control-spec.txt 78 KB

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  1. TC: A Tor control protocol (Version 1)
  2. 0. Scope
  3. This document describes an implementation-specific protocol that is used
  4. for other programs (such as frontend user-interfaces) to communicate with a
  5. locally running Tor process. It is not part of the Tor onion routing
  6. protocol.
  7. This protocol replaces version 0 of TC, which is now deprecated. For
  8. reference, TC is described in "control-spec-v0.txt". Implementors are
  9. recommended to avoid using TC directly, but instead to use a library that
  10. can easily be updated to use the newer protocol. (Version 0 is used by Tor
  11. versions 0.1.0.x; the protocol in this document only works with Tor
  12. versions in the 0.1.1.x series and later.)
  13. 1. Protocol outline
  14. TC is a bidirectional message-based protocol. It assumes an underlying
  15. stream for communication between a controlling process (the "client"
  16. or "controller") and a Tor process (or "server"). The stream may be
  17. implemented via TCP, TLS-over-TCP, a Unix-domain socket, or so on,
  18. but it must provide reliable in-order delivery. For security, the
  19. stream should not be accessible by untrusted parties.
  20. In TC, the client and server send typed messages to each other over the
  21. underlying stream. The client sends "commands" and the server sends
  22. "replies".
  23. By default, all messages from the server are in response to messages from
  24. the client. Some client requests, however, will cause the server to send
  25. messages to the client indefinitely far into the future. Such
  26. "asynchronous" replies are marked as such.
  27. Servers respond to messages in the order messages are received.
  28. 2. Message format
  29. 2.1. Description format
  30. The message formats listed below use ABNF as described in RFC 2234.
  31. The protocol itself is loosely based on SMTP (see RFC 2821).
  32. We use the following nonterminals from RFC 2822: atom, qcontent
  33. We define the following general-use nonterminals:
  34. String = DQUOTE *qcontent DQUOTE
  35. There are explicitly no limits on line length. All 8-bit characters are
  36. permitted unless explicitly disallowed.
  37. Wherever CRLF is specified to be accepted from the controller, Tor MAY also
  38. accept LF. Tor, however, MUST NOT generate LF instead of CRLF.
  39. Controllers SHOULD always send CRLF.
  40. 2.2. Commands from controller to Tor
  41. Command = Keyword Arguments CRLF / "+" Keyword Arguments CRLF Data
  42. Keyword = 1*ALPHA
  43. Arguments = *(SP / VCHAR)
  44. Specific commands and their arguments are described below in section 3.
  45. 2.3. Replies from Tor to the controller
  46. Reply = SyncReply / AsyncReply
  47. SyncReply = *(MidReplyLine / DataReplyLine) EndReplyLine
  48. AsyncReply = *(MidReplyLine / DataReplyLine) EndReplyLine
  49. MidReplyLine = StatusCode "-" ReplyLine
  50. DataReplyLine = StatusCode "+" ReplyLine Data
  51. EndReplyLine = StatusCode SP ReplyLine
  52. ReplyLine = [ReplyText] CRLF
  53. ReplyText = XXXX
  54. StatusCode = 3DIGIT
  55. Specific replies are mentioned below in section 3, and described more fully
  56. in section 4.
  57. [Compatibility note: versions of Tor before 0.2.0.3-alpha sometimes
  58. generate AsyncReplies of the form "*(MidReplyLine / DataReplyLine)".
  59. This is incorrect, but controllers that need to work with these
  60. versions of Tor should be prepared to get multi-line AsyncReplies with
  61. the final line (usually "650 OK") omitted.]
  62. 2.4. General-use tokens
  63. ; CRLF means, "the ASCII Carriage Return character (decimal value value 13)
  64. ; followed by the ASCII Linefeed character (decimal value 10)."
  65. CRLF = CR LF
  66. ; Identifiers for servers.
  67. ServerID = Nickname / Fingerprint
  68. Nickname = 1*19 NicknameChar
  69. NicknameChar = "a"-"z" / "A"-"Z" / "0" - "9"
  70. Fingerprint = "$" 40*HEXDIG
  71. ; A "=" indicates that the given nickname is canonical; a "~" indicates
  72. ; that the given nickname is not canonical. If no nickname is given at
  73. ; all, Tor does not even have a guess for what this router calls itself.
  74. LongName = Fingerprint [ ( "=" / "~" ) Nickname ]
  75. ; How a controller tells Tor about a particular OR. There are four
  76. ; possible formats:
  77. ; $Digest -- The router whose identity key hashes to the given digest.
  78. ; This is the preferred way to refer to an OR.
  79. ; $Digest~Name -- The router whose identity key hashes to the given
  80. ; digest, but only if the router has the given nickname.
  81. ; $Digest=Name -- The router whose identity key hashes to the given
  82. ; digest, but only if the router is Named and has the given
  83. ; nickname.
  84. ; Name -- The Named router with the given nickname, or, if no such
  85. ; router exists, any router whose nickname matches the one given.
  86. ; This is not a safe way to refer to routers, since Named status
  87. ; could under some circumstances change over time.
  88. ServerSpec = LongName / Nickname
  89. ; Unique identifiers for streams or circuits. Currently, Tor only
  90. ; uses digits, but this may change
  91. StreamID = 1*16 IDChar
  92. CircuitID = 1*16 IDChar
  93. IDChar = ALPHA / DIGIT
  94. Address = ip4-address / ip6-address / hostname (XXXX Define these)
  95. ; A "Data" section is a sequence of octets concluded by the terminating
  96. ; sequence CRLF "." CRLF. The terminating sequence may not appear in the
  97. ; body of the data. Leading periods on lines in the data are escaped with
  98. ; an additional leading period as in RFC 2821 section 4.5.2.
  99. Data = *DataLine "." CRLF
  100. DataLine = CRLF / "." 1*LineItem CRLF / NonDotItem *LineItem CRLF
  101. LineItem = NonCR / 1*CR NonCRLF
  102. NonDotItem = NonDotCR / 1*CR NonCRLF
  103. 3. Commands
  104. All commands are case-insensitive, but most keywords are case-sensitive.
  105. 3.1. SETCONF
  106. Change the value of one or more configuration variables. The syntax is:
  107. "SETCONF" 1*(SP keyword ["=" value]) CRLF
  108. value = String / QuotedString
  109. Tor behaves as though it had just read each of the key-value pairs
  110. from its configuration file. Keywords with no corresponding values have
  111. their configuration values reset to 0 or NULL (use RESETCONF if you want
  112. to set it back to its default). SETCONF is all-or-nothing: if there
  113. is an error in any of the configuration settings, Tor sets none of them.
  114. Tor responds with a "250 configuration values set" reply on success.
  115. If some of the listed keywords can't be found, Tor replies with a
  116. "552 Unrecognized option" message. Otherwise, Tor responds with a
  117. "513 syntax error in configuration values" reply on syntax error, or a
  118. "553 impossible configuration setting" reply on a semantic error.
  119. When a configuration option takes multiple values, or when multiple
  120. configuration keys form a context-sensitive group (see GETCONF below), then
  121. setting _any_ of the options in a SETCONF command is taken to reset all of
  122. the others. For example, if two ORBindAddress values are configured, and a
  123. SETCONF command arrives containing a single ORBindAddress value, the new
  124. command's value replaces the two old values.
  125. Sometimes it is not possible to change configuration options solely by
  126. issuing a series of SETCONF commands, because the value of one of the
  127. configuration options depends on the value of another which has not yet
  128. been set. Such situations can be overcome by setting multiple configuration
  129. options with a single SETCONF command (e.g. SETCONF ORPort=443
  130. ORListenAddress=9001).
  131. 3.2. RESETCONF
  132. Remove all settings for a given configuration option entirely, assign
  133. its default value (if any), and then assign the String provided.
  134. Typically the String is left empty, to simply set an option back to
  135. its default. The syntax is:
  136. "RESETCONF" 1*(SP keyword ["=" String]) CRLF
  137. Otherwise it behaves like SETCONF above.
  138. 3.3. GETCONF
  139. Request the value of a configuration variable. The syntax is:
  140. "GETCONF" 1*(SP keyword) CRLF
  141. If all of the listed keywords exist in the Tor configuration, Tor replies
  142. with a series of reply lines of the form:
  143. 250 keyword=value
  144. If any option is set to a 'default' value semantically different from an
  145. empty string, Tor may reply with a reply line of the form:
  146. 250 keyword
  147. Value may be a raw value or a quoted string. Tor will try to use
  148. unquoted values except when the value could be misinterpreted through
  149. not being quoted.
  150. If some of the listed keywords can't be found, Tor replies with a
  151. "552 unknown configuration keyword" message.
  152. If an option appears multiple times in the configuration, all of its
  153. key-value pairs are returned in order.
  154. Some options are context-sensitive, and depend on other options with
  155. different keywords. These cannot be fetched directly. Currently there
  156. is only one such option: clients should use the "HiddenServiceOptions"
  157. virtual keyword to get all HiddenServiceDir, HiddenServicePort,
  158. HiddenServiceNodes, and HiddenServiceExcludeNodes option settings.
  159. 3.4. SETEVENTS
  160. Request the server to inform the client about interesting events. The
  161. syntax is:
  162. "SETEVENTS" [SP "EXTENDED"] *(SP EventCode) CRLF
  163. EventCode = "CIRC" / "STREAM" / "ORCONN" / "BW" / "DEBUG" /
  164. "INFO" / "NOTICE" / "WARN" / "ERR" / "NEWDESC" / "ADDRMAP" /
  165. "AUTHDIR_NEWDESCS" / "DESCCHANGED" / "STATUS_GENERAL" /
  166. "STATUS_CLIENT" / "STATUS_SERVER" / "GUARD" / "NS" / "STREAM_BW" /
  167. "CLIENTS_SEEN" / "NEWCONSENSUS" / "BUILDTIMEOUT_SET"
  168. Any events *not* listed in the SETEVENTS line are turned off; thus, sending
  169. SETEVENTS with an empty body turns off all event reporting.
  170. The server responds with a "250 OK" reply on success, and a "552
  171. Unrecognized event" reply if one of the event codes isn't recognized. (On
  172. error, the list of active event codes isn't changed.)
  173. If the flag string "EXTENDED" is provided, Tor may provide extra
  174. information with events for this connection; see 4.1 for more information.
  175. NOTE: All events on a given connection will be provided in extended format,
  176. or none.
  177. NOTE: "EXTENDED" is only supported in Tor 0.1.1.9-alpha or later.
  178. Each event is described in more detail in Section 4.1.
  179. 3.5. AUTHENTICATE
  180. Sent from the client to the server. The syntax is:
  181. "AUTHENTICATE" [ SP 1*HEXDIG / QuotedString ] CRLF
  182. The server responds with "250 OK" on success or "515 Bad authentication" if
  183. the authentication cookie is incorrect. Tor closes the connection on an
  184. authentication failure.
  185. The format of the 'cookie' is implementation-dependent; see 5.1 below for
  186. information on how the standard Tor implementation handles it.
  187. Before the client has authenticated, no command other than PROTOCOLINFO,
  188. AUTHENTICATE, or QUIT is valid. If the controller sends any other command,
  189. or sends a malformed command, or sends an unsuccessful AUTHENTICATE
  190. command, or sends PROTOCOLINFO more than once, Tor sends an error reply and
  191. closes the connection.
  192. To prevent some cross-protocol attacks, the AUTHENTICATE command is still
  193. required even if all authentication methods in Tor are disabled. In this
  194. case, the controller should just send "AUTHENTICATE" CRLF.
  195. (Versions of Tor before 0.1.2.16 and 0.2.0.4-alpha did not close the
  196. connection after an authentication failure.)
  197. 3.6. SAVECONF
  198. Sent from the client to the server. The syntax is:
  199. "SAVECONF" CRLF
  200. Instructs the server to write out its config options into its torrc. Server
  201. returns "250 OK" if successful, or "551 Unable to write configuration
  202. to disk" if it can't write the file or some other error occurs.
  203. See also the "getinfo config-text" command, if the controller wants
  204. to write the torrc file itself.
  205. 3.7. SIGNAL
  206. Sent from the client to the server. The syntax is:
  207. "SIGNAL" SP Signal CRLF
  208. Signal = "RELOAD" / "SHUTDOWN" / "DUMP" / "DEBUG" / "HALT" /
  209. "HUP" / "INT" / "USR1" / "USR2" / "TERM" / "NEWNYM" /
  210. "CLEARDNSCACHE"
  211. The meaning of the signals are:
  212. RELOAD -- Reload: reload config items, refetch directory. (like HUP)
  213. SHUTDOWN -- Controlled shutdown: if server is an OP, exit immediately.
  214. If it's an OR, close listeners and exit after 30 seconds.
  215. (like INT)
  216. DUMP -- Dump stats: log information about open connections and
  217. circuits. (like USR1)
  218. DEBUG -- Debug: switch all open logs to loglevel debug. (like USR2)
  219. HALT -- Immediate shutdown: clean up and exit now. (like TERM)
  220. CLEARDNSCACHE -- Forget the client-side cached IPs for all hostnames.
  221. NEWNYM -- Switch to clean circuits, so new application requests
  222. don't share any circuits with old ones. Also clears
  223. the client-side DNS cache. (Tor MAY rate-limit its
  224. response to this signal.)
  225. The server responds with "250 OK" if the signal is recognized (or simply
  226. closes the socket if it was asked to close immediately), or "552
  227. Unrecognized signal" if the signal is unrecognized.
  228. 3.8. MAPADDRESS
  229. Sent from the client to the server. The syntax is:
  230. "MAPADDRESS" 1*(Address "=" Address SP) CRLF
  231. The first address in each pair is an "original" address; the second is a
  232. "replacement" address. The client sends this message to the server in
  233. order to tell it that future SOCKS requests for connections to the original
  234. address should be replaced with connections to the specified replacement
  235. address. If the addresses are well-formed, and the server is able to
  236. fulfill the request, the server replies with a 250 message:
  237. 250-OldAddress1=NewAddress1
  238. 250 OldAddress2=NewAddress2
  239. containing the source and destination addresses. If request is
  240. malformed, the server replies with "512 syntax error in command
  241. argument". If the server can't fulfill the request, it replies with
  242. "451 resource exhausted".
  243. The client may decline to provide a body for the original address, and
  244. instead send a special null address ("0.0.0.0" for IPv4, "::0" for IPv6, or
  245. "." for hostname), signifying that the server should choose the original
  246. address itself, and return that address in the reply. The server
  247. should ensure that it returns an element of address space that is unlikely
  248. to be in actual use. If there is already an address mapped to the
  249. destination address, the server may reuse that mapping.
  250. If the original address is already mapped to a different address, the old
  251. mapping is removed. If the original address and the destination address
  252. are the same, the server removes any mapping in place for the original
  253. address.
  254. Example:
  255. C: MAPADDRESS 0.0.0.0=torproject.org 1.2.3.4=tor.freehaven.net
  256. S: 250-127.192.10.10=torproject.org
  257. S: 250 1.2.3.4=tor.freehaven.net
  258. {Note: This feature is designed to be used to help Tor-ify applications
  259. that need to use SOCKS4 or hostname-less SOCKS5. There are three
  260. approaches to doing this:
  261. 1. Somehow make them use SOCKS4a or SOCKS5-with-hostnames instead.
  262. 2. Use tor-resolve (or another interface to Tor's resolve-over-SOCKS
  263. feature) to resolve the hostname remotely. This doesn't work
  264. with special addresses like x.onion or x.y.exit.
  265. 3. Use MAPADDRESS to map an IP address to the desired hostname, and then
  266. arrange to fool the application into thinking that the hostname
  267. has resolved to that IP.
  268. This functionality is designed to help implement the 3rd approach.}
  269. Mappings set by the controller last until the Tor process exits:
  270. they never expire. If the controller wants the mapping to last only
  271. a certain time, then it must explicitly un-map the address when that
  272. time has elapsed.
  273. 3.9. GETINFO
  274. Sent from the client to the server. The syntax is as for GETCONF:
  275. "GETINFO" 1*(SP keyword) CRLF
  276. one or more NL-terminated strings. The server replies with an INFOVALUE
  277. message, or a 551 or 552 error.
  278. Unlike GETCONF, this message is used for data that are not stored in the Tor
  279. configuration file, and that may be longer than a single line. On success,
  280. one ReplyLine is sent for each requested value, followed by a final 250 OK
  281. ReplyLine. If a value fits on a single line, the format is:
  282. 250-keyword=value
  283. If a value must be split over multiple lines, the format is:
  284. 250+keyword=
  285. value
  286. .
  287. Recognized keys and their values include:
  288. "version" -- The version of the server's software, including the name
  289. of the software. (example: "Tor 0.0.9.4")
  290. "config-file" -- The location of Tor's configuration file ("torrc").
  291. "config-text" -- The contents that Tor would write if you send it
  292. a SAVECONF command, so the controller can write the file to
  293. disk itself. [First implemented in 0.2.2.7-alpha.]
  294. ["exit-policy/prepend" -- The default exit policy lines that Tor will
  295. *prepend* to the ExitPolicy config option.
  296. -- Never implemented. Useful?]
  297. "exit-policy/default" -- The default exit policy lines that Tor will
  298. *append* to the ExitPolicy config option.
  299. "desc/id/<OR identity>" or "desc/name/<OR nickname>" -- the latest
  300. server descriptor for a given OR, NUL-terminated.
  301. "desc-annotations/id/<OR identity>" -- outputs the annotations string
  302. (source, timestamp of arrival, purpose, etc) for the corresponding
  303. descriptor. [First implemented in 0.2.0.13-alpha.]
  304. "extra-info/digest/<digest>" -- the extrainfo document whose digest (in
  305. hex) is <digest>. Only available if we're downloading extra-info
  306. documents.
  307. "ns/id/<OR identity>" or "ns/name/<OR nickname>" -- the latest router
  308. status info (v2 directory style) for a given OR. Router status
  309. info is as given in
  310. dir-spec.txt, and reflects the current beliefs of this Tor about the
  311. router in question. Like directory clients, controllers MUST
  312. tolerate unrecognized flags and lines. The published date and
  313. descriptor digest are those believed to be best by this Tor,
  314. not necessarily those for a descriptor that Tor currently has.
  315. [First implemented in 0.1.2.3-alpha.]
  316. "ns/all" -- Router status info (v2 directory style) for all ORs we
  317. have an opinion about, joined by newlines. [First implemented
  318. in 0.1.2.3-alpha.]
  319. "ns/purpose/<purpose>" -- Router status info (v2 directory style)
  320. for all ORs of this purpose. Mostly designed for /ns/purpose/bridge
  321. queries. [First implemented in 0.2.0.13-alpha.]
  322. "desc/all-recent" -- the latest server descriptor for every router that
  323. Tor knows about.
  324. "network-status" -- a space-separated list (v1 directory style)
  325. of all known OR identities. This is in the same format as the
  326. router-status line in v1 directories; see dir-spec-v1.txt section
  327. 3 for details. (If VERBOSE_NAMES is enabled, the output will
  328. not conform to dir-spec-v1.txt; instead, the result will be a
  329. space-separated list of LongName, each preceded by a "!" if it is
  330. believed to be not running.) This option is deprecated; use
  331. "ns/all" instead.
  332. "address-mappings/all"
  333. "address-mappings/config"
  334. "address-mappings/cache"
  335. "address-mappings/control" -- a \r\n-separated list of address
  336. mappings, each in the form of "from-address to-address expiry".
  337. The 'config' key returns those address mappings set in the
  338. configuration; the 'cache' key returns the mappings in the
  339. client-side DNS cache; the 'control' key returns the mappings set
  340. via the control interface; the 'all' target returns the mappings
  341. set through any mechanism.
  342. Expiry is formatted as with ADDRMAP events, except that "expiry" is
  343. always a time in GMT or the string "NEVER"; see section 4.1.7.
  344. First introduced in 0.2.0.3-alpha.
  345. "addr-mappings/*" -- as for address-mappings/*, but without the
  346. expiry portion of the value. Use of this value is deprecated
  347. since 0.2.0.3-alpha; use address-mappings instead.
  348. "address" -- the best guess at our external IP address. If we
  349. have no guess, return a 551 error. (Added in 0.1.2.2-alpha)
  350. "fingerprint" -- the contents of the fingerprint file that Tor
  351. writes as a server, or a 551 if we're not a server currently.
  352. (Added in 0.1.2.3-alpha)
  353. "circuit-status"
  354. A series of lines as for a circuit status event. Each line is of
  355. the form:
  356. CircuitID SP CircStatus [SP Path] CRLF
  357. "stream-status"
  358. A series of lines as for a stream status event. Each is of the form:
  359. StreamID SP StreamStatus SP CircID SP Target CRLF
  360. "orconn-status"
  361. A series of lines as for an OR connection status event. Each is of the
  362. form:
  363. ServerID SP ORStatus CRLF
  364. "entry-guards"
  365. A series of lines listing the currently chosen entry guards, if any.
  366. Each is of the form:
  367. ServerID2 SP Status [SP ISOTime] CRLF
  368. Status-with-time = ("unlisted") SP ISOTime
  369. Status = ("up" / "never-connected" / "down" /
  370. "unusable" / "unlisted" )
  371. ServerID2 = Nickname / 40*HEXDIG
  372. [From 0.1.1.4-alpha to 0.1.1.10-alpha, this was called "helper-nodes".
  373. Tor still supports calling it that for now, but support will be
  374. removed in 0.1.3.x.]
  375. [Older versions of Tor (before 0.1.2.x-final) generated 'down' instead
  376. of unlisted/unusable. Current Tors never generate 'down'.]
  377. [XXXX ServerID2 differs from ServerID in not prefixing fingerprints
  378. with a $. This is an implementation error. It would be nice to add
  379. the $ back in if we can do so without breaking compatibility.]
  380. "accounting/enabled"
  381. "accounting/hibernating"
  382. "accounting/bytes"
  383. "accounting/bytes-left"
  384. "accounting/interval-start"
  385. "accounting/interval-wake"
  386. "accounting/interval-end"
  387. Information about accounting status. If accounting is enabled,
  388. "enabled" is 1; otherwise it is 0. The "hibernating" field is "hard"
  389. if we are accepting no data; "soft" if we're accepting no new
  390. connections, and "awake" if we're not hibernating at all. The "bytes"
  391. and "bytes-left" fields contain (read-bytes SP write-bytes), for the
  392. start and the rest of the interval respectively. The 'interval-start'
  393. and 'interval-end' fields are the borders of the current interval; the
  394. 'interval-wake' field is the time within the current interval (if any)
  395. where we plan[ned] to start being active. The times are GMT.
  396. "config/names"
  397. A series of lines listing the available configuration options. Each is
  398. of the form:
  399. OptionName SP OptionType [ SP Documentation ] CRLF
  400. OptionName = Keyword
  401. OptionType = "Integer" / "TimeInterval" / "DataSize" / "Float" /
  402. "Boolean" / "Time" / "CommaList" / "Dependant" / "Virtual" /
  403. "String" / "LineList"
  404. Documentation = Text
  405. "info/names"
  406. A series of lines listing the available GETINFO options. Each is of
  407. one of these forms:
  408. OptionName SP Documentation CRLF
  409. OptionPrefix SP Documentation CRLF
  410. OptionPrefix = OptionName "/*"
  411. "events/names"
  412. A space-separated list of all the events supported by this version of
  413. Tor's SETEVENTS.
  414. "features/names"
  415. A space-separated list of all the events supported by this version of
  416. Tor's USEFEATURE.
  417. "ip-to-country/*"
  418. Maps IP addresses to 2-letter country codes. For example,
  419. "GETINFO ip-to-country/18.0.0.1" should give "US".
  420. "next-circuit/IP:port"
  421. XXX todo.
  422. "dir/status-vote/current/consensus" [added in Tor 0.2.1.6-alpha]
  423. "dir/status/authority"
  424. "dir/status/fp/<F>"
  425. "dir/status/fp/<F1>+<F2>+<F3>"
  426. "dir/status/all"
  427. "dir/server/fp/<F>"
  428. "dir/server/fp/<F1>+<F2>+<F3>"
  429. "dir/server/d/<D>"
  430. "dir/server/d/<D1>+<D2>+<D3>"
  431. "dir/server/authority"
  432. "dir/server/all"
  433. A series of lines listing directory contents, provided according to the
  434. specification for the URLs listed in Section 4.4 of dir-spec.txt. Note
  435. that Tor MUST NOT provide private information, such as descriptors for
  436. routers not marked as general-purpose. When asked for 'authority'
  437. information for which this Tor is not authoritative, Tor replies with
  438. an empty string.
  439. "status/circuit-established"
  440. "status/enough-dir-info"
  441. "status/good-server-descriptor"
  442. "status/accepted-server-descriptor"
  443. "status/..."
  444. These provide the current internal Tor values for various Tor
  445. states. See Section 4.1.10 for explanations. (Only a few of the
  446. status events are available as getinfo's currently. Let us know if
  447. you want more exposed.)
  448. "status/reachability-succeeded/or"
  449. 0 or 1, depending on whether we've found our ORPort reachable.
  450. "status/reachability-succeeded/dir"
  451. 0 or 1, depending on whether we've found our DirPort reachable.
  452. "status/reachability-succeeded"
  453. "OR=" ("0"/"1") SP "DIR=" ("0"/"1")
  454. Combines status/reachability-succeeded/*; controllers MUST ignore
  455. unrecognized elements in this entry.
  456. "status/bootstrap-phase"
  457. Returns the most recent bootstrap phase status event
  458. sent. Specifically, it returns a string starting with either
  459. "NOTICE BOOTSTRAP ..." or "WARN BOOTSTRAP ...". Controllers should
  460. use this getinfo when they connect or attach to Tor to learn its
  461. current bootstrap state.
  462. "status/version/recommended"
  463. List of currently recommended versions.
  464. "status/version/current"
  465. Status of the current version. One of: new, old, unrecommended,
  466. recommended, new in series, obsolete, unknown.
  467. "status/clients-seen"
  468. A summary of which countries we've seen clients from recently,
  469. formatted the same as the CLIENTS_SEEN status event described in
  470. Section 4.1.14. This GETINFO option is currently available only
  471. for bridge relays.
  472. Examples:
  473. C: GETINFO version desc/name/moria1
  474. S: 250+desc/name/moria=
  475. S: [Descriptor for moria]
  476. S: .
  477. S: 250-version=Tor 0.1.1.0-alpha-cvs
  478. S: 250 OK
  479. 3.10. EXTENDCIRCUIT
  480. Sent from the client to the server. The format is:
  481. "EXTENDCIRCUIT" SP CircuitID
  482. [SP ServerSpec *("," ServerSpec)
  483. SP "purpose=" Purpose] CRLF
  484. This request takes one of two forms: either the CircuitID is zero, in
  485. which case it is a request for the server to build a new circuit,
  486. or the CircuitID is nonzero, in which case it is a request for the
  487. server to extend an existing circuit with that ID according to the
  488. specified path.
  489. If the CircuitID is 0, the controller has the option of providing
  490. a path for Tor to use to build the circuit. If it does not provide
  491. a path, Tor will select one automatically from high capacity nodes
  492. according to path-spec.txt.
  493. If CircuitID is 0 and "purpose=" is specified, then the circuit's
  494. purpose is set. Two choices are recognized: "general" and
  495. "controller". If not specified, circuits are created as "general".
  496. If the request is successful, the server sends a reply containing a
  497. message body consisting of the CircuitID of the (maybe newly created)
  498. circuit. The syntax is "250" SP "EXTENDED" SP CircuitID CRLF.
  499. 3.11. SETCIRCUITPURPOSE
  500. Sent from the client to the server. The format is:
  501. "SETCIRCUITPURPOSE" SP CircuitID SP Purpose CRLF
  502. This changes the circuit's purpose. See EXTENDCIRCUIT above for details.
  503. 3.12. SETROUTERPURPOSE
  504. Sent from the client to the server. The format is:
  505. "SETROUTERPURPOSE" SP NicknameOrKey SP Purpose CRLF
  506. This changes the descriptor's purpose. See +POSTDESCRIPTOR below
  507. for details.
  508. NOTE: This command was disabled and made obsolete as of Tor
  509. 0.2.0.8-alpha. It doesn't exist anymore, and is listed here only for
  510. historical interest.
  511. 3.13. ATTACHSTREAM
  512. Sent from the client to the server. The syntax is:
  513. "ATTACHSTREAM" SP StreamID SP CircuitID [SP "HOP=" HopNum] CRLF
  514. This message informs the server that the specified stream should be
  515. associated with the specified circuit. Each stream may be associated with
  516. at most one circuit, and multiple streams may share the same circuit.
  517. Streams can only be attached to completed circuits (that is, circuits that
  518. have sent a circuit status 'BUILT' event or are listed as built in a
  519. GETINFO circuit-status request).
  520. If the circuit ID is 0, responsibility for attaching the given stream is
  521. returned to Tor.
  522. If HOP=HopNum is specified, Tor will choose the HopNumth hop in the
  523. circuit as the exit node, rather than the last node in the circuit.
  524. Hops are 1-indexed; generally, it is not permitted to attach to hop 1.
  525. Tor responds with "250 OK" if it can attach the stream, 552 if the circuit
  526. or stream didn't exist, or 551 if the stream couldn't be attached for
  527. another reason.
  528. {Implementation note: Tor will close unattached streams by itself,
  529. roughly two minutes after they are born. Let the developers know if
  530. that turns out to be a problem.}
  531. {Implementation note: By default, Tor automatically attaches streams to
  532. circuits itself, unless the configuration variable
  533. "__LeaveStreamsUnattached" is set to "1". Attempting to attach streams
  534. via TC when "__LeaveStreamsUnattached" is false may cause a race between
  535. Tor and the controller, as both attempt to attach streams to circuits.}
  536. {Implementation note: You can try to attachstream to a stream that
  537. has already sent a connect or resolve request but hasn't succeeded
  538. yet, in which case Tor will detach the stream from its current circuit
  539. before proceeding with the new attach request.}
  540. 3.14. POSTDESCRIPTOR
  541. Sent from the client to the server. The syntax is:
  542. "+POSTDESCRIPTOR" [SP "purpose=" Purpose] [SP "cache=" Cache]
  543. CRLF Descriptor CRLF "." CRLF
  544. This message informs the server about a new descriptor. If Purpose is
  545. specified, it must be either "general", "controller", or "bridge",
  546. else we return a 552 error. The default is "general".
  547. If Cache is specified, it must be either "no" or "yes", else we
  548. return a 552 error. If Cache is not specified, Tor will decide for
  549. itself whether it wants to cache the descriptor, and controllers
  550. must not rely on its choice.
  551. The descriptor, when parsed, must contain a number of well-specified
  552. fields, including fields for its nickname and identity.
  553. If there is an error in parsing the descriptor, the server must send a
  554. "554 Invalid descriptor" reply. If the descriptor is well-formed but
  555. the server chooses not to add it, it must reply with a 251 message
  556. whose body explains why the server was not added. If the descriptor
  557. is added, Tor replies with "250 OK".
  558. 3.15. REDIRECTSTREAM
  559. Sent from the client to the server. The syntax is:
  560. "REDIRECTSTREAM" SP StreamID SP Address [SP Port] CRLF
  561. Tells the server to change the exit address on the specified stream. If
  562. Port is specified, changes the destination port as well. No remapping
  563. is performed on the new provided address.
  564. To be sure that the modified address will be used, this event must be sent
  565. after a new stream event is received, and before attaching this stream to
  566. a circuit.
  567. Tor replies with "250 OK" on success.
  568. 3.16. CLOSESTREAM
  569. Sent from the client to the server. The syntax is:
  570. "CLOSESTREAM" SP StreamID SP Reason *(SP Flag) CRLF
  571. Tells the server to close the specified stream. The reason should be one
  572. of the Tor RELAY_END reasons given in tor-spec.txt, as a decimal. Flags is
  573. not used currently; Tor servers SHOULD ignore unrecognized flags. Tor may
  574. hold the stream open for a while to flush any data that is pending.
  575. Tor replies with "250 OK" on success, or a 512 if there aren't enough
  576. arguments, or a 552 if it doesn't recognize the StreamID or reason.
  577. 3.17. CLOSECIRCUIT
  578. The syntax is:
  579. CLOSECIRCUIT SP CircuitID *(SP Flag) CRLF
  580. Flag = "IfUnused"
  581. Tells the server to close the specified circuit. If "IfUnused" is
  582. provided, do not close the circuit unless it is unused.
  583. Other flags may be defined in the future; Tor SHOULD ignore unrecognized
  584. flags.
  585. Tor replies with "250 OK" on success, or a 512 if there aren't enough
  586. arguments, or a 552 if it doesn't recognize the CircuitID.
  587. 3.18. QUIT
  588. Tells the server to hang up on this controller connection. This command
  589. can be used before authenticating.
  590. 3.19. USEFEATURE
  591. The syntax is:
  592. "USEFEATURE" *(SP FeatureName) CRLF
  593. FeatureName = 1*(ALPHA / DIGIT / "_" / "-")
  594. Sometimes extensions to the controller protocol break compatibility with
  595. older controllers. In this case, whenever possible, the extensions are
  596. first included in Tor disabled by default, and only enabled on a given
  597. controller connection when the "USEFEATURE" command is given. Once a
  598. "USEFEATURE" command is given, it applies to all subsequent interactions on
  599. the same connection; to disable an enabled feature, a new controller
  600. connection must be opened.
  601. This is a forward-compatibility mechanism; each feature will eventually
  602. become a regular part of the control protocol in some future version of Tor.
  603. Tor will ignore a request to use any feature that is already on by default.
  604. Tor will give a "552" error if any requested feature is not recognized.
  605. Feature names are case-insensitive.
  606. EXTENDED_EVENTS
  607. Same as passing 'EXTENDED' to SETEVENTS; this is the preferred way to
  608. request the extended event syntax.
  609. This feature was first used in 0.1.2.3-alpha. It is always-on in
  610. Tor 0.2.2.1-alpha and later.
  611. VERBOSE_NAMES
  612. Instead of ServerID as specified above, the controller should
  613. identify ORs by LongName in events and GETINFO results. This format is
  614. strictly more informative: rather than including Nickname for
  615. known Named routers and Fingerprint for unknown or unNamed routers, the
  616. LongName format includes a Fingerprint, an indication of Named status,
  617. and a Nickname (if one is known).
  618. This will not be always-enabled until at least two stable
  619. releases after 0.1.2.2-alpha, the release where it was first
  620. available. It is always-on in Tor 0.2.2.1-alpha and later.
  621. 3.20. RESOLVE
  622. The syntax is
  623. "RESOLVE" *Option *Address CRLF
  624. Option = "mode=reverse"
  625. Address = a hostname or IPv4 address
  626. This command launches a remote hostname lookup request for every specified
  627. request (or reverse lookup if "mode=reverse" is specified). Note that the
  628. request is done in the background: to see the answers, your controller will
  629. need to listen for ADDRMAP events; see 4.1.7 below.
  630. [Added in Tor 0.2.0.3-alpha]
  631. 3.21. PROTOCOLINFO
  632. The syntax is:
  633. "PROTOCOLINFO" *(SP PIVERSION) CRLF
  634. The server reply format is:
  635. "250-PROTOCOLINFO" SP PIVERSION CRLF *InfoLine "250 OK" CRLF
  636. InfoLine = AuthLine / VersionLine / OtherLine
  637. AuthLine = "250-AUTH" SP "METHODS=" AuthMethod *(",")AuthMethod
  638. *(SP "COOKIEFILE=" AuthCookieFile) CRLF
  639. VersionLine = "250-VERSION" SP "Tor=" TorVersion [SP Arguments] CRLF
  640. AuthMethod =
  641. "NULL" / ; No authentication is required
  642. "HASHEDPASSWORD" / ; A controller must supply the original password
  643. "COOKIE" / ; A controller must supply the contents of a cookie
  644. AuthCookieFile = QuotedString
  645. TorVersion = QuotedString
  646. OtherLine = "250-" Keyword [SP Arguments] CRLF
  647. PIVERSION: 1*DIGIT
  648. Tor MAY give its InfoLines in any order; controllers MUST ignore InfoLines
  649. with keywords they do not recognize. Controllers MUST ignore extraneous
  650. data on any InfoLine.
  651. PIVERSION is there in case we drastically change the syntax one day. For
  652. now it should always be "1". Controllers MAY provide a list of the
  653. protocolinfo versions they support; Tor MAY select a version that the
  654. controller does not support.
  655. AuthMethod is used to specify one or more control authentication
  656. methods that Tor currently accepts.
  657. AuthCookieFile specifies the absolute path and filename of the
  658. authentication cookie that Tor is expecting and is provided iff
  659. the METHODS field contains the method "COOKIE". Controllers MUST handle
  660. escape sequences inside this string.
  661. The VERSION line contains the Tor version.
  662. [Unlike other commands besides AUTHENTICATE, PROTOCOLINFO may be used (but
  663. only once!) before AUTHENTICATE.]
  664. [PROTOCOLINFO was not supported before Tor 0.2.0.5-alpha.]
  665. 4. Replies
  666. Reply codes follow the same 3-character format as used by SMTP, with the
  667. first character defining a status, the second character defining a
  668. subsystem, and the third designating fine-grained information.
  669. The TC protocol currently uses the following first characters:
  670. 2yz Positive Completion Reply
  671. The command was successful; a new request can be started.
  672. 4yz Temporary Negative Completion reply
  673. The command was unsuccessful but might be reattempted later.
  674. 5yz Permanent Negative Completion Reply
  675. The command was unsuccessful; the client should not try exactly
  676. that sequence of commands again.
  677. 6yz Asynchronous Reply
  678. Sent out-of-order in response to an earlier SETEVENTS command.
  679. The following second characters are used:
  680. x0z Syntax
  681. Sent in response to ill-formed or nonsensical commands.
  682. x1z Protocol
  683. Refers to operations of the Tor Control protocol.
  684. x5z Tor
  685. Refers to actual operations of Tor system.
  686. The following codes are defined:
  687. 250 OK
  688. 251 Operation was unnecessary
  689. [Tor has declined to perform the operation, but no harm was done.]
  690. 451 Resource exhausted
  691. 500 Syntax error: protocol
  692. 510 Unrecognized command
  693. 511 Unimplemented command
  694. 512 Syntax error in command argument
  695. 513 Unrecognized command argument
  696. 514 Authentication required
  697. 515 Bad authentication
  698. 550 Unspecified Tor error
  699. 551 Internal error
  700. [Something went wrong inside Tor, so that the client's
  701. request couldn't be fulfilled.]
  702. 552 Unrecognized entity
  703. [A configuration key, a stream ID, circuit ID, event,
  704. mentioned in the command did not actually exist.]
  705. 553 Invalid configuration value
  706. [The client tried to set a configuration option to an
  707. incorrect, ill-formed, or impossible value.]
  708. 554 Invalid descriptor
  709. 555 Unmanaged entity
  710. 650 Asynchronous event notification
  711. Unless specified to have specific contents, the human-readable messages
  712. in error replies should not be relied upon to match those in this document.
  713. 4.1. Asynchronous events
  714. These replies can be sent after a corresponding SETEVENTS command has been
  715. received. They will not be interleaved with other Reply elements, but they
  716. can appear between a command and its corresponding reply. For example,
  717. this sequence is possible:
  718. C: SETEVENTS CIRC
  719. S: 250 OK
  720. C: GETCONF SOCKSPORT ORPORT
  721. S: 650 CIRC 1000 EXTENDED moria1,moria2
  722. S: 250-SOCKSPORT=9050
  723. S: 250 ORPORT=0
  724. But this sequence is disallowed:
  725. C: SETEVENTS CIRC
  726. S: 250 OK
  727. C: GETCONF SOCKSPORT ORPORT
  728. S: 250-SOCKSPORT=9050
  729. S: 650 CIRC 1000 EXTENDED moria1,moria2
  730. S: 250 ORPORT=0
  731. Clients MUST tolerate more arguments in an asynchonous reply than
  732. expected, and MUST tolerate more lines in an asynchronous reply than
  733. expected. For instance, a client that expects a CIRC message like:
  734. 650 CIRC 1000 EXTENDED moria1,moria2
  735. must tolerate:
  736. 650-CIRC 1000 EXTENDED moria1,moria2 0xBEEF
  737. 650-EXTRAMAGIC=99
  738. 650 ANONYMITY=high
  739. If clients ask for extended events, then each event line as specified below
  740. will be followed by additional extensions. Additional lines will be of the
  741. form
  742. "650" ("-"/" ") KEYWORD ["=" ARGUMENTS] CRLF
  743. Additional arguments will be of the form
  744. SP KEYWORD ["=" ( QuotedString / * NonSpDquote ) ]
  745. Such clients MUST tolerate lines with keywords they do not recognize.
  746. 4.1.1. Circuit status changed
  747. The syntax is:
  748. "650" SP "CIRC" SP CircuitID SP CircStatus [SP Path]
  749. [SP "REASON=" Reason [SP "REMOTE_REASON=" Reason]] CRLF
  750. CircStatus =
  751. "LAUNCHED" / ; circuit ID assigned to new circuit
  752. "BUILT" / ; all hops finished, can now accept streams
  753. "EXTENDED" / ; one more hop has been completed
  754. "FAILED" / ; circuit closed (was not built)
  755. "CLOSED" ; circuit closed (was built)
  756. Path = ServerID *("," ServerID)
  757. Reason = "NONE" / "TORPROTOCOL" / "INTERNAL" / "REQUESTED" /
  758. "HIBERNATING" / "RESOURCELIMIT" / "CONNECTFAILED" /
  759. "OR_IDENTITY" / "OR_CONN_CLOSED" / "TIMEOUT" /
  760. "FINISHED" / "DESTROYED" / "NOPATH" / "NOSUCHSERVICE"
  761. The path is provided only when the circuit has been extended at least one
  762. hop.
  763. The "REASON" field is provided only for FAILED and CLOSED events, and only
  764. if extended events are enabled (see 3.19). Clients MUST accept reasons
  765. not listed above. Reasons are as given in tor-spec.txt, except for:
  766. NOPATH (Not enough nodes to make circuit)
  767. The "REMOTE_REASON" field is provided only when we receive a DESTROY or
  768. TRUNCATE cell, and only if extended events are enabled. It contains the
  769. actual reason given by the remote OR for closing the circuit. Clients MUST
  770. accept reasons not listed above. Reasons are as listed in tor-spec.txt.
  771. 4.1.2. Stream status changed
  772. The syntax is:
  773. "650" SP "STREAM" SP StreamID SP StreamStatus SP CircID SP Target
  774. [SP "REASON=" Reason [ SP "REMOTE_REASON=" Reason ]]
  775. [SP "SOURCE=" Source] [ SP "SOURCE_ADDR=" Address ":" Port ]
  776. [SP "PURPOSE=" Purpose]
  777. CRLF
  778. StreamStatus =
  779. "NEW" / ; New request to connect
  780. "NEWRESOLVE" / ; New request to resolve an address
  781. "REMAP" / ; Address re-mapped to another
  782. "SENTCONNECT" / ; Sent a connect cell along a circuit
  783. "SENTRESOLVE" / ; Sent a resolve cell along a circuit
  784. "SUCCEEDED" / ; Received a reply; stream established
  785. "FAILED" / ; Stream failed and not retriable
  786. "CLOSED" / ; Stream closed
  787. "DETACHED" ; Detached from circuit; still retriable
  788. Target = Address ":" Port
  789. The circuit ID designates which circuit this stream is attached to. If
  790. the stream is unattached, the circuit ID "0" is given.
  791. Reason = "MISC" / "RESOLVEFAILED" / "CONNECTREFUSED" /
  792. "EXITPOLICY" / "DESTROY" / "DONE" / "TIMEOUT" /
  793. "HIBERNATING" / "INTERNAL"/ "RESOURCELIMIT" /
  794. "CONNRESET" / "TORPROTOCOL" / "NOTDIRECTORY" / "END"
  795. The "REASON" field is provided only for FAILED, CLOSED, and DETACHED
  796. events, and only if extended events are enabled (see 3.19). Clients MUST
  797. accept reasons not listed above. Reasons are as given in tor-spec.txt,
  798. except for:
  799. END (We received a RELAY_END cell from the other side of this
  800. stream.)
  801. [XXXX document more. -NM]
  802. The "REMOTE_REASON" field is provided only when we receive a RELAY_END
  803. cell, and only if extended events are enabled. It contains the actual
  804. reason given by the remote OR for closing the stream. Clients MUST accept
  805. reasons not listed above. Reasons are as listed in tor-spec.txt.
  806. "REMAP" events include a Source if extended events are enabled:
  807. Source = "CACHE" / "EXIT"
  808. Clients MUST accept sources not listed above. "CACHE" is given if
  809. the Tor client decided to remap the address because of a cached
  810. answer, and "EXIT" is given if the remote node we queried gave us
  811. the new address as a response.
  812. The "SOURCE_ADDR" field is included with NEW and NEWRESOLVE events if
  813. extended events are enabled. It indicates the address and port
  814. that requested the connection, and can be (e.g.) used to look up the
  815. requesting program.
  816. Purpose = "DIR_FETCH" / "UPLOAD_DESC" / "DNS_REQUEST" /
  817. "USER" / "DIRPORT_TEST"
  818. The "PURPOSE" field is provided only for NEW and NEWRESOLVE events, and
  819. only if extended events are enabled (see 3.19). Clients MUST accept
  820. purposes not listed above.
  821. 4.1.3. OR Connection status changed
  822. The syntax is:
  823. "650" SP "ORCONN" SP (ServerID / Target) SP ORStatus [ SP "REASON="
  824. Reason ] [ SP "NCIRCS=" NumCircuits ] CRLF
  825. ORStatus = "NEW" / "LAUNCHED" / "CONNECTED" / "FAILED" / "CLOSED"
  826. NEW is for incoming connections, and LAUNCHED is for outgoing
  827. connections. CONNECTED means the TLS handshake has finished (in
  828. either direction). FAILED means a connection is being closed that
  829. hasn't finished its handshake, and CLOSED is for connections that
  830. have handshaked.
  831. A ServerID is specified unless it's a NEW connection, in which
  832. case we don't know what server it is yet, so we use Address:Port.
  833. If extended events are enabled (see 3.19), optional reason and
  834. circuit counting information is provided for CLOSED and FAILED
  835. events.
  836. Reason = "MISC" / "DONE" / "CONNECTREFUSED" /
  837. "IDENTITY" / "CONNECTRESET" / "TIMEOUT" / "NOROUTE" /
  838. "IOERROR" / "RESOURCELIMIT"
  839. NumCircuits counts both established and pending circuits.
  840. 4.1.4. Bandwidth used in the last second
  841. The syntax is:
  842. "650" SP "BW" SP BytesRead SP BytesWritten *(SP Type "=" Num) CRLF
  843. BytesRead = 1*DIGIT
  844. BytesWritten = 1*DIGIT
  845. Type = "DIR" / "OR" / "EXIT" / "APP" / ...
  846. Num = 1*DIGIT
  847. BytesRead and BytesWritten are the totals. [In a future Tor version,
  848. we may also include a breakdown of the connection types that used
  849. bandwidth this second (not implemented yet).]
  850. 4.1.5. Log messages
  851. The syntax is:
  852. "650" SP Severity SP ReplyText CRLF
  853. or
  854. "650+" Severity CRLF Data 650 SP "OK" CRLF
  855. Severity = "DEBUG" / "INFO" / "NOTICE" / "WARN"/ "ERR"
  856. 4.1.6. New descriptors available
  857. Syntax:
  858. "650" SP "NEWDESC" 1*(SP ServerID) CRLF
  859. 4.1.7. New Address mapping
  860. Syntax:
  861. "650" SP "ADDRMAP" SP Address SP NewAddress SP Expiry
  862. [SP Error] SP GMTExpiry CRLF
  863. NewAddress = Address / "<error>"
  864. Expiry = DQUOTE ISOTime DQUOTE / "NEVER"
  865. Error = "error=" ErrorCode
  866. ErrorCode = XXXX
  867. GMTExpiry = "EXPIRES=" DQUOTE IsoTime DQUOTE
  868. Error and GMTExpiry are only provided if extended events are enabled.
  869. Expiry is expressed as the local time (rather than GMT). This is a bug,
  870. left in for backward compatibility; new code should look at GMTExpiry
  871. instead.
  872. These events are generated when a new address mapping is entered in the
  873. cache, or when the answer for a RESOLVE command is found.
  874. 4.1.8. Descriptors uploaded to us in our role as authoritative dirserver
  875. Syntax:
  876. "650" "+" "AUTHDIR_NEWDESCS" CRLF Action CRLF Message CRLF
  877. Descriptor CRLF "." CRLF "650" SP "OK" CRLF
  878. Action = "ACCEPTED" / "DROPPED" / "REJECTED"
  879. Message = Text
  880. 4.1.9. Our descriptor changed
  881. Syntax:
  882. "650" SP "DESCCHANGED" CRLF
  883. [First added in 0.1.2.2-alpha.]
  884. 4.1.10. Status events
  885. Status events (STATUS_GENERAL, STATUS_CLIENT, and STATUS_SERVER) are sent
  886. based on occurrences in the Tor process pertaining to the general state of
  887. the program. Generally, they correspond to log messages of severity Notice
  888. or higher. They differ from log messages in that their format is a
  889. specified interface.
  890. Syntax:
  891. "650" SP StatusType SP StatusSeverity SP StatusAction
  892. [SP StatusArguments] CRLF
  893. StatusType = "STATUS_GENERAL" / "STATUS_CLIENT" / "STATUS_SERVER"
  894. StatusSeverity = "NOTICE" / "WARN" / "ERR"
  895. StatusAction = 1*ALPHA
  896. StatusArguments = StatusArgument *(SP StatusArgument)
  897. StatusArgument = StatusKeyword '=' StatusValue
  898. StatusKeyword = 1*(ALNUM / "_")
  899. StatusValue = 1*(ALNUM / '_') / QuotedString
  900. Action is a string, and Arguments is a series of keyword=value
  901. pairs on the same line. Values may be space-terminated strings,
  902. or quoted strings.
  903. These events are always produced with EXTENDED_EVENTS and
  904. VERBOSE_NAMES; see the explanations in the USEFEATURE section
  905. for details.
  906. Controllers MUST tolerate unrecognized actions, MUST tolerate
  907. unrecognized arguments, MUST tolerate missing arguments, and MUST
  908. tolerate arguments that arrive in any order.
  909. Each event description below is accompanied by a recommendation for
  910. controllers. These recommendations are suggestions only; no controller
  911. is required to implement them.
  912. Compatibility note: versions of Tor before 0.2.0.22-rc incorrectly
  913. generated "STATUS_SERVER" as "STATUS_SEVER". To be compatible with those
  914. versions, tools should accept both.
  915. Actions for STATUS_GENERAL events can be as follows:
  916. CLOCK_JUMPED
  917. "TIME=NUM"
  918. Tor spent enough time without CPU cycles that it has closed all
  919. its circuits and will establish them anew. This typically
  920. happens when a laptop goes to sleep and then wakes up again. It
  921. also happens when the system is swapping so heavily that Tor is
  922. starving. The "time" argument specifies the number of seconds Tor
  923. thinks it was unconscious for (or alternatively, the number of
  924. seconds it went back in time).
  925. This status event is sent as NOTICE severity normally, but WARN
  926. severity if Tor is acting as a server currently.
  927. {Recommendation for controller: ignore it, since we don't really
  928. know what the user should do anyway. Hm.}
  929. DANGEROUS_VERSION
  930. "CURRENT=version"
  931. "REASON=NEW/OBSOLETE/UNRECOMMENDED"
  932. "RECOMMENDED=\"version, version, ...\""
  933. Tor has found that directory servers don't recommend its version of
  934. the Tor software. RECOMMENDED is a comma-and-space-separated string
  935. of Tor versions that are recommended. REASON is NEW if this version
  936. of Tor is newer than any recommended version, OBSOLETE if
  937. this version of Tor is older than any recommended version, and
  938. UNRECOMMENDED if some recommended versions of Tor are newer and
  939. some are older than this version. (The "OBSOLETE" reason was called
  940. "OLD" from Tor 0.1.2.3-alpha up to and including 0.2.0.12-alpha.)
  941. {Controllers may want to suggest that the user upgrade OLD or
  942. UNRECOMMENDED versions. NEW versions may be known-insecure, or may
  943. simply be development versions.}
  944. TOO_MANY_CONNECTIONS
  945. "CURRENT=NUM"
  946. Tor has reached its ulimit -n or whatever the native limit is on file
  947. descriptors or sockets. CURRENT is the number of sockets Tor
  948. currently has open. The user should really do something about
  949. this. The "current" argument shows the number of connections currently
  950. open.
  951. {Controllers may recommend that the user increase the limit, or
  952. increase it for them. Recommendations should be phrased in an
  953. OS-appropriate way and automated when possible.}
  954. BUG
  955. "REASON=STRING"
  956. Tor has encountered a situation that its developers never expected,
  957. and the developers would like to learn that it happened. Perhaps
  958. the controller can explain this to the user and encourage her to
  959. file a bug report?
  960. {Controllers should log bugs, but shouldn't annoy the user in case a
  961. bug appears frequently.}
  962. CLOCK_SKEW
  963. SKEW="+" / "-" SECONDS
  964. MIN_SKEW="+" / "-" SECONDS.
  965. SOURCE="DIRSERV:" IP ":" Port /
  966. "NETWORKSTATUS:" IP ":" Port /
  967. "OR:" IP ":" Port /
  968. "CONSENSUS"
  969. If "SKEW" is present, it's an estimate of how far we are from the
  970. time declared in the source. (In other words, if we're an hour in
  971. the past, the value is -3600.) "MIN_SKEW" is present, it's a lower
  972. bound. If the source is a DIRSERV, we got the current time from a
  973. connection to a dirserver. If the source is a NETWORKSTATUS, we
  974. decided we're skewed because we got a v2 networkstatus from far in
  975. the future. If the source is OR, the skew comes from a NETINFO
  976. cell from a connection to another relay. If the source is
  977. CONSENSUS, we decided we're skewed because we got a networkstatus
  978. consensus from the future.
  979. {Tor should send this message to controllers when it thinks the
  980. skew is so high that it will interfere with proper Tor operation.
  981. Controllers shouldn't blindly adjust the clock, since the more
  982. accurate source of skew info (DIRSERV) is currently
  983. unauthenticated.}
  984. BAD_LIBEVENT
  985. "METHOD=" libevent method
  986. "VERSION=" libevent version
  987. "BADNESS=" "BROKEN" / "BUGGY" / "SLOW"
  988. "RECOVERED=" "NO" / "YES"
  989. Tor knows about bugs in using the configured event method in this
  990. version of libevent. "BROKEN" libevents won't work at all;
  991. "BUGGY" libevents might work okay; "SLOW" libevents will work
  992. fine, but not quickly. If "RECOVERED" is YES, Tor managed to
  993. switch to a more reliable (but probably slower!) libevent method.
  994. {Controllers may want to warn the user if this event occurs, though
  995. generally it's the fault of whoever built the Tor binary and there's
  996. not much the user can do besides upgrade libevent or upgrade the
  997. binary.}
  998. DIR_ALL_UNREACHABLE
  999. Tor believes that none of the known directory servers are
  1000. reachable -- this is most likely because the local network is
  1001. down or otherwise not working, and might help to explain for the
  1002. user why Tor appears to be broken.
  1003. {Controllers may want to warn the user if this event occurs; further
  1004. action is generally not possible.}
  1005. CONSENSUS_ARRIVED
  1006. Tor has received and validated a new consensus networkstatus.
  1007. (This event can be delayed a little while after the consensus
  1008. is received, if Tor needs to fetch certificates.)
  1009. Actions for STATUS_CLIENT events can be as follows:
  1010. BOOTSTRAP
  1011. "PROGRESS=" num
  1012. "TAG=" Keyword
  1013. "SUMMARY=" String
  1014. ["WARNING=" String
  1015. "REASON=" Keyword
  1016. "COUNT=" num
  1017. "RECOMMENDATION=" Keyword
  1018. ]
  1019. Tor has made some progress at establishing a connection to the
  1020. Tor network, fetching directory information, or making its first
  1021. circuit; or it has encountered a problem while bootstrapping. This
  1022. status event is especially useful for users with slow connections
  1023. or with connectivity problems.
  1024. "Progress" gives a number between 0 and 100 for how far through
  1025. the bootstrapping process we are. "Summary" is a string that can
  1026. be displayed to the user to describe the *next* task that Tor
  1027. will tackle, i.e., the task it is working on after sending the
  1028. status event. "Tag" is a string that controllers can use to
  1029. recognize bootstrap phases, if they want to do something smarter
  1030. than just blindly displaying the summary string; see Section 5
  1031. for the current tags that Tor issues.
  1032. The StatusSeverity describes whether this is a normal bootstrap
  1033. phase (severity notice) or an indication of a bootstrapping
  1034. problem (severity warn).
  1035. For bootstrap problems, we include the same progress, tag, and
  1036. summary values as we would for a normal bootstrap event, but we
  1037. also include "warning", "reason", "count", and "recommendation"
  1038. key/value combos. The "count" number tells how many bootstrap
  1039. problems there have been so far at this phase. The "reason"
  1040. string lists one of the reasons allowed in the ORCONN event. The
  1041. "warning" argument string with any hints Tor has to offer about
  1042. why it's having troubles bootstrapping.
  1043. The "reason" values are long-term-stable controller-facing tags to
  1044. identify particular issues in a bootstrapping step. The warning
  1045. strings, on the other hand, are human-readable. Controllers
  1046. SHOULD NOT rely on the format of any warning string. Currently
  1047. the possible values for "recommendation" are either "ignore" or
  1048. "warn" -- if ignore, the controller can accumulate the string in
  1049. a pile of problems to show the user if the user asks; if warn,
  1050. the controller should alert the user that Tor is pretty sure
  1051. there's a bootstrapping problem.
  1052. Currently Tor uses recommendation=ignore for the first
  1053. nine bootstrap problem reports for a given phase, and then
  1054. uses recommendation=warn for subsequent problems at that
  1055. phase. Hopefully this is a good balance between tolerating
  1056. occasional errors and reporting serious problems quickly.
  1057. ENOUGH_DIR_INFO
  1058. Tor now knows enough network-status documents and enough server
  1059. descriptors that it's going to start trying to build circuits now.
  1060. {Controllers may want to use this event to decide when to indicate
  1061. progress to their users, but should not interrupt the user's browsing
  1062. to tell them so.}
  1063. NOT_ENOUGH_DIR_INFO
  1064. We discarded expired statuses and router descriptors to fall
  1065. below the desired threshold of directory information. We won't
  1066. try to build any circuits until ENOUGH_DIR_INFO occurs again.
  1067. {Controllers may want to use this event to decide when to indicate
  1068. progress to their users, but should not interrupt the user's browsing
  1069. to tell them so.}
  1070. CIRCUIT_ESTABLISHED
  1071. Tor is able to establish circuits for client use. This event will
  1072. only be sent if we just built a circuit that changed our mind --
  1073. that is, prior to this event we didn't know whether we could
  1074. establish circuits.
  1075. {Suggested use: controllers can notify their users that Tor is
  1076. ready for use as a client once they see this status event. [Perhaps
  1077. controllers should also have a timeout if too much time passes and
  1078. this event hasn't arrived, to give tips on how to troubleshoot.
  1079. On the other hand, hopefully Tor will send further status events
  1080. if it can identify the problem.]}
  1081. CIRCUIT_NOT_ESTABLISHED
  1082. "REASON=" "EXTERNAL_ADDRESS" / "DIR_ALL_UNREACHABLE" / "CLOCK_JUMPED"
  1083. We are no longer confident that we can build circuits. The "reason"
  1084. keyword provides an explanation: which other status event type caused
  1085. our lack of confidence.
  1086. {Controllers may want to use this event to decide when to indicate
  1087. progress to their users, but should not interrupt the user's browsing
  1088. to do so.}
  1089. [Note: only REASON=CLOCK_JUMPED is implemented currently.]
  1090. DANGEROUS_PORT
  1091. "PORT=" port
  1092. "RESULT=" "REJECT" / "WARN"
  1093. A stream was initiated to a port that's commonly used for
  1094. vulnerable-plaintext protocols. If the Result is "reject", we
  1095. refused the connection; whereas if it's "warn", we allowed it.
  1096. {Controllers should warn their users when this occurs, unless they
  1097. happen to know that the application using Tor is in fact doing so
  1098. correctly (e.g., because it is part of a distributed bundle). They
  1099. might also want some sort of interface to let the user configure
  1100. their RejectPlaintextPorts and WarnPlaintextPorts config options.}
  1101. DANGEROUS_SOCKS
  1102. "PROTOCOL=" "SOCKS4" / "SOCKS5"
  1103. "ADDRESS=" IP:port
  1104. A connection was made to Tor's SOCKS port using one of the SOCKS
  1105. approaches that doesn't support hostnames -- only raw IP addresses.
  1106. If the client application got this address from gethostbyname(),
  1107. it may be leaking target addresses via DNS.
  1108. {Controllers should warn their users when this occurs, unless they
  1109. happen to know that the application using Tor is in fact doing so
  1110. correctly (e.g., because it is part of a distributed bundle).}
  1111. SOCKS_UNKNOWN_PROTOCOL
  1112. "DATA=string"
  1113. A connection was made to Tor's SOCKS port that tried to use it
  1114. for something other than the SOCKS protocol. Perhaps the user is
  1115. using Tor as an HTTP proxy? The DATA is the first few characters
  1116. sent to Tor on the SOCKS port.
  1117. {Controllers may want to warn their users when this occurs: it
  1118. indicates a misconfigured application.}
  1119. SOCKS_BAD_HOSTNAME
  1120. "HOSTNAME=QuotedString"
  1121. Some application gave us a funny-looking hostname. Perhaps
  1122. it is broken? In any case it won't work with Tor and the user
  1123. should know.
  1124. {Controllers may want to warn their users when this occurs: it
  1125. usually indicates a misconfigured application.}
  1126. Actions for STATUS_SERVER can be as follows:
  1127. EXTERNAL_ADDRESS
  1128. "ADDRESS=IP"
  1129. "HOSTNAME=NAME"
  1130. "METHOD=CONFIGURED/DIRSERV/RESOLVED/INTERFACE/GETHOSTNAME"
  1131. Our best idea for our externally visible IP has changed to 'IP'.
  1132. If 'HOSTNAME' is present, we got the new IP by resolving 'NAME'. If the
  1133. method is 'CONFIGURED', the IP was given verbatim as a configuration
  1134. option. If the method is 'RESOLVED', we resolved the Address
  1135. configuration option to get the IP. If the method is 'GETHOSTNAME',
  1136. we resolved our hostname to get the IP. If the method is 'INTERFACE',
  1137. we got the address of one of our network interfaces to get the IP. If
  1138. the method is 'DIRSERV', a directory server told us a guess for what
  1139. our IP might be.
  1140. {Controllers may want to record this info and display it to the user.}
  1141. CHECKING_REACHABILITY
  1142. "ORADDRESS=IP:port"
  1143. "DIRADDRESS=IP:port"
  1144. We're going to start testing the reachability of our external OR port
  1145. or directory port.
  1146. {This event could affect the controller's idea of server status, but
  1147. the controller should not interrupt the user to tell them so.}
  1148. REACHABILITY_SUCCEEDED
  1149. "ORADDRESS=IP:port"
  1150. "DIRADDRESS=IP:port"
  1151. We successfully verified the reachability of our external OR port or
  1152. directory port (depending on which of ORADDRESS or DIRADDRESS is
  1153. given.)
  1154. {This event could affect the controller's idea of server status, but
  1155. the controller should not interrupt the user to tell them so.}
  1156. GOOD_SERVER_DESCRIPTOR
  1157. We successfully uploaded our server descriptor to at least one
  1158. of the directory authorities, with no complaints.
  1159. {Originally, the goal of this event was to declare "every authority
  1160. has accepted the descriptor, so there will be no complaints
  1161. about it." But since some authorities might be offline, it's
  1162. harder to get certainty than we had thought. As such, this event
  1163. is equivalent to ACCEPTED_SERVER_DESCRIPTOR below. Controllers
  1164. should just look at ACCEPTED_SERVER_DESCRIPTOR and should ignore
  1165. this event for now.}
  1166. SERVER_DESCRIPTOR_STATUS
  1167. "STATUS=" "LISTED" / "UNLISTED"
  1168. We just got a new networkstatus consensus, and whether we're in
  1169. it or not in it has changed. Specifically, status is "listed"
  1170. if we're listed in it but previous to this point we didn't know
  1171. we were listed in a consensus; and status is "unlisted" if we
  1172. thought we should have been listed in it (e.g. we were listed in
  1173. the last one), but we're not.
  1174. {Moving from listed to unlisted is not necessarily cause for
  1175. alarm. The relay might have failed a few reachability tests,
  1176. or the Internet might have had some routing problems. So this
  1177. feature is mainly to let relay operators know when their relay
  1178. has successfully been listed in the consensus.}
  1179. [Not implemented yet. We should do this in 0.2.2.x. -RD]
  1180. NAMESERVER_STATUS
  1181. "NS=addr"
  1182. "STATUS=" "UP" / "DOWN"
  1183. "ERR=" message
  1184. One of our nameservers has changed status.
  1185. {This event could affect the controller's idea of server status, but
  1186. the controller should not interrupt the user to tell them so.}
  1187. NAMESERVER_ALL_DOWN
  1188. All of our nameservers have gone down.
  1189. {This is a problem; if it happens often without the nameservers
  1190. coming up again, the user needs to configure more or better
  1191. nameservers.}
  1192. DNS_HIJACKED
  1193. Our DNS provider is providing an address when it should be saying
  1194. "NOTFOUND"; Tor will treat the address as a synonym for "NOTFOUND".
  1195. {This is an annoyance; controllers may want to tell admins that their
  1196. DNS provider is not to be trusted.}
  1197. DNS_USELESS
  1198. Our DNS provider is giving a hijacked address instead of well-known
  1199. websites; Tor will not try to be an exit node.
  1200. {Controllers could warn the admin if the server is running as an
  1201. exit server: the admin needs to configure a good DNS server.
  1202. Alternatively, this happens a lot in some restrictive environments
  1203. (hotels, universities, coffeeshops) when the user hasn't registered.}
  1204. BAD_SERVER_DESCRIPTOR
  1205. "DIRAUTH=addr:port"
  1206. "REASON=string"
  1207. A directory authority rejected our descriptor. Possible reasons
  1208. include malformed descriptors, incorrect keys, highly skewed clocks,
  1209. and so on.
  1210. {Controllers should warn the admin, and try to cope if they can.}
  1211. ACCEPTED_SERVER_DESCRIPTOR
  1212. "DIRAUTH=addr:port"
  1213. A single directory authority accepted our descriptor.
  1214. // actually notice
  1215. {This event could affect the controller's idea of server status, but
  1216. the controller should not interrupt the user to tell them so.}
  1217. REACHABILITY_FAILED
  1218. "ORADDRESS=IP:port"
  1219. "DIRADDRESS=IP:port"
  1220. We failed to connect to our external OR port or directory port
  1221. successfully.
  1222. {This event could affect the controller's idea of server status. The
  1223. controller should warn the admin and suggest reasonable steps to take.}
  1224. 4.1.11. Our set of guard nodes has changed
  1225. Syntax:
  1226. "650" SP "GUARD" SP Type SP Name SP Status ... CRLF
  1227. Type = "ENTRY"
  1228. Name = The (possibly verbose) nickname of the guard affected.
  1229. Status = "NEW" | "UP" | "DOWN" | "BAD" | "GOOD" | "DROPPED"
  1230. [explain states. XXX]
  1231. 4.1.12. Network status has changed
  1232. Syntax:
  1233. "650" "+" "NS" CRLF 1*NetworkStatus "." CRLF "650" SP "OK" CRLF
  1234. The event is used whenever our local view of a relay status changes.
  1235. This happens when we get a new v3 consensus (in which case the entries
  1236. we see are a duplicate of what we see in the NEWCONSENSUS event,
  1237. below), but it also happens when we decide to mark a relay as up or
  1238. down in our local status, for example based on connection attempts.
  1239. [First added in 0.1.2.3-alpha]
  1240. 4.1.13. Bandwidth used on an application stream
  1241. The syntax is:
  1242. "650" SP "STREAM_BW" SP StreamID SP BytesWritten SP BytesRead CRLF
  1243. BytesWritten = 1*DIGIT
  1244. BytesRead = 1*DIGIT
  1245. BytesWritten and BytesRead are the number of bytes written and read
  1246. by the application since the last STREAM_BW event on this stream.
  1247. Note that from Tor's perspective, *reading* a byte on a stream means
  1248. that the application *wrote* the byte. That's why the order of "written"
  1249. vs "read" is opposite for stream_bw events compared to bw events.
  1250. These events are generated about once per second per stream; no events
  1251. are generated for streams that have not written or read. These events
  1252. apply only to streams entering Tor (such as on a SOCKSPort, TransPort,
  1253. or so on). They are not generated for exiting streams.
  1254. 4.1.14. Per-country client stats
  1255. The syntax is:
  1256. "650" SP "CLIENTS_SEEN" SP TimeStarted SP CountrySummary CRLF
  1257. We just generated a new summary of which countries we've seen clients
  1258. from recently. The controller could display this for the user, e.g.
  1259. in their "relay" configuration window, to give them a sense that they
  1260. are actually being useful.
  1261. Currently only bridge relays will receive this event, but once we figure
  1262. out how to sufficiently aggregate and sanitize the client counts on
  1263. main relays, we might start sending these events in other cases too.
  1264. TimeStarted is a quoted string indicating when the reported summary
  1265. counts from (in GMT).
  1266. The CountrySummary keyword has as its argument a comma-separated,
  1267. possibly empty set of "countrycode=count" pairs. For example (without
  1268. linebreak),
  1269. 650-CLIENTS_SEEN TimeStarted="2008-12-25 23:50:43"
  1270. CountrySummary=us=16,de=8,uk=8
  1271. 4.1.15. New consensus networkstatus has arrived.
  1272. The syntax is:
  1273. "650" "+" "NEWCONSENSUS" CRLF 1*NetworkStatus "." CRLF "650" SP
  1274. "OK" CRLF
  1275. A new consensus networkstatus has arrived. We include NS-style lines for
  1276. every relay in the consensus. NEWCONSENSUS is a separate event from the
  1277. NS event, because the list here represents every usable relay: so any
  1278. relay *not* mentioned in this list is implicitly no longer recommended.
  1279. [First added in 0.2.1.13-alpha]
  1280. 4.1.16. New circuit buildtime has been set.
  1281. The syntax is:
  1282. "650" SP "BUILDTIMEOUT_SET" SP Type SP "TOTAL_TIMES=" Total SP
  1283. "TIMEOUT_MS=" Timeout SP "XM=" Xm SP "ALPHA=" Alpha SP
  1284. "CUTOFF_QUANTILE=" Quantile CRLF
  1285. Type = "COMPUTED" / "RESET" / "SUSPENDED" / "DISCARD" / "RESUME"
  1286. Total = Integer count of timeouts stored
  1287. Timeout = Integer timeout in milliseconds
  1288. Xm = Estimated integer Pareto parameter Xm in milliseconds
  1289. Alpha = Estimated floating point Paredo paremter alpha
  1290. Quantile = Floating point CDF quantile cutoff point for this timeout
  1291. A new circuit build timeout time has been set. If Type is "COMPUTED",
  1292. Tor has computed the value based on historical data. If Type is "RESET",
  1293. initialization or drastic network changes have caused Tor to reset
  1294. the timeout back to the default, to relearn again. If Type is
  1295. "SUSPENDED", Tor has detected a loss of network connectivity and has
  1296. temporarily changed the timeout value to the default until the network
  1297. recovers. If type is "DISCARD", Tor has decided to discard timeout
  1298. values that likely happened while the network was down. If type is
  1299. "RESUME", Tor has decided to resume timeout calculation.
  1300. The Total value is the count of circuit build times Tor used in
  1301. computing this value. It is capped internally at the maximum number
  1302. of build times Tor stores (NCIRCUITS_TO_OBSERVE).
  1303. The Timeout itself is provided in milliseconds. Internally, Tor rounds
  1304. this value to the nearest second before using it.
  1305. [First added in 0.2.2.7-alpha]
  1306. 5. Implementation notes
  1307. 5.1. Authentication
  1308. If the control port is open and no authentication operation is enabled, Tor
  1309. trusts any local user that connects to the control port. This is generally
  1310. a poor idea.
  1311. If the 'CookieAuthentication' option is true, Tor writes a "magic cookie"
  1312. file named "control_auth_cookie" into its data directory. To authenticate,
  1313. the controller must send the contents of this file, encoded in hexadecimal.
  1314. If the 'HashedControlPassword' option is set, it must contain the salted
  1315. hash of a secret password. The salted hash is computed according to the
  1316. S2K algorithm in RFC 2440 (OpenPGP), and prefixed with the s2k specifier.
  1317. This is then encoded in hexadecimal, prefixed by the indicator sequence
  1318. "16:". Thus, for example, the password 'foo' could encode to:
  1319. 16:660537E3E1CD49996044A3BF558097A981F539FEA2F9DA662B4626C1C2
  1320. ++++++++++++++++**^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
  1321. salt hashed value
  1322. indicator
  1323. You can generate the salt of a password by calling
  1324. 'tor --hash-password <password>'
  1325. or by using the example code in the Python and Java controller libraries.
  1326. To authenticate under this scheme, the controller sends Tor the original
  1327. secret that was used to generate the password, either as a quoted string
  1328. or encoded in hexadecimal.
  1329. 5.2. Don't let the buffer get too big.
  1330. If you ask for lots of events, and 16MB of them queue up on the buffer,
  1331. the Tor process will close the socket.
  1332. 5.3. Backward compatibility with v0 control protocol.
  1333. The 'version 0' control protocol was replaced in Tor 0.1.1.x. Support
  1334. was removed in Tor 0.2.0.x. Every non-obsolete version of Tor now
  1335. supports the version 1 control protocol.
  1336. For backward compatibility with the "version 0" control protocol,
  1337. Tor used to check whether the third octet of the first command is zero.
  1338. (If it was, Tor assumed that version 0 is in use.)
  1339. This compatibility was removed in Tor 0.1.2.16 and 0.2.0.4-alpha.
  1340. 5.4. Tor config options for use by controllers
  1341. Tor provides a few special configuration options for use by controllers.
  1342. These options can be set and examined by the SETCONF and GETCONF commands,
  1343. but are not saved to disk by SAVECONF.
  1344. Generally, these options make Tor unusable by disabling a portion of Tor's
  1345. normal operations. Unless a controller provides replacement functionality
  1346. to fill this gap, Tor will not correctly handle user requests.
  1347. __AllDirOptionsPrivate
  1348. If true, Tor will try to launch all directory operations through
  1349. anonymous connections. (Ordinarily, Tor only tries to anonymize
  1350. requests related to hidden services.) This option will slow down
  1351. directory access, and may stop Tor from working entirely if it does not
  1352. yet have enough directory information to build circuits.
  1353. (Boolean. Default: "0".)
  1354. __DisablePredictedCircuits
  1355. If true, Tor will not launch preemptive "general-purpose" circuits for
  1356. streams to attach to. (It will still launch circuits for testing and
  1357. for hidden services.)
  1358. (Boolean. Default: "0".)
  1359. __LeaveStreamsUnattached
  1360. If true, Tor will not automatically attach new streams to circuits;
  1361. instead, the controller must attach them with ATTACHSTREAM. If the
  1362. controller does not attach the streams, their data will never be routed.
  1363. (Boolean. Default: "0".)
  1364. __HashedControlSessionPassword
  1365. As HashedControlPassword, but is not saved to the torrc file by
  1366. SAVECONF. Added in Tor 0.2.0.20-rc.
  1367. __ReloadTorrcOnSIGHUP
  1368. If this option is true (the default), we reload the torrc from disk
  1369. every time we get a SIGHUP (from the controller or via a signal).
  1370. Otherwise, we don't. This option exists so that controllers can keep
  1371. their options from getting overwritten when a user sends Tor a HUP for
  1372. some other reason (for example, to rotate the logs).
  1373. (Boolean. Default: "1")
  1374. 5.5. Phases from the Bootstrap status event.
  1375. This section describes the various bootstrap phases currently reported
  1376. by Tor. Controllers should not assume that the percentages and tags
  1377. listed here will continue to match up, or even that the tags will stay
  1378. in the same order. Some phases might also be skipped (not reported)
  1379. if the associated bootstrap step is already complete, or if the phase
  1380. no longer is necessary. Only "starting" and "done" are guaranteed to
  1381. exist in all future versions.
  1382. Current Tor versions enter these phases in order, monotonically.
  1383. Future Tors MAY revisit earlier stages.
  1384. Phase 0:
  1385. tag=starting summary="Starting"
  1386. Tor starts out in this phase.
  1387. Phase 5:
  1388. tag=conn_dir summary="Connecting to directory mirror"
  1389. Tor sends this event as soon as Tor has chosen a directory mirror --
  1390. e.g. one of the authorities if bootstrapping for the first time or
  1391. after a long downtime, or one of the relays listed in its cached
  1392. directory information otherwise.
  1393. Tor will stay at this phase until it has successfully established
  1394. a TCP connection with some directory mirror. Problems in this phase
  1395. generally happen because Tor doesn't have a network connection, or
  1396. because the local firewall is dropping SYN packets.
  1397. Phase 10:
  1398. tag=handshake_dir summary="Finishing handshake with directory mirror"
  1399. This event occurs when Tor establishes a TCP connection with a relay used
  1400. as a directory mirror (or its https proxy if it's using one). Tor remains
  1401. in this phase until the TLS handshake with the relay is finished.
  1402. Problems in this phase generally happen because Tor's firewall is
  1403. doing more sophisticated MITM attacks on it, or doing packet-level
  1404. keyword recognition of Tor's handshake.
  1405. Phase 15:
  1406. tag=onehop_create summary="Establishing one-hop circuit for dir info"
  1407. Once TLS is finished with a relay, Tor will send a CREATE_FAST cell
  1408. to establish a one-hop circuit for retrieving directory information.
  1409. It will remain in this phase until it receives the CREATED_FAST cell
  1410. back, indicating that the circuit is ready.
  1411. Phase 20:
  1412. tag=requesting_status summary="Asking for networkstatus consensus"
  1413. Once we've finished our one-hop circuit, we will start a new stream
  1414. for fetching the networkstatus consensus. We'll stay in this phase
  1415. until we get the 'connected' relay cell back, indicating that we've
  1416. established a directory connection.
  1417. Phase 25:
  1418. tag=loading_status summary="Loading networkstatus consensus"
  1419. Once we've established a directory connection, we will start fetching
  1420. the networkstatus consensus document. This could take a while; this
  1421. phase is a good opportunity for using the "progress" keyword to indicate
  1422. partial progress.
  1423. This phase could stall if the directory mirror we picked doesn't
  1424. have a copy of the networkstatus consensus so we have to ask another,
  1425. or it does give us a copy but we don't find it valid.
  1426. Phase 40:
  1427. tag=loading_keys summary="Loading authority key certs"
  1428. Sometimes when we've finished loading the networkstatus consensus,
  1429. we find that we don't have all the authority key certificates for the
  1430. keys that signed the consensus. At that point we put the consensus we
  1431. fetched on hold and fetch the keys so we can verify the signatures.
  1432. Phase 45
  1433. tag=requesting_descriptors summary="Asking for relay descriptors"
  1434. Once we have a valid networkstatus consensus and we've checked all
  1435. its signatures, we start asking for relay descriptors. We stay in this
  1436. phase until we have received a 'connected' relay cell in response to
  1437. a request for descriptors.
  1438. Phase 50:
  1439. tag=loading_descriptors summary="Loading relay descriptors"
  1440. We will ask for relay descriptors from several different locations,
  1441. so this step will probably make up the bulk of the bootstrapping,
  1442. especially for users with slow connections. We stay in this phase until
  1443. we have descriptors for at least 1/4 of the usable relays listed in
  1444. the networkstatus consensus. This phase is also a good opportunity to
  1445. use the "progress" keyword to indicate partial steps.
  1446. Phase 80:
  1447. tag=conn_or summary="Connecting to entry guard"
  1448. Once we have a valid consensus and enough relay descriptors, we choose
  1449. some entry guards and start trying to build some circuits. This step
  1450. is similar to the "conn_dir" phase above; the only difference is
  1451. the context.
  1452. If a Tor starts with enough recent cached directory information,
  1453. its first bootstrap status event will be for the conn_or phase.
  1454. Phase 85:
  1455. tag=handshake_or summary="Finishing handshake with entry guard"
  1456. This phase is similar to the "handshake_dir" phase, but it gets reached
  1457. if we finish a TCP connection to a Tor relay and we have already reached
  1458. the "conn_or" phase. We'll stay in this phase until we complete a TLS
  1459. handshake with a Tor relay.
  1460. Phase 90:
  1461. tag=circuit_create summary="Establishing circuits"
  1462. Once we've finished our TLS handshake with an entry guard, we will
  1463. set about trying to make some 3-hop circuits in case we need them soon.
  1464. Phase 100:
  1465. tag=done summary="Done"
  1466. A full 3-hop exit circuit has been established. Tor is ready to handle
  1467. application connections now.