out bridges upon requests
-
- Upon receiving a client request, a BridgeDB distributor provides a
- subset of the bridges assigned to it.
- BridgeDB only gives out bridges that are contained in the most recently
- parsed bridge network status and that have the Running flag set (see
- Section 1).
- BridgeDB may be configured to give out a different number of bridges
- (typically 4) depending on the distributor.
- BridgeDB may define an arbitrary number of rules. These rules may
- specify the criteria by which a bridge is selected. Specifically,
- the available rules restrict the IP address version, OR port number,
- transport type, bridge relay flag, or country in which the bridge
- should not be blocked.
-
-4. Selecting bridges to be given out based on IP addresses
-
- BridgeDB may be configured to support one or more distributors which
- gives out bridges based on the requestor's IP address. Currently, this
- is how the HTTPS distributor works.
- The goal is to avoid handing out all the bridges to users in a similar
- IP space and time.
-# Someone else should look at proposals/ideas/old/xxx-bridge-disbursement
-# to see if this section is missing relevant pieces from it. -KL
-
- BridgeDB fixes the set of bridges to be returned for a defined time
- period.
- BridgeDB considers all IP addresses coming from the same /24 network
- as the same IP address and returns the same set of bridges. From here on,
- this non-unique address will be referred to as the IP address's 'area'.
- BridgeDB divides the IP address space equally into a small number of
-# Note, changed term from "areas" to "disjoint clusters" -MF
- disjoint clusters (typically 4) and returns different results for requests
- coming from addresses that are placed into different clusters.
-# I found that BridgeDB is not strict in returning only bridges for a
-# given area. If a ring is empty, it considers the next one. Is this
-# expected behavior? -KL
-#
-# This does not appear to be the case, anymore. If a ring is empty, then
-# BridgeDB simply returns an empty set of bridges. -MF
-#
-# I also found that BridgeDB does not make the assignment to areas
-# persistent in the database. So, if we change the number of rings, it
-# will assign bridges to other rings. I assume this is okay? -KL
- BridgeDB maintains a list of proxy IP addresses and returns the same
- set of bridges to requests coming from these IP addresses.
- The bridges returned to proxy IP addresses do not come from the same
- set as those for the general IP address space.
-
- BridgeDB can be configured to include bridge fingerprints in replies
- along with bridge IP addresses and OR ports.
- BridgeDB can be configured to display a CAPTCHA which the user must solve
- prior to returning the requested bridges.
-
- The current algorithm is as follows. An IP-based distributor splits
- the bridges uniformly into a set of "rings" based on an HMAC of their
- ID. Some of these rings are "area" rings for parts of IP space; some
- are "category" rings for categories of IPs (like proxies). When a
- client makes a request from an IP, the distributor first sees whether
- the IP is in one of the categories it knows. If so, the distributor
- returns an IP from the category rings. If not, the distributor
- maps the IP into an "area" (that is, a /24), and then uses an HMAC to
- map the area to one of the area rings.
-
- When the IP-based distributor determines from which area ring it is handing
- out bridges, it identifies which rules it will use to choose appropriate
- bridges. Using this information, it searches its cache of rings for one
- that already adheres to the criteria specified in this request. If one
- exists, then BridgeDB maps the current "epoch" (N-hour period) and the
- IP's area (/24) to a point on the ring based on HMAC, and hands out
- bridges at that point. If a ring does not already exist which satisfies this
- request, then a new ring is created and filled with bridges that fulfill
- the requirements. This ring is then used to select bridges as described.
-
- "Mapping X to Y based on an HMAC" above means one of the following:
- - We keep all of the elements of Y in some order, with a mapping
- from all 160-bit strings to positions in Y.
- - We take an HMAC of X using some fixed string as a key to get a
- 160-bit value. We then map that value to the next position of Y.
-
- When giving out bridges based on a position in a ring, BridgeDB first
- looks at flag requirements and port requirements. For example,
- BridgeDB may be configured to "Give out at least L bridges with port
- 443, and at least M bridges with Stable, and at most N bridges
- total." To do this, BridgeDB combines to the results:
- - The first L bridges in the ring after the position that have the
- port 443, and
- - The first M bridges in the ring after the position that have the
- flag stable and that it has not already decided to give out, and
- - The first N-L-M bridges in the ring after the position that it
- has not already decided to give out.
-
- After BridgeDB selects appropriate bridges to return to the requestor, it
- then prioritises the ordering of them in a list so that as many criteria
- are fulfilled as possible within the first few bridges. This list is then
- truncated to N bridges, if possible. N is currently defined as a
- piecewise function of the number of bridges in the ring such that:
-
- /
- | 1, if len(ring) < 20
- |
- N = | 2, if 20 <= len(ring) <= 100
- |
- | 3, if 100 <= len(ring)
- \
-
- The bridges in this sublist, containing no more than N bridges, are the
- bridges returned to the requestor.
-
-5. Selecting bridges to be given out based on email addresses
-
- BridgeDB can be configured to support one or more distributors that are
- giving out bridges based on the requestor's email address. Currently,
- this is how the email distributor works.
- The goal is to bootstrap based on one or more popular email service's
- sybil prevention algorithms.
-# Someone else should look at proposals/ideas/old/xxx-bridge-disbursement
-# to see if this section is missing relevant pieces from it. -KL
-
- BridgeDB rejects email addresses containing other characters than the
- ones that RFC2822 allows.
- BridgeDB may be configured to reject email addresses containing other
- characters it might not process correctly.
-# I don't think we do this, is it worthwhile? -MF
- BridgeDB rejects email addresses coming from other domains than a
- configured set of permitted domains.
- BridgeDB normalizes email addresses by removing "." characters and by
- removing parts after the first "+" character.
- BridgeDB can be configured to discard requests that do not have the
- value "pass" in their X-DKIM-Authentication-Result header or does not
- have this header. The X-DKIM-Authentication-Result header is set by
- the incoming mail stack that needs to check DKIM authentication.
-
- BridgeDB does not return a new set of bridges to the same email address
- until a given time period (typically a few hours) has passed.
-# Why don't we fix the bridges we give out for a global 3-hour time period
-# like we do for IP addresses? This way we could avoid storing email
-# addresses. -KL
-# The 3-hour value is probably much too short anyway. If we take longer
-# time values, then people get new bridges when bridges show up, as
-# opposed to then we decide to reset the bridges we give them. (Yes, this
-# problem exists for the IP distributor). -NM
-# I'm afraid I don't fully understand what you mean here. Can you
-# elaborate? -KL
-#
-# Assuming an average churn rate, if we use short time periods, then a
-# requestor will receive new bridges based on rate-limiting and will (likely)
-# eventually work their way around the ring; eventually exhausting all bridges
-# available to them from this distributor. If we use a longer time period,
-# then each time the period expires there will be more bridges in the ring
-# thus reducing the likelihood of all bridges being blocked and increasing
-# the time and effort required to enumerate all bridges. (This is my
-# understanding, not from Nick) -MF
-# Also, we presently need the cache to prevent replays and because if a user
-# sent multiple requests with different criteria in each then we would leak
-# additional bridges otherwise. -MF
- BridgeDB can be configured to include bridge fingerprints in replies
- along with bridge IP addresses and OR ports.
- BridgeDB can be configured to sign all replies using a PGP signing key.
- BridgeDB periodically discards old email-address-to-bridge mappings.
- BridgeDB rejects too frequent email requests coming from the same
- normalized address.
-
- To map previously unseen email addresses to a set of bridges, BridgeDB
- proceeds as follows:
- - It normalizes the email address as above, by stripping out dots,
- removing all of the localpart after the +, and putting it all
- in lowercase. (Example: "John.Doe+bridges at example.COM" becomes
- "johndoe at example.com".)
- - It maps an HMAC of the normalized address to a position on its ring
- of bridges.
- - It hands out bridges starting at that position, based on the
- port/flag requirements, as specified at the end of section 4.
-
- See section 4 for the details of how bridges are selected from the ring
- and returned to the requestor.
-
-6. Selecting unallocated bridges to be stored in file buckets
-
-# Kaner should have a look at this section. -NM
-
- BridgeDB can be configured to reserve a subset of bridges and not give
- them out via one of the distributors.
- BridgeDB assigns reserved bridges to one or more file buckets of fixed
- sizes and write these file buckets to disk for manual distribution.
- BridgeDB ensures that a file bucket always contains the requested
- number of running bridges.
- If the requested number of bridges in a file bucket is reduced or the
- file bucket is not required anymore, the unassigned bridges are
- returned to the reserved set of bridges.
- If a bridge stops running, BridgeDB replaces it with another bridge
- from the reserved set of bridges.
-# I'm not sure if there's a design bug in file buckets. What happens if
-# we add a bridge X to file bucket A, and X goes offline? We would add
-# another bridge Y to file bucket A. OK, but what if A comes back? We
-# cannot put it back in file bucket A, because it's full. Are we going to
-# add it to a different file bucket? Doesn't that mean that most bridges
-# will be contained in most file buckets over time? -KL
-#
-# This should be handled the same as if the file bucket is reduced in size.
-# If X returns, then it should be added to the appropriate distributor. -MF
-
-7. Displaying Bridge Information
-
- After bridges are selected using one of the methods described in
- Sections 4 - 6, they are output in one of two formats. Bridges are
- formatted as:
-
- <address:port> NL
-
- Pluggable transports are formatted as:
-
- <transportname> SP <address:port> [SP arglist] NL
-
- where arglist is an optional space-separated list of key-value pairs in
- the form of k=v.
-
- Previously, each line was prepended with the "bridge" keyword, such as
-
- "bridge" SP <address:port> NL
-
- "bridge" SP <transportname> SP <address:port> [SP arglist] NL
-
-# We don't do this anymore because Vidalia and TorLauncher don't expect it.
-# See the commit message for b70347a9c5fd769c6d5d0c0eb5171ace2999a736.
-
-8. Writing bridge assignments for statistics
-
- BridgeDB can be configured to write bridge assignments to disk for
- statistical analysis.
- The start of a bridge assignment is marked by the following line:
-
- "bridge-pool-assignment" SP YYYY-MM-DD HH:MM:SS NL
-
- YYYY-MM-DD HH:MM:SS is the time, in UTC, when BridgeDB has completed
- loading new bridges and assigning them to distributors.
-
- For every running bridge there is a line with the following format:
-
- fingerprint SP distributor (SP key "=" value)* NL
-
- The distributor is one out of "email", "https", or "unallocated".
-
- Both "email" and "https" distributors support adding keys for "port",
- "flag" and "transport". Respectively, the port number, flag name, and
- transport types are the values. These are used to indicate that
- a bridge matches certain port, flag, transport criteria of requests.
-
- The "https" distributor also allows the key "ring" with a number as
- value to indicate to which IP address area the bridge is returned.
-
- The "unallocated" distributor allows the key "bucket" with the file
- bucket name as value to indicate which file bucket a bridge is assigned
- to.
-
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