126-geoip-reporting.txt 18 KB

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  1. Filename: 126-geoip-fetching.txt
  2. Title: Getting GeoIP data and publishing usage summaries
  3. Version: $Revision$
  4. Last-Modified: $Date$
  5. Author: Roger Dingledine
  6. Created: 2007-11-24
  7. Status: Finished
  8. 1. Background and motivation
  9. Right now we can keep a rough count of Tor users, both total and by
  10. country, by watching connections to a single directory mirror. Being
  11. able to get usage estimates is useful both for our funders (to
  12. demonstrate progress) and for our own development (so we know how
  13. quickly we're scaling and can design accordingly, and so we know which
  14. countries and communities to focus on more). This need for information
  15. is the only reason we haven't deployed "directory guards" (think of
  16. them like entry guards but for directory information; in practice,
  17. it would seem that Tor clients should simply use their entry guards
  18. as their directory guards; see also proposal 125).
  19. With the move toward bridges, we will no longer be able to track Tor
  20. clients that use bridges, since they use their bridges as directory
  21. guards. Further, we need to be able to learn which bridges stop seeing
  22. use from certain countries (and are thus likely blocked), so we can
  23. avoid giving them out to other users in those countries.
  24. Right now we already do GeoIP lookups in Vidalia: Vidalia draws relays
  25. and circuits on its 'network map', and it performs anonymized GeoIP
  26. lookups to its central servers to know where to put the dots. Vidalia
  27. caches answers it gets -- to reduce delay, to reduce overhead on
  28. the network, and to reduce anonymity issues where users reveal their
  29. knowledge about the network through which IP addresses they ask about.
  30. But with the advent of bridges, Tor clients are asking about IP
  31. addresses that aren't in the main directory. In particular, bridge
  32. users inform the central Vidalia servers about each bridge as they
  33. discover it and their Vidalia tries to map it.
  34. Also, we wouldn't mind letting Vidalia do a GeoIP lookup on the client's
  35. own IP address, so it can provide a more useful map.
  36. Finally, Vidalia's central servers leave users open to partitioning
  37. attacks, even if they can't target specific users. Further, as we
  38. start using GeoIP results for more operational or security-relevant
  39. goals, such as avoiding or including particular countries in circuits,
  40. it becomes more important that users can't be singled out in terms of
  41. their IP-to-country mapping beliefs.
  42. 2. The available GeoIP databases
  43. There are at least two classes of GeoIP database out there: "IP to
  44. country", which tells us the country code for the IP address but
  45. no more details, and "IP to city", which tells us the country code,
  46. the name of the city, and some basic latitude/longitude guesses.
  47. A recent ip-to-country.csv is 3421362 bytes. Compressed, it is 564252
  48. bytes. A typical line is:
  49. "205500992","208605279","US","USA","UNITED STATES"
  50. http://ip-to-country.webhosting.info/node/view/5
  51. Similarly, the maxmind GeoLite Country database is also about 500KB
  52. compressed.
  53. http://www.maxmind.com/app/geolitecountry
  54. The maxmind GeoLite City database gives more finegrained detail like
  55. geo coordinates and city name. Vidalia currently makes use of this
  56. information. On the other hand it's 16MB compressed. A typical line is:
  57. 206.124.149.146,Bellevue,WA,US,47.6051,-122.1134
  58. http://www.maxmind.com/app/geolitecity
  59. There are other databases out there, like
  60. http://www.hostip.info/faq.html
  61. http://www.webconfs.com/ip-to-city.php
  62. that want more attention, but for now let's assume that all the db's
  63. are around this size.
  64. 3. What we'd like to solve
  65. Goal #1a: Tor relays collect IP-to-country user stats and publish
  66. sanitized versions.
  67. Goal #1b: Tor bridges collect IP-to-country user stats and publish
  68. sanitized versions.
  69. Goal #2a: Vidalia learns IP-to-city stats for Tor relays, for better
  70. mapping.
  71. Goal #2b: Vidalia learns IP-to-country stats for Tor relays, so the user
  72. can pick countries for her paths.
  73. Goal #3: Vidalia doesn't do external lookups on bridge relay addresses.
  74. Goal #4: Vidalia resolves the Tor client's IP-to-country or IP-to-city
  75. for better mapping.
  76. Goal #5: Reduce partitioning opportunities where Vidalia central
  77. servers can give different (distinguishing) responses.
  78. 4. Solution overview
  79. Our goal is to allow Tor relays, bridges, and clients to learn enough
  80. GeoIP information so they can do local private queries.
  81. 4.1. The IP-to-country db
  82. Directory authorities should publish a "geoip" file that contains
  83. IP-to-country mappings. Directory caches will mirror it, and Tor clients
  84. and relays (including bridge relays) will fetch it. Thus we can solve
  85. goals 1a and 1b (publish sanitized usage info). Controllers could also
  86. use this to solve goal 2b (choosing path by country attributes). It
  87. also solves goal 4 (learning the Tor client's country), though for
  88. huge countries like the US we'd still need to decide where the "middle"
  89. should be when we're mapping that address.
  90. The IP-to-country details are described further in Sections 5 and
  91. 6 below.
  92. 4.2. The IP-to-city db
  93. In an ideal world, the IP-to-city db would be small enough that we
  94. could distribute it in the above manner too. But for now, it is too
  95. large. Here's where the design choice forks.
  96. Option A: Vidalia should continue doing its anonymized IP-to-city
  97. queries. Thus we can achieve goals 2a and 2b. We would solve goal
  98. 3 by only doing lookups on descriptors that are purpose "general"
  99. (see Section 4.2.1 for how). We would leave goal 5 unsolved.
  100. Option B: Each directory authority should keep an IP-to-city db,
  101. lookup the value for each router it lists, and include that line in
  102. the router's network-status entry. The network-status consensus would
  103. then use the line that appears in the majority of votes. This approach
  104. also solves goals 2a and 2b, goal 3 (Vidalia doesn't do any lookups
  105. at all now), and goal 5 (reduced partitioning risks).
  106. Option B has the advantage that Vidalia can simplify its operation,
  107. and the advantage that this consensus IP-to-city data is available to
  108. other controllers besides just Vidalia. But it has the disadvantage
  109. that the networkstatus consensus becomes larger, even though most of
  110. the GeoIP information won't change from one consensus to the next. Is
  111. there another reasonable location for it that can provide similar
  112. consensus security properties?
  113. 4.2.1. Controllers can query for router annotations
  114. Vidalia needs to stop doing queries on bridge relay IP addresses.
  115. It could do that by only doing lookups on descriptors that are in
  116. the networkstatus consensus, but that precludes designs like Blossom
  117. that might want to map its relay locations. The best answer is that it
  118. should learn the router annotations, with a new controller 'getinfo'
  119. command:
  120. "GETINFO desc-annotations/id/<OR identity>"
  121. which would respond with something like
  122. @downloaded-at 2007-11-29 08:06:38
  123. @source "128.31.0.34"
  124. @purpose bridge
  125. [We could also make the answer include the digest for the router in
  126. question, which would enable us to ask GETINFO router-annotations/all.
  127. Is this worth it? -RD]
  128. Then Vidalia can avoid doing lookups on descriptors with purpose
  129. "bridge". Even better would be to add a new annotation "@private true"
  130. so Vidalia can know how to handle new purposes that we haven't created
  131. yet. Vidalia could special-case "bridge" for now, for compatibility
  132. with the current 0.2.0.x-alphas.
  133. 4.3. Recommendation
  134. My overall recommendation is that we should implement 4.1 soon
  135. (e.g. early in 0.2.1.x), and we can go with 4.2 option A for now,
  136. with the hope that later we discover a better way to distribute the
  137. IP-to-city info and can switch to 4.2 option B.
  138. Below we discuss more how to go about achieving 4.1.
  139. 5. Publishing and caching the GeoIP (IP-to-country) database
  140. Each v3 directory authority should put a copy of the "geoip" file in
  141. its datadirectory. Then its network-status votes should include a hash
  142. of this file (Recommended-geoip-hash: %s), and the resulting consensus
  143. directory should specify the consensus hash.
  144. There should be a new URL for fetching this geoip db (by "current.z"
  145. for testing purposes, and by hash.z for typical downloads). Authorities
  146. should fetch and serve the one listed in the consensus, even when they
  147. vote for their own. This would argue for storing the cached version
  148. in a better filename than "geoip".
  149. Directory mirrors should keep a copy of this file available via the
  150. same URLs.
  151. We assume that the file would change at most a few times a month. Should
  152. Tor ship with a bootstrap geoip file? An out-of-date geoip file may
  153. open you up to partitioning attacks, but for the most part it won't
  154. be that different.
  155. There should be a config option to disable updating the geoip file,
  156. in case users want to use their own file (e.g. they have a proprietary
  157. GeoIP file they prefer to use). In that case we leave it up to the
  158. user to update his geoip file out-of-band.
  159. [XXX Should consider forward/backward compatibility, e.g. if we want
  160. to move to a new geoip file format. -RD]
  161. 6. Controllers use the IP-to-country db for mapping and for path building
  162. Down the road, Vidalia could use the IP-to-country mappings for placing
  163. on its map:
  164. - The location of the client
  165. - The location of the bridges, or other relays not in the
  166. networkstatus, on the map.
  167. - Any relays that it doesn't yet have an IP-to-city answer for.
  168. Other controllers can also use it to set EntryNodes, ExitNodes, etc
  169. in a per-country way.
  170. To support these features, we need to export the IP-to-country data
  171. via the Tor controller protocol.
  172. Is it sufficient just to add a new GETINFO command?
  173. GETINFO ip-to-country/128.31.0.34
  174. 250+ip-to-country/128.31.0.34="US","USA","UNITED STATES"
  175. 6.1. Other interfaces
  176. Robert Hogan has also suggested a
  177. GETINFO relays-by-country/cn
  178. as well as torrc options for ExitCountryCodes, EntryCountryCodes,
  179. ExcludeCountryCodes, etc.
  180. 7. Relays and bridges use the IP-to-country db for usage summaries
  181. Once bridges have a GeoIP database locally, they can start to publish
  182. sanitized summaries of client usage -- how many users they see and from
  183. what countries. This might also be a more useful way for ordinary Tor
  184. relays to convey the level of usage they see, which would allow us to
  185. switch to using directory guards for all users by default.
  186. But how to safely summarize this information without opening too many
  187. anonymity leaks?
  188. 7.1 Attacks to think about
  189. First, note that we need to have a large enough time window that we're
  190. not aiding correlation attacks much. I hope 24 hours is enough. So
  191. that means no publishing stats until you've been up at least 24 hours.
  192. And you can't publish follow-up stats more often than every 24 hours,
  193. or people could look at the differential.
  194. Second, note that we need to be sufficiently vague about the IP
  195. addresses we're reporting. We are hoping that just specifying the
  196. country will be vague enough. But a) what about active attacks where
  197. we convince a bridge to use a GeoIP db that labels each suspect IP
  198. address as a unique country? We have to assume that the consensus GeoIP
  199. db won't be malicious in this way. And b) could such singling-out
  200. attacks occur naturally, for example because of countries that have
  201. a very small IP space? We should investigate that.
  202. 7.2. Granularity of users
  203. Do we only want to report countries that have a sufficient anonymity set
  204. (that is, number of users) for the day? For example, we might avoid
  205. listing any countries that have seen less than five addresses over
  206. the 24 hour period. This approach would be helpful in reducing the
  207. singling-out opportunities -- in the extreme case, we could imagine a
  208. situation where one blogger from the Sudan used Tor on a given day, and
  209. we can discover which entry guard she used.
  210. But I fear that especially for bridges, seeing only one hit from a
  211. given country in a given day may be quite common.
  212. As a compromise, we should start out with an "Other" category in
  213. the reported stats, which is the sum of unlisted countries; if that
  214. category is consistently interesting, we can think harder about how
  215. to get the right data from it safely.
  216. But note that bridge summaries will not be made public individually,
  217. since doing so would help people enumerate bridges. Whereas summaries
  218. from normal relays will be public. So perhaps that means we can afford
  219. to be more specific in bridge summaries? In particular, I'm thinking the
  220. "other" category should be used by public relays but not for bridges
  221. (or if it is, used with a lower threshold).
  222. Even for countries that have many Tor users, we might not want to be
  223. too specific about how many users we've seen. For example, we might
  224. round down the number of users we report to the nearest multiple of 5.
  225. My instinct for now is that this won't be that useful.
  226. 7.3 Other issues
  227. Another note: we'll likely be overreporting in the case of users with
  228. dynamic IP addresses: if they rotate to a new address over the course
  229. of the day, we'll count them twice. So be it.
  230. 7.4. Where to publish the summaries?
  231. We designed extrainfo documents for information like this. So they
  232. should just be more entries in the extrainfo doc.
  233. But if we want to publish summaries every 24 hours (no more often,
  234. no less often), aren't we tried to the router descriptor publishing
  235. schedule? That is, if we publish a new router descriptor at the 18
  236. hour mark, and nothing much has changed at the 24 hour mark, won't
  237. the new descriptor get dropped as being "cosmetically similar", and
  238. then nobody will know to ask about the new extrainfo document?
  239. One solution would be to make and remember the 24 hour summary at the
  240. 24 hour mark, but not actually publish it anywhere until we happen to
  241. publish a new descriptor for other reasons. If we happen to go down
  242. before publishing a new descriptor, then so be it, at least we tried.
  243. 7.5. What if the relay is unreachable or goes to sleep?
  244. Even if you've been up for 24 hours, if you were hibernating for 18
  245. of them, then we're not getting as much fuzziness as we'd like. So
  246. I guess that means that we need a 24-hour period of being "awake"
  247. before we'll willing to publish a summary. A similar attack works if
  248. you've been awake but unreachable for the first 18 of the 24 hours. As
  249. another example, a bridge that's on a laptop might be suspended for
  250. some of each day.
  251. This implies that some relays and bridges will never publish summary
  252. stats, because they're not ever reliably working for 24 hours in
  253. a row. If a significant percentage of our reporters end up being in
  254. this boat, we should investigate whether we can accumulate 24 hours of
  255. "usefulness", even if there are holes in the middle, and publish based
  256. on that.
  257. What other issues are like this? It seems that just moving to a new
  258. IP address shouldn't be a reason to cancel stats publishing, assuming
  259. we were usable at each address.
  260. 7.6. IP addresses that aren't in the geoip db
  261. Some IP addresses aren't in the public geoip databases. In particular,
  262. I've found that a lot of African countries are missing, but there
  263. are also some common ones in the US that are missing, like parts of
  264. Comcast. We could just lump unknown IP addresses into the "other"
  265. category, but it might be useful to gather a general sense of how many
  266. lookups are failing entirely, by adding a separate "Unknown" category.
  267. We could also contribute back to the geoip db, by letting bridges set
  268. a config option to report the actual IP addresses that failed their
  269. lookup. Then the bridge authority operators can manually make sure
  270. the correct answer will be in later geoip files. This config option
  271. should be disabled by default.
  272. 7.7 Bringing it all together
  273. So here's the plan:
  274. 24 hours after starting up (modulo Section 7.5 above), bridges and
  275. relays should construct a daily summary of client countries they've
  276. seen, including the above "Unknown" category (Section 7.6) as well.
  277. Non-bridge relays lump all countries with less than K (e.g. K=5) users
  278. into the "Other" category (see Sec 7.2 above), whereas bridge relays are
  279. willing to list a country even when it has only one user for the day.
  280. Whenever we have a daily summary on record, we include it in our
  281. extrainfo document whenever we publish one. The daily summary we
  282. remember locally gets replaced with a newer one when another 24
  283. hours pass.
  284. 7.8. Some forward secrecy
  285. How should we remember addresses locally? If we convert them into
  286. country-codes immediately, we will count them again if we see them
  287. again. On the other hand, we don't really want to keep a list hanging
  288. around of all IP addresses we've seen in the past 24 hours.
  289. Step one is that we should never write this stuff to disk. Keeping it
  290. only in ram will make things somewhat better. Step two is to avoid
  291. keeping any timestamps associated with it: rather than a rolling
  292. 24-hour window, which would require us to remember the various times
  293. we've seen that address, we can instead just throw out the whole list
  294. every 24 hours and start over.
  295. We could hash the addresses, and then compare hashes when deciding if
  296. we've seen a given address before. We could even do keyed hashes. Or
  297. Bloom filters. But if our goal is to defend against an adversary
  298. who steals a copy of our ram while we're running and then does
  299. guess-and-check on whatever blob we're keeping, we're in bad shape.
  300. We could drop the last octet of the IP address as soon as we see
  301. it. That would cause us to undercount some users from cablemodem and
  302. DSL networks that have a high density of Tor users. And it wouldn't
  303. really help that much -- indeed, the extent to which it does help is
  304. exactly the extent to which it makes our stats less useful.
  305. Other ideas?