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} div.exampleblock-content { border-left: 2px solid silver; padding-left: 0.5em; } /* IE6 sets dynamically generated links as visited. */ div#toc a:visited { color: blue; } </style> </head> <body> <div id="header"> <h1> TOR(1) Manual Page </h1> <h2>NAME</h2> <div class="sectionbody"> <p>tor - The second-generation onion router </p> </div> </div> <h2 id="_synopsis">SYNOPSIS</h2> <div class="sectionbody"> <div class="paragraph"><p><strong>tor</strong> [<em>OPTION</em> <em>value</em>]…</p></div> </div> <h2 id="_description">DESCRIPTION</h2> <div class="sectionbody"> <div class="paragraph"><p><em>tor</em> is a connection-oriented anonymizing communication service. Users choose a source-routed path through a set of nodes, and negotiate a "virtual circuit" through the network, in which each node knows its predecessor and successor, but no others. Traffic flowing down the circuit is unwrapped by a symmetric key at each node, which reveals the downstream node.<br /></p></div> <div class="paragraph"><p>Basically <em>tor</em> provides a distributed network of servers ("onion routers"). Users bounce their TCP streams — web traffic, ftp, ssh, etc — around the routers, and recipients, observers, and even the routers themselves have difficulty tracking the source of the stream.</p></div> </div> <h2 id="_options">OPTIONS</h2> <div class="sectionbody"> <div class="dlist"><dl> <dt class="hdlist1"> <strong>-h</strong>, <strong>-help</strong> </dt> <dd> <p> Display a short help message and exit. </p> </dd> <dt class="hdlist1"> <strong>-f</strong> <em>FILE</em> </dt> <dd> <p> FILE contains further "option value" pairs. (Default: /etc/tor/torrc) </p> </dd> <dt class="hdlist1"> <strong>--hash-password</strong> </dt> <dd> <p> Generates a hashed password for control port access. </p> </dd> <dt class="hdlist1"> <strong>--list-fingerprint</strong> </dt> <dd> <p> Generate your keys and output your nickname and fingerprint. </p> </dd> <dt class="hdlist1"> <strong>--verify-config</strong> </dt> <dd> <p> Verify the configuration file is valid. </p> </dd> <dt class="hdlist1"> <strong>--nt-service</strong> </dt> <dd> <p> <strong>--service [install|remove|start|stop]</strong> Manage the Tor Windows NT/2000/XP service. Current instructions can be found at <a href="https://wiki.torproject.org/noreply/TheOnionRouter/TorFAQ#WinNTService">https://wiki.torproject.org/noreply/TheOnionRouter/TorFAQ#WinNTService</a> </p> </dd> <dt class="hdlist1"> <strong>--list-torrc-options</strong> </dt> <dd> <p> List all valid options. </p> </dd> <dt class="hdlist1"> <strong>--version</strong> </dt> <dd> <p> Display Tor version and exit. </p> </dd> <dt class="hdlist1"> <strong>--quiet</strong> </dt> <dd> <p> Do not start Tor with a console log unless explicitly requested to do so. (By default, Tor starts out logging messages at level "notice" or higher to the console, until it has parsed its configuration.) </p> </dd> </dl></div> <div class="paragraph"><p>Other options can be specified either on the command-line (--option value), or in the configuration file (option value or option "value"). Options are case-insensitive. C-style escaped characters are allowed inside quoted values. Options on the command line take precedence over options found in the configuration file, except indicated otherwise. To split one configuration entry into multiple lines, use a single \ before the end of the line. Comments can be used in such multiline entries, but they must start at the beginning of a line.</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>BandwidthRate</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> A token bucket limits the average incoming bandwidth usage on this node to the specified number of bytes per second, and the average outgoing bandwidth usage to that same value. If you want to run a relay in the public network, this needs to be <em>at the very least</em> 20 KB (that is, 20480 bytes). (Default: 5 MB) </p> </dd> <dt class="hdlist1"> <strong>BandwidthBurst</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> Limit the maximum token bucket size (also known as the burst) to the given number of bytes in each direction. (Default: 10 MB) </p> </dd> <dt class="hdlist1"> <strong>MaxAdvertisedBandwidth</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> If set, we will not advertise more than this amount of bandwidth for our BandwidthRate. Server operators who want to reduce the number of clients who ask to build circuits through them (since this is proportional to advertised bandwidth rate) can thus reduce the CPU demands on their server without impacting network performance. </p> </dd> <dt class="hdlist1"> <strong>RelayBandwidthRate</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> If not 0, a separate token bucket limits the average incoming bandwidth usage for _relayed traffic_ on this node to the specified number of bytes per second, and the average outgoing bandwidth usage to that same value. Relayed traffic currently is calculated to include answers to directory requests, but that may change in future versions. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>RelayBandwidthBurst</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> If not 0, limit the maximum token bucket size (also known as the burst) for _relayed traffic_ to the given number of bytes in each direction. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>PerConnBWRate</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> If set, do separate rate limiting for each connection from a non-relay. You should never need to change this value, since a network-wide value is published in the consensus and your relay will use that value. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>PerConnBWBurst</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> If set, do separate rate limiting for each connection from a non-relay. You should never need to change this value, since a network-wide value is published in the consensus and your relay will use that value. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>ConnLimit</strong> <em>NUM</em> </dt> <dd> <p> The minimum number of file descriptors that must be available to the Tor process before it will start. Tor will ask the OS for as many file descriptors as the OS will allow (you can find this by "ulimit -H -n"). If this number is less than ConnLimit, then Tor will refuse to start.<br /> <br /> You probably don’t need to adjust this. It has no effect on Windows since that platform lacks getrlimit(). (Default: 1000) </p> </dd> <dt class="hdlist1"> <strong>ConstrainedSockets</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set, Tor will tell the kernel to attempt to shrink the buffers for all sockets to the size specified in <strong>ConstrainedSockSize</strong>. This is useful for virtual servers and other environments where system level TCP buffers may be limited. If you’re on a virtual server, and you encounter the "Error creating network socket: No buffer space available" message, you are likely experiencing this problem.<br /> <br /> The preferred solution is to have the admin increase the buffer pool for the host itself via /proc/sys/net/ipv4/tcp_mem or equivalent facility; this configuration option is a second-resort.<br /> <br /> The DirPort option should also not be used if TCP buffers are scarce. The cached directory requests consume additional sockets which exacerbates the problem.<br /> <br /> You should <strong>not</strong> enable this feature unless you encounter the "no buffer space available" issue. Reducing the TCP buffers affects window size for the TCP stream and will reduce throughput in proportion to round trip time on long paths. (Default: 0.) </p> </dd> <dt class="hdlist1"> <strong>ConstrainedSockSize</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong> </dt> <dd> <p> When <strong>ConstrainedSockets</strong> is enabled the receive and transmit buffers for all sockets will be set to this limit. Must be a value between 2048 and 262144, in 1024 byte increments. Default of 8192 is recommended. </p> </dd> <dt class="hdlist1"> <strong>ControlPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> If set, Tor will accept connections on this port and allow those connections to control the Tor process using the Tor Control Protocol (described in control-spec.txt). Note: unless you also specify one or more of <strong>HashedControlPassword</strong> or <strong>CookieAuthentication</strong>, setting this option will cause Tor to allow any process on the local host to control it. (Setting both authentication methods means either method is sufficient to authenticate to Tor.) This option is required for many Tor controllers; most use the value of 9051. Set it to "auto" to have Tor pick a port for you. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>ControlListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind the controller listener to this address. If you specify a port, bind to this port rather than the one specified in ControlPort. We strongly recommend that you leave this alone unless you know what you’re doing, since giving attackers access to your control listener is really dangerous. (Default: 127.0.0.1) This directive can be specified multiple times to bind to multiple addresses/ports. </p> </dd> <dt class="hdlist1"> <strong>ControlSocket</strong> <em>Path</em> </dt> <dd> <p> Like ControlPort, but listens on a Unix domain socket, rather than a TCP socket. (Unix and Unix-like systems only.) </p> </dd> <dt class="hdlist1"> <strong>ControlSocketsGroupWritable</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If this option is set to 0, don’t allow the filesystem group to read and write unix sockets (e.g. ControlSocket). If the option is set to 1, make the control socket readable and writable by the default GID. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>HashedControlPassword</strong> <em>hashed_password</em> </dt> <dd> <p> Allow connections on the control port if they present the password whose one-way hash is <em>hashed_password</em>. You can compute the hash of a password by running "tor --hash-password <em>password</em>". You can provide several acceptable passwords by using more than one HashedControlPassword line. </p> </dd> <dt class="hdlist1"> <strong>CookieAuthentication</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If this option is set to 1, allow connections on the control port when the connecting process knows the contents of a file named "control_auth_cookie", which Tor will create in its data directory. This authentication method should only be used on systems with good filesystem security. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>CookieAuthFile</strong> <em>Path</em> </dt> <dd> <p> If set, this option overrides the default location and file name for Tor’s cookie file. (See CookieAuthentication above.) </p> </dd> <dt class="hdlist1"> <strong>CookieAuthFileGroupReadable</strong> <strong>0</strong>|<strong>1</strong>|<em>Groupname</em> </dt> <dd> <p> If this option is set to 0, don’t allow the filesystem group to read the cookie file. If the option is set to 1, make the cookie file readable by the default GID. [Making the file readable by other groups is not yet implemented; let us know if you need this for some reason.] (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>ControlPortWriteToFile</strong> <em>Path</em> </dt> <dd> <p> If set, Tor writes the address and port of any control port it opens to this address. Usable by controllers to learn the actual control port when ControlPort is set to "auto". </p> </dd> <dt class="hdlist1"> <strong>ControlPortFileGroupReadable</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If this option is set to 0, don’t allow the filesystem group to read the control port file. If the option is set to 1, make the control port file readable by the default GID. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>DataDirectory</strong> <em>DIR</em> </dt> <dd> <p> Store working data in DIR (Default: /var/lib/tor) </p> </dd> <dt class="hdlist1"> <strong>DirServer</strong> [<em>nickname</em>] [<strong>flags</strong>] <em>address</em>:<em>port</em> <em>fingerprint</em> </dt> <dd> <p> Use a nonstandard authoritative directory server at the provided address and port, with the specified key fingerprint. This option can be repeated many times, for multiple authoritative directory servers. Flags are separated by spaces, and determine what kind of an authority this directory is. By default, every authority is authoritative for current ("v2")-style directories, unless the "no-v2" flag is given. If the "v1" flags is provided, Tor will use this server as an authority for old-style (v1) directories as well. (Only directory mirrors care about this.) Tor will use this server as an authority for hidden service information if the "hs" flag is set, or if the "v1" flag is set and the "no-hs" flag is <strong>not</strong> set. Tor will use this authority as a bridge authoritative directory if the "bridge" flag is set. If a flag "orport=<strong>port</strong>" is given, Tor will use the given port when opening encrypted tunnels to the dirserver. Lastly, if a flag "v3ident=<strong>fp</strong>" is given, the dirserver is a v3 directory authority whose v3 long-term signing key has the fingerprint <strong>fp</strong>.<br /> <br /> If no <strong>dirserver</strong> line is given, Tor will use the default directory servers. NOTE: this option is intended for setting up a private Tor network with its own directory authorities. If you use it, you will be distinguishable from other users, because you won’t believe the same authorities they do. </p> </dd> </dl></div> <div class="paragraph"><p><strong>AlternateDirAuthority</strong> [<em>nickname</em>] [<strong>flags</strong>] <em>address</em>:<em>port</em> <em>fingerprint</em><br /></p></div> <div class="paragraph"><p><strong>AlternateHSAuthority</strong> [<em>nickname</em>] [<strong>flags</strong>] <em>address</em>:<em>port</em> <em>fingerprint</em><br /></p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>AlternateBridgeAuthority</strong> [<em>nickname</em>] [<strong>flags</strong>] <em>address</em>:<em>port</em> <em> fingerprint</em> </dt> <dd> <p> As DirServer, but replaces less of the default directory authorities. Using AlternateDirAuthority replaces the default Tor directory authorities, but leaves the hidden service authorities and bridge authorities in place. Similarly, Using AlternateHSAuthority replaces the default hidden service authorities, but not the directory or bridge authorities. </p> </dd> <dt class="hdlist1"> <strong>DisableAllSwap</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will attempt to lock all current and future memory pages, so that memory cannot be paged out. Windows, OS X and Solaris are currently not supported. We believe that this feature works on modern Gnu/Linux distributions, and that it should work on *BSD systems (untested). This option requires that you start your Tor as root, and you should use the <strong>User</strong> option to properly reduce Tor’s privileges. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>FetchDirInfoEarly</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will always fetch directory information like other directory caches, even if you don’t meet the normal criteria for fetching early. Normal users should leave it off. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>FetchDirInfoExtraEarly</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will fetch directory information before other directory caches. It will attempt to download directory information closer to the start of the consensus period. Normal users should leave it off. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>FetchHidServDescriptors</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 0, Tor will never fetch any hidden service descriptors from the rendezvous directories. This option is only useful if you’re using a Tor controller that handles hidden service fetches for you. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>FetchServerDescriptors</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 0, Tor will never fetch any network status summaries or server descriptors from the directory servers. This option is only useful if you’re using a Tor controller that handles directory fetches for you. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>FetchUselessDescriptors</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will fetch every non-obsolete descriptor from the authorities that it hears about. Otherwise, it will avoid fetching useless descriptors, for example for routers that are not running. This option is useful if you’re using the contributed "exitlist" script to enumerate Tor nodes that exit to certain addresses. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>HTTPProxy</strong> <em>host</em>[:<em>port</em>] </dt> <dd> <p> Tor will make all its directory requests through this host:port (or host:80 if port is not specified), rather than connecting directly to any directory servers. </p> </dd> <dt class="hdlist1"> <strong>HTTPProxyAuthenticator</strong> <em>username:password</em> </dt> <dd> <p> If defined, Tor will use this username:password for Basic HTTP proxy authentication, as in RFC 2617. This is currently the only form of HTTP proxy authentication that Tor supports; feel free to submit a patch if you want it to support others. </p> </dd> <dt class="hdlist1"> <strong>HTTPSProxy</strong> <em>host</em>[:<em>port</em>] </dt> <dd> <p> Tor will make all its OR (SSL) connections through this host:port (or host:443 if port is not specified), via HTTP CONNECT rather than connecting directly to servers. You may want to set <strong>FascistFirewall</strong> to restrict the set of ports you might try to connect to, if your HTTPS proxy only allows connecting to certain ports. </p> </dd> <dt class="hdlist1"> <strong>HTTPSProxyAuthenticator</strong> <em>username:password</em> </dt> <dd> <p> If defined, Tor will use this username:password for Basic HTTPS proxy authentication, as in RFC 2617. This is currently the only form of HTTPS proxy authentication that Tor supports; feel free to submit a patch if you want it to support others. </p> </dd> <dt class="hdlist1"> <strong>Socks4Proxy</strong> <em>host</em>[:<em>port</em>] </dt> <dd> <p> Tor will make all OR connections through the SOCKS 4 proxy at host:port (or host:1080 if port is not specified). </p> </dd> <dt class="hdlist1"> <strong>Socks5Proxy</strong> <em>host</em>[:<em>port</em>] </dt> <dd> <p> Tor will make all OR connections through the SOCKS 5 proxy at host:port (or host:1080 if port is not specified). </p> </dd> </dl></div> <div class="paragraph"><p><strong>Socks5ProxyUsername</strong> <em>username</em><br /></p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>Socks5ProxyPassword</strong> <em>password</em> </dt> <dd> <p> If defined, authenticate to the SOCKS 5 server using username and password in accordance to RFC 1929. Both username and password must be between 1 and 255 characters. </p> </dd> <dt class="hdlist1"> <strong>KeepalivePeriod</strong> <em>NUM</em> </dt> <dd> <p> To keep firewalls from expiring connections, send a padding keepalive cell every NUM seconds on open connections that are in use. If the connection has no open circuits, it will instead be closed after NUM seconds of idleness. (Default: 5 minutes) </p> </dd> <dt class="hdlist1"> <strong>Log</strong> <em>minSeverity</em>[-<em>maxSeverity</em>] <strong>stderr</strong>|<strong>stdout</strong>|<strong>syslog</strong> </dt> <dd> <p> Send all messages between <em>minSeverity</em> and <em>maxSeverity</em> to the standard output stream, the standard error stream, or to the system log. (The "syslog" value is only supported on Unix.) Recognized severity levels are debug, info, notice, warn, and err. We advise using "notice" in most cases, since anything more verbose may provide sensitive information to an attacker who obtains the logs. If only one severity level is given, all messages of that level or higher will be sent to the listed destination. </p> </dd> <dt class="hdlist1"> <strong>Log</strong> <em>minSeverity</em>[-<em>maxSeverity</em>] <strong>file</strong> <em>FILENAME</em> </dt> <dd> <p> As above, but send log messages to the listed filename. The "Log" option may appear more than once in a configuration file. Messages are sent to all the logs that match their severity level. </p> </dd> </dl></div> <div class="paragraph"><p><strong>Log</strong> <strong>[</strong><em>domain</em>,…<strong>]</strong><em>minSeverity</em>[-<em>maxSeverity</em>] … <strong>file</strong> <em>FILENAME</em><br /></p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>Log</strong> <strong>[</strong><em>domain</em>,…<strong>]</strong><em>minSeverity</em>[-<em>maxSeverity</em>] … <strong>stderr</strong>|<strong>stdout</strong>|<strong>syslog</strong> </dt> <dd> <p> As above, but select messages by range of log severity <em>and</em> by a set of "logging domains". Each logging domain corresponds to an area of functionality inside Tor. You can specify any number of severity ranges for a single log statement, each of them prefixed by a comma-separated list of logging domains. You can prefix a domain with ~ to indicate negation, and use * to indicate "all domains". If you specify a severity range without a list of domains, it matches all domains.<br /> <br /> This is an advanced feature which is most useful for debugging one or two of Tor’s subsystems at a time.<br /> <br /> The currently recognized domains are: general, crypto, net, config, fs, protocol, mm, http, app, control, circ, rend, bug, dir, dirserv, or, edge, acct, hist, and handshake. Domain names are case-insensitive.<br /> <br /> For example, "<tt>Log [handshake]debug [~net,~mm]info notice stdout</tt>" sends to stdout: all handshake messages of any severity, all info-and-higher messages from domains other than networking and memory management, and all messages of severity notice or higher. </p> </dd> <dt class="hdlist1"> <strong>LogMessageDomains</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 1, Tor includes message domains with each log message. Every log message currently has at least one domain; most currently have exactly one. This doesn’t affect controller log messages. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>OutboundBindAddress</strong> <em>IP</em> </dt> <dd> <p> Make all outbound connections originate from the IP address specified. This is only useful when you have multiple network interfaces, and you want all of Tor’s outgoing connections to use a single one. This setting will be ignored for connections to the loopback addresses (127.0.0.0/8 and ::1). </p> </dd> <dt class="hdlist1"> <strong>PidFile</strong> <em>FILE</em> </dt> <dd> <p> On startup, write our PID to FILE. On clean shutdown, remove FILE. </p> </dd> <dt class="hdlist1"> <strong>ProtocolWarnings</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 1, Tor will log with severity 'warn' various cases of other parties not following the Tor specification. Otherwise, they are logged with severity 'info'. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>RunAsDaemon</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 1, Tor forks and daemonizes to the background. This option has no effect on Windows; instead you should use the --service command-line option. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>SafeLogging</strong> <strong>0</strong>|<strong>1</strong>|<strong>relay</strong> </dt> <dd> <p> Tor can scrub potentially sensitive strings from log messages (e.g. addresses) by replacing them with the string [scrubbed]. This way logs can still be useful, but they don’t leave behind personally identifying information about what sites a user might have visited.<br /> <br /> If this option is set to 0, Tor will not perform any scrubbing, if it is set to 1, all potentially sensitive strings are replaced. If it is set to relay, all log messages generated when acting as a relay are sanitized, but all messages generated when acting as a client are not. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>User</strong> <em>UID</em> </dt> <dd> <p> On startup, setuid to this user and setgid to their primary group. </p> </dd> <dt class="hdlist1"> <strong>HardwareAccel</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If non-zero, try to use built-in (static) crypto hardware acceleration when available. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>AccelName</strong> <em>NAME</em> </dt> <dd> <p> When using OpenSSL hardware crypto acceleration attempt to load the dynamic engine of this name. This must be used for any dynamic hardware engine. Names can be verified with the openssl engine command. </p> </dd> <dt class="hdlist1"> <strong>AccelDir</strong> <em>DIR</em> </dt> <dd> <p> Specify this option if using dynamic hardware acceleration and the engine implementation library resides somewhere other than the OpenSSL default. </p> </dd> <dt class="hdlist1"> <strong>AvoidDiskWrites</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If non-zero, try to write to disk less frequently than we would otherwise. This is useful when running on flash memory or other media that support only a limited number of writes. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>TunnelDirConns</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If non-zero, when a directory server we contact supports it, we will build a one-hop circuit and make an encrypted connection via its ORPort. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>PreferTunneledDirConns</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If non-zero, we will avoid directory servers that don’t support tunneled directory connections, when possible. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>CircuitPriorityHalflife</strong> <em>NUM1</em> </dt> <dd> <p> If this value is set, we override the default algorithm for choosing which circuit’s cell to deliver or relay next. When the value is 0, we round-robin between the active circuits on a connection, delivering one cell from each in turn. When the value is positive, we prefer delivering cells from whichever connection has the lowest weighted cell count, where cells are weighted exponentially according to the supplied CircuitPriorityHalflife value (in seconds). If this option is not set at all, we use the behavior recommended in the current consensus networkstatus. This is an advanced option; you generally shouldn’t have to mess with it. (Default: not set.) </p> </dd> </dl></div> </div> <h2 id="_client_options">CLIENT OPTIONS</h2> <div class="sectionbody"> <div class="paragraph"><p>The following options are useful only for clients (that is, if <strong>SocksPort</strong> is non-zero):</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>AllowInvalidNodes</strong> <strong>entry</strong>|<strong>exit</strong>|<strong>middle</strong>|<strong>introduction</strong>|<strong>rendezvous</strong>|<strong>…</strong> </dt> <dd> <p> If some Tor servers are obviously not working right, the directory authorities can manually mark them as invalid, meaning that it’s not recommended you use them for entry or exit positions in your circuits. You can opt to use them in some circuit positions, though. The default is "middle,rendezvous", and other choices are not advised. </p> </dd> <dt class="hdlist1"> <strong>ExcludeSingleHopRelays</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> This option controls whether circuits built by Tor will include relays with the AllowSingleHopExits flag set to true. If ExcludeSingleHopRelays is set to 0, these relays will be included. Note that these relays might be at higher risk of being seized or observed, so they are not normally included. Also note that relatively few clients turn off this option, so using these relays might make your client stand out. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>Bridge</strong> <em>IP</em>:<em>ORPort</em> [fingerprint] </dt> <dd> <p> When set along with UseBridges, instructs Tor to use the relay at "IP:ORPort" as a "bridge" relaying into the Tor network. If "fingerprint" is provided (using the same format as for DirServer), we will verify that the relay running at that location has the right fingerprint. We also use fingerprint to look up the bridge descriptor at the bridge authority, if it’s provided and if UpdateBridgesFromAuthority is set too. </p> </dd> <dt class="hdlist1"> <strong>LearnCircuitBuildTimeout</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 0, CircuitBuildTimeout adaptive learning is disabled. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>CircuitBuildTimeout</strong> <em>NUM</em> </dt> <dd> <p> Try for at most NUM seconds when building circuits. If the circuit isn’t open in that time, give up on it. If LearnCircuitBuildTimeout is 1, this value serves as the initial value to use before a timeout is learned. If LearnCircuitBuildTimeout is 0, this value is the only value used. (Default: 60 seconds.) </p> </dd> <dt class="hdlist1"> <strong>CircuitIdleTimeout</strong> <em>NUM</em> </dt> <dd> <p> If we have kept a clean (never used) circuit around for NUM seconds, then close it. This way when the Tor client is entirely idle, it can expire all of its circuits, and then expire its TLS connections. Also, if we end up making a circuit that is not useful for exiting any of the requests we’re receiving, it won’t forever take up a slot in the circuit list. (Default: 1 hour.) </p> </dd> <dt class="hdlist1"> <strong>CircuitStreamTimeout</strong> <em>NUM</em> </dt> <dd> <p> If non-zero, this option overrides our internal timeout schedule for how many seconds until we detach a stream from a circuit and try a new circuit. If your network is particularly slow, you might want to set this to a number like 60. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>ClientOnly</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will under no circumstances run as a server or serve directory requests. The default is to run as a client unless ORPort is configured. (Usually, you don’t need to set this; Tor is pretty smart at figuring out whether you are reliable and high-bandwidth enough to be a useful server.) (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>ExcludeNodes</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> A list of identity fingerprints, nicknames, country codes and address patterns of nodes to avoid when building a circuit. (Example: ExcludeNodes SlowServer, ABCD1234CDEF5678ABCD1234CDEF5678ABCD1234, {cc}, 255.254.0.0/8)<br /> <br /> By default, this option is treated as a preference that Tor is allowed to override in order to keep working. For example, if you try to connect to a hidden service, but you have excluded all of the hidden service’s introduction points, Tor will connect to one of them anyway. If you do not want this behavior, set the StrictNodes option (documented below). <br /> <br /> Note also that if you are a relay, this (and the other node selection options below) only affects your own circuits that Tor builds for you. Clients can still build circuits through you to any node. Controllers can tell Tor to build circuits through any node. </p> </dd> <dt class="hdlist1"> <strong>ExcludeExitNodes</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> A list of identity fingerprints, nicknames, country codes and address patterns of nodes to never use when picking an exit node---that is, a node that delivers traffic for you outside the Tor network. Note that any node listed in ExcludeNodes is automatically considered to be part of this list too. See also the caveats on the "ExitNodes" option below. </p> </dd> <dt class="hdlist1"> <strong>ExitNodes</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> A list of identity fingerprints, nicknames, country codes and address patterns of nodes to use as exit node---that is, a node that delivers traffic for you outside the Tor network.<br /> <br /> Note that if you list too few nodes here, or if you exclude too many exit nodes with ExcludeExitNodes, you can degrade functionality. For example, if none of the exits you list allows traffic on port 80 or 443, you won’t be able to browse the web.<br /> <br /> Note also that not every circuit is used to deliver traffic outside of the Tor network. It is normal to see non-exit circuits (such as those used to connect to hidden services, those that do directory fetches, those used for relay reachability self-tests, and so on) that end at a non-exit node. To keep a node from being used entirely, see ExcludeNodes and StrictNodes.<br /> <br /> The ExcludeNodes option overrides this option: any node listed in both ExitNodes and ExcludeNodes is treated as excluded.<br /> <br /> The .exit address notation, if enabled via AllowDotExit, overrides this option. </p> </dd> <dt class="hdlist1"> <strong>EntryNodes</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> A list of identity fingerprints and nicknames of nodes to use for the first hop in your normal circuits. (Country codes and address patterns are not yet supported.) Normal circuits include all circuits except for direct connections to directory servers. The Bridge option overrides this option; if you have configured bridges and UseBridges is 1, the Bridges are used as your entry nodes.<br /> <br /> The ExcludeNodes option overrides this option: any node listed in both EntryNodes and ExcludeNodes is treated as excluded. </p> </dd> <dt class="hdlist1"> <strong>StrictNodes</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If StrictNodes is set to 1, Tor will treat the ExcludeNodes option as a requirement to follow for all the circuits you generate, even if doing so will break functionality for you. If StrictNodes is set to 0, Tor will still try to avoid nodes in the ExcludeNodes list, but it will err on the side of avoiding unexpected errors. Specifically, StrictNodes 0 tells Tor that it is okay to use an excluded node when it is <strong>necessary</strong> to perform relay reachability self-tests, connect to a hidden service, provide a hidden service to a client, fulfill a .exit request, upload directory information, or download directory information. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>FascistFirewall</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 1, Tor will only create outgoing connections to ORs running on ports that your firewall allows (defaults to 80 and 443; see <strong>FirewallPorts</strong>). This will allow you to run Tor as a client behind a firewall with restrictive policies, but will not allow you to run as a server behind such a firewall. If you prefer more fine-grained control, use ReachableAddresses instead. </p> </dd> <dt class="hdlist1"> <strong>FirewallPorts</strong> <em>PORTS</em> </dt> <dd> <p> A list of ports that your firewall allows you to connect to. Only used when <strong>FascistFirewall</strong> is set. This option is deprecated; use ReachableAddresses instead. (Default: 80, 443) </p> </dd> <dt class="hdlist1"> <strong>HidServAuth</strong> <em>onion-address</em> <em>auth-cookie</em> [<em>service-name</em>] </dt> <dd> <p> Client authorization for a hidden service. Valid onion addresses contain 16 characters in a-z2-7 plus ".onion", and valid auth cookies contain 22 characters in A-Za-z0-9+/. The service name is only used for internal purposes, e.g., for Tor controllers. This option may be used multiple times for different hidden services. If a hidden service uses authorization and this option is not set, the hidden service is not accessible. Hidden services can be configured to require authorization using the <strong>HiddenServiceAuthorizeClient</strong> option. </p> </dd> <dt class="hdlist1"> <strong>ReachableAddresses</strong> <em>ADDR</em>[/<em>MASK</em>][:<em>PORT</em>]… </dt> <dd> <p> A comma-separated list of IP addresses and ports that your firewall allows you to connect to. The format is as for the addresses in ExitPolicy, except that "accept" is understood unless "reject" is explicitly provided. For example, 'ReachableAddresses 99.0.0.0/8, reject 18.0.0.0/8:80, accept *:80' means that your firewall allows connections to everything inside net 99, rejects port 80 connections to net 18, and accepts connections to port 80 otherwise. (Default: 'accept *:*'.) </p> </dd> <dt class="hdlist1"> <strong>ReachableDirAddresses</strong> <em>ADDR</em>[/<em>MASK</em>][:<em>PORT</em>]… </dt> <dd> <p> Like <strong>ReachableAddresses</strong>, a list of addresses and ports. Tor will obey these restrictions when fetching directory information, using standard HTTP GET requests. If not set explicitly then the value of <strong>ReachableAddresses</strong> is used. If <strong>HTTPProxy</strong> is set then these connections will go through that proxy. </p> </dd> <dt class="hdlist1"> <strong>ReachableORAddresses</strong> <em>ADDR</em>[/<em>MASK</em>][:<em>PORT</em>]… </dt> <dd> <p> Like <strong>ReachableAddresses</strong>, a list of addresses and ports. Tor will obey these restrictions when connecting to Onion Routers, using TLS/SSL. If not set explicitly then the value of <strong>ReachableAddresses</strong> is used. If <strong>HTTPSProxy</strong> is set then these connections will go through that proxy.<br /> <br /> The separation between <strong>ReachableORAddresses</strong> and <strong>ReachableDirAddresses</strong> is only interesting when you are connecting through proxies (see <strong>HTTPProxy</strong> and <strong>HTTPSProxy</strong>). Most proxies limit TLS connections (which Tor uses to connect to Onion Routers) to port 443, and some limit HTTP GET requests (which Tor uses for fetching directory information) to port 80. </p> </dd> <dt class="hdlist1"> <strong>LongLivedPorts</strong> <em>PORTS</em> </dt> <dd> <p> A list of ports for services that tend to have long-running connections (e.g. chat and interactive shells). Circuits for streams that use these ports will contain only high-uptime nodes, to reduce the chance that a node will go down before the stream is finished. (Default: 21, 22, 706, 1863, 5050, 5190, 5222, 5223, 6667, 6697, 8300) </p> </dd> <dt class="hdlist1"> <strong>MapAddress</strong> <em>address</em> <em>newaddress</em> </dt> <dd> <p> When a request for address arrives to Tor, it will rewrite it to newaddress before processing it. For example, if you always want connections to www.indymedia.org to exit via <em>torserver</em> (where <em>torserver</em> is the nickname of the server), use "MapAddress www.indymedia.org www.indymedia.org.torserver.exit". </p> </dd> <dt class="hdlist1"> <strong>NewCircuitPeriod</strong> <em>NUM</em> </dt> <dd> <p> Every NUM seconds consider whether to build a new circuit. (Default: 30 seconds) </p> </dd> <dt class="hdlist1"> <strong>MaxCircuitDirtiness</strong> <em>NUM</em> </dt> <dd> <p> Feel free to reuse a circuit that was first used at most NUM seconds ago, but never attach a new stream to a circuit that is too old. (Default: 10 minutes) </p> </dd> <dt class="hdlist1"> <strong>NodeFamily</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> The Tor servers, defined by their identity fingerprints or nicknames, constitute a "family" of similar or co-administered servers, so never use any two of them in the same circuit. Defining a NodeFamily is only needed when a server doesn’t list the family itself (with MyFamily). This option can be used multiple times. </p> </dd> <dt class="hdlist1"> <strong>EnforceDistinctSubnets</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If 1, Tor will not put two servers whose IP addresses are "too close" on the same circuit. Currently, two addresses are "too close" if they lie in the same /16 range. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>SocksPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> Advertise this port to listen for connections from Socks-speaking applications. Set this to 0 if you don’t want to allow application connections via SOCKS. Set it to "auto" to have Tor pick a port for you. (Default: 9050) </p> </dd> <dt class="hdlist1"> <strong>SocksListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind to this address to listen for connections from Socks-speaking applications. (Default: 127.0.0.1) You can also specify a port (e.g. 192.168.0.1:9100). This directive can be specified multiple times to bind to multiple addresses/ports. </p> </dd> <dt class="hdlist1"> <strong>SocksPolicy</strong> <em>policy</em>,<em>policy</em>,<em>…</em> </dt> <dd> <p> Set an entrance policy for this server, to limit who can connect to the SocksPort and DNSPort ports. The policies have the same form as exit policies below. </p> </dd> <dt class="hdlist1"> <strong>SocksTimeout</strong> <em>NUM</em> </dt> <dd> <p> Let a socks connection wait NUM seconds handshaking, and NUM seconds unattached waiting for an appropriate circuit, before we fail it. (Default: 2 minutes.) </p> </dd> <dt class="hdlist1"> <strong>TrackHostExits</strong> <em>host</em>,<em>.domain</em>,<em>…</em> </dt> <dd> <p> For each value in the comma separated list, Tor will track recent connections to hosts that match this value and attempt to reuse the same exit node for each. If the value is prepended with a '.', it is treated as matching an entire domain. If one of the values is just a '.', it means match everything. This option is useful if you frequently connect to sites that will expire all your authentication cookies (i.e. log you out) if your IP address changes. Note that this option does have the disadvantage of making it more clear that a given history is associated with a single user. However, most people who would wish to observe this will observe it through cookies or other protocol-specific means anyhow. </p> </dd> <dt class="hdlist1"> <strong>TrackHostExitsExpire</strong> <em>NUM</em> </dt> <dd> <p> Since exit servers go up and down, it is desirable to expire the association between host and exit server after NUM seconds. The default is 1800 seconds (30 minutes). </p> </dd> <dt class="hdlist1"> <strong>UpdateBridgesFromAuthority</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When set (along with UseBridges), Tor will try to fetch bridge descriptors from the configured bridge authorities when feasible. It will fall back to a direct request if the authority responds with a 404. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>UseBridges</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When set, Tor will fetch descriptors for each bridge listed in the "Bridge" config lines, and use these relays as both entry guards and directory guards. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>UseEntryGuards</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If this option is set to 1, we pick a few long-term entry servers, and try to stick with them. This is desirable because constantly changing servers increases the odds that an adversary who owns some servers will observe a fraction of your paths. (Defaults to 1.) </p> </dd> <dt class="hdlist1"> <strong>NumEntryGuards</strong> <em>NUM</em> </dt> <dd> <p> If UseEntryGuards is set to 1, we will try to pick a total of NUM routers as long-term entries for our circuits. (Defaults to 3.) </p> </dd> <dt class="hdlist1"> <strong>SafeSocks</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor will reject application connections that use unsafe variants of the socks protocol — ones that only provide an IP address, meaning the application is doing a DNS resolve first. Specifically, these are socks4 and socks5 when not doing remote DNS. (Defaults to 0.) </p> </dd> <dt class="hdlist1"> <strong>TestSocks</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor will make a notice-level log entry for each connection to the Socks port indicating whether the request used a safe socks protocol or an unsafe one (see above entry on SafeSocks). This helps to determine whether an application using Tor is possibly leaking DNS requests. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>WarnUnsafeSocks</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor will warn whenever a request is received that only contains an IP address instead of a hostname. Allowing applications to do DNS resolves themselves is usually a bad idea and can leak your location to attackers. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>VirtualAddrNetwork</strong> <em>Address</em>/<em>bits</em> </dt> <dd> <p> When Tor needs to assign a virtual (unused) address because of a MAPADDRESS command from the controller or the AutomapHostsOnResolve feature, Tor picks an unassigned address from this range. (Default: 127.192.0.0/10)<br /> <br /> When providing proxy server service to a network of computers using a tool like dns-proxy-tor, change this address to "10.192.0.0/10" or "172.16.0.0/12". The default <strong>VirtualAddrNetwork</strong> address range on a properly configured machine will route to the loopback interface. For local use, no change to the default VirtualAddrNetwork setting is needed. </p> </dd> <dt class="hdlist1"> <strong>AllowNonRFC953Hostnames</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is disabled, Tor blocks hostnames containing illegal characters (like @ and :) rather than sending them to an exit node to be resolved. This helps trap accidental attempts to resolve URLs and so on. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>AllowDotExit</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If enabled, we convert "www.google.com.foo.exit" addresses on the SocksPort/TransPort/NATDPort into "www.google.com" addresses that exit from the node "foo". Disabled by default since attacking websites and exit relays can use it to manipulate your path selection. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>FastFirstHopPK</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is disabled, Tor uses the public key step for the first hop of creating circuits. Skipping it is generally safe since we have already used TLS to authenticate the relay and to establish forward-secure keys. Turning this option off makes circuit building slower.<br /> <br /> Note that Tor will always use the public key step for the first hop if it’s operating as a relay, and it will never use the public key step if it doesn’t yet know the onion key of the first hop. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>TransPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> If non-zero, enables transparent proxy support on <em>PORT</em> (by convention, 9040). Requires OS support for transparent proxies, such as BSDs' pf or Linux’s IPTables. If you’re planning to use Tor as a transparent proxy for a network, you’ll want to examine and change VirtualAddrNetwork from the default setting. You’ll also want to set the TransListenAddress option for the network you’d like to proxy. Set it to "auto" to have Tor pick a port for you. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>TransListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind to this address to listen for transparent proxy connections. (Default: 127.0.0.1). This is useful for exporting a transparent proxy server to an entire network. </p> </dd> <dt class="hdlist1"> <strong>NATDPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> Allow old versions of ipfw (as included in old versions of FreeBSD, etc.) to send connections through Tor using the NATD protocol. This option is only for people who cannot use TransPort. Set it to "auto" to have Tor pick a port for you. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>NATDListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind to this address to listen for NATD connections. (Default: 127.0.0.1). </p> </dd> <dt class="hdlist1"> <strong>AutomapHostsOnResolve</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, and we get a request to resolve an address that ends with one of the suffixes in <strong>AutomapHostsSuffixes</strong>, we map an unused virtual address to that address, and return the new virtual address. This is handy for making ".onion" addresses work with applications that resolve an address and then connect to it. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>AutomapHostsSuffixes</strong> <em>SUFFIX</em>,<em>SUFFIX</em>,<em>…</em> </dt> <dd> <p> A comma-separated list of suffixes to use with <strong>AutomapHostsOnResolve</strong>. The "." suffix is equivalent to "all addresses." (Default: .exit,.onion). </p> </dd> <dt class="hdlist1"> <strong>DNSPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> If non-zero, Tor listens for UDP DNS requests on this port and resolves them anonymously. Set it to "auto" to have Tor pick a port for you. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>DNSListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind to this address to listen for DNS connections. (Default: 127.0.0.1). </p> </dd> <dt class="hdlist1"> <strong>ClientDNSRejectInternalAddresses</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If true, Tor does not believe any anonymously retrieved DNS answer that tells it that an address resolves to an internal address (like 127.0.0.1 or 192.168.0.1). This option prevents certain browser-based attacks; don’t turn it off unless you know what you’re doing. (Default: 1). </p> </dd> <dt class="hdlist1"> <strong>ClientRejectInternalAddresses</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If true, Tor does not try to fulfill requests to connect to an internal address (like 127.0.0.1 or 192.168.0.1) <em>unless a exit node is specifically requested</em> (for example, via a .exit hostname, or a controller request). (Default: 1). </p> </dd> <dt class="hdlist1"> <strong>DownloadExtraInfo</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If true, Tor downloads and caches "extra-info" documents. These documents contain information about servers other than the information in their regular router descriptors. Tor does not use this information for anything itself; to save bandwidth, leave this option turned off. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>FallbackNetworkstatusFile</strong> <em>FILENAME</em> </dt> <dd> <p> If Tor doesn’t have a cached networkstatus file, it starts out using this one instead. Even if this file is out of date, Tor can still use it to learn about directory mirrors, so it doesn’t need to put load on the authorities. (Default: None). </p> </dd> <dt class="hdlist1"> <strong>WarnPlaintextPorts</strong> <em>port</em>,<em>port</em>,<em>…</em> </dt> <dd> <p> Tells Tor to issue a warnings whenever the user tries to make an anonymous connection to one of these ports. This option is designed to alert users to services that risk sending passwords in the clear. (Default: 23,109,110,143). </p> </dd> <dt class="hdlist1"> <strong>RejectPlaintextPorts</strong> <em>port</em>,<em>port</em>,<em>…</em> </dt> <dd> <p> Like WarnPlaintextPorts, but instead of warning about risky port uses, Tor will instead refuse to make the connection. (Default: None). </p> </dd> <dt class="hdlist1"> <strong>AllowSingleHopCircuits</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set, the attached Tor controller can use relays that have the <strong>AllowSingleHopExits</strong> option turned on to build one-hop Tor connections. (Default: 0) </p> </dd> </dl></div> </div> <h2 id="_server_options">SERVER OPTIONS</h2> <div class="sectionbody"> <div class="paragraph"><p>The following options are useful only for servers (that is, if ORPort is non-zero):</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>Address</strong> <em>address</em> </dt> <dd> <p> The IP address or fully qualified domain name of this server (e.g. moria.mit.edu). You can leave this unset, and Tor will guess your IP address. This IP address is the one used to tell clients and other servers where to find your Tor server; it doesn’t affect the IP that your Tor client binds to. To bind to a different address, use the *ListenAddress and OutboundBindAddress options. </p> </dd> <dt class="hdlist1"> <strong>AllowSingleHopExits</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> This option controls whether clients can use this server as a single hop proxy. If set to 1, clients can use this server as an exit even if it is the only hop in the circuit. Note that most clients will refuse to use servers that set this option, since most clients have ExcludeSingleHopRelays set. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>AssumeReachable</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> This option is used when bootstrapping a new Tor network. If set to 1, don’t do self-reachability testing; just upload your server descriptor immediately. If <strong>AuthoritativeDirectory</strong> is also set, this option instructs the dirserver to bypass remote reachability testing too and list all connected servers as running. </p> </dd> <dt class="hdlist1"> <strong>BridgeRelay</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> Sets the relay to act as a "bridge" with respect to relaying connections from bridge users to the Tor network. It mainly causes Tor to publish a server descriptor to the bridge database, rather than publishing a relay descriptor to the public directory authorities. </p> </dd> <dt class="hdlist1"> <strong>ContactInfo</strong> <em>email_address</em> </dt> <dd> <p> Administrative contact information for server. This line might get picked up by spam harvesters, so you may want to obscure the fact that it’s an email address. </p> </dd> <dt class="hdlist1"> <strong>ExitPolicy</strong> <em>policy</em>,<em>policy</em>,<em>…</em> </dt> <dd> <p> Set an exit policy for this server. Each policy is of the form "<strong>accept</strong>|<strong>reject</strong> <em>ADDR</em>[/<em>MASK</em>][:<em>PORT</em>]". If /<em>MASK</em> is omitted then this policy just applies to the host given. Instead of giving a host or network you can also use "*" to denote the universe (0.0.0.0/0). <em>PORT</em> can be a single port number, an interval of ports "<em>FROM_PORT</em>-<em>TO_PORT</em>", or "*". If <em>PORT</em> is omitted, that means "*".<br /> <br /> For example, "accept 18.7.22.69:*,reject 18.0.0.0/8:*,accept *:*" would reject any traffic destined for MIT except for web.mit.edu, and accept anything else.<br /> <br /> To specify all internal and link-local networks (including 0.0.0.0/8, 169.254.0.0/16, 127.0.0.0/8, 192.168.0.0/16, 10.0.0.0/8, and 172.16.0.0/12), you can use the "private" alias instead of an address. These addresses are rejected by default (at the beginning of your exit policy), along with your public IP address, unless you set the ExitPolicyRejectPrivate config option to 0. For example, once you’ve done that, you could allow HTTP to 127.0.0.1 and block all other connections to internal networks with "accept 127.0.0.1:80,reject private:*", though that may also allow connections to your own computer that are addressed to its public (external) IP address. See RFC 1918 and RFC 3330 for more details about internal and reserved IP address space.<br /> <br /> This directive can be specified multiple times so you don’t have to put it all on one line.<br /> <br /> Policies are considered first to last, and the first match wins. If you want to _replace_ the default exit policy, end your exit policy with either a reject *:* or an accept *:*. Otherwise, you’re _augmenting_ (prepending to) the default exit policy. The default exit policy is:<br /> </p> <div class="literalblock"> <div class="content"> <pre><tt>reject *:25 reject *:119 reject *:135-139 reject *:445 reject *:563 reject *:1214 reject *:4661-4666 reject *:6346-6429 reject *:6699 reject *:6881-6999 accept *:*</tt></pre> </div></div> </dd> <dt class="hdlist1"> <strong>ExitPolicyRejectPrivate</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> Reject all private (local) networks, along with your own public IP address, at the beginning of your exit policy. See above entry on ExitPolicy. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>MaxOnionsPending</strong> <em>NUM</em> </dt> <dd> <p> If you have more than this number of onionskins queued for decrypt, reject new ones. (Default: 100) </p> </dd> <dt class="hdlist1"> <strong>MyFamily</strong> <em>node</em>,<em>node</em>,<em>…</em> </dt> <dd> <p> Declare that this Tor server is controlled or administered by a group or organization identical or similar to that of the other servers, defined by their identity fingerprints or nicknames. When two servers both declare that they are in the same 'family', Tor clients will not use them in the same circuit. (Each server only needs to list the other servers in its family; it doesn’t need to list itself, but it won’t hurt.) </p> </dd> <dt class="hdlist1"> <strong>Nickname</strong> <em>name</em> </dt> <dd> <p> Set the server’s nickname to 'name'. Nicknames must be between 1 and 19 characters inclusive, and must contain only the characters [a-zA-Z0-9]. </p> </dd> <dt class="hdlist1"> <strong>NumCPUs</strong> <em>num</em> </dt> <dd> <p> How many processes to use at once for decrypting onionskins. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>ORPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> Advertise this port to listen for connections from Tor clients and servers. This option is required to be a Tor server. Set it to "auto" to have Tor pick a port for you. (Default: 0). </p> </dd> <dt class="hdlist1"> <strong>ORListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind to this IP address to listen for connections from Tor clients and servers. If you specify a port, bind to this port rather than the one specified in ORPort. (Default: 0.0.0.0) This directive can be specified multiple times to bind to multiple addresses/ports. </p> </dd> <dt class="hdlist1"> <strong>PublishServerDescriptor</strong> <strong>0</strong>|<strong>1</strong>|<strong>v1</strong>|<strong>v2</strong>|<strong>v3</strong>|<strong>bridge</strong>,<strong>…</strong> </dt> <dd> <p> This option specifies which descriptors Tor will publish when acting as a relay. You can choose multiple arguments, separated by commas. <br /> If this option is set to 0, Tor will not publish its descriptors to any directories. (This is useful if you’re testing out your server, or if you’re using a Tor controller that handles directory publishing for you.) Otherwise, Tor will publish its descriptors of all type(s) specified. The default is "1", which means "if running as a server, publish the appropriate descriptors to the authorities". </p> </dd> <dt class="hdlist1"> <strong>ShutdownWaitLength</strong> <em>NUM</em> </dt> <dd> <p> When we get a SIGINT and we’re a server, we begin shutting down: we close listeners and start refusing new circuits. After <strong>NUM</strong> seconds, we exit. If we get a second SIGINT, we exit immedi- ately. (Default: 30 seconds) </p> </dd> <dt class="hdlist1"> <strong>AccountingMax</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong>|<strong>TB</strong> </dt> <dd> <p> Never send more than the specified number of bytes in a given accounting period, or receive more than that number in the period. For example, with AccountingMax set to 1 GB, a server could send 900 MB and receive 800 MB and continue running. It will only hibernate once one of the two reaches 1 GB. When the number of bytes gets low, Tor will stop accepting new connections and circuits. When the number of bytes is exhausted, Tor will hibernate until some time in the next accounting period. To prevent all servers from waking at the same time, Tor will also wait until a random point in each period before waking up. If you have bandwidth cost issues, enabling hibernation is preferable to setting a low bandwidth, since it provides users with a collection of fast servers that are up some of the time, which is more useful than a set of slow servers that are always "available". </p> </dd> <dt class="hdlist1"> <strong>AccountingStart</strong> <strong>day</strong>|<strong>week</strong>|<strong>month</strong> [<em>day</em>] <em>HH:MM</em> </dt> <dd> <p> Specify how long accounting periods last. If <strong>month</strong> is given, each accounting period runs from the time <em>HH:MM</em> on the <em>dayth</em> day of one month to the same day and time of the next. (The day must be between 1 and 28.) If <strong>week</strong> is given, each accounting period runs from the time <em>HH:MM</em> of the <em>dayth</em> day of one week to the same day and time of the next week, with Monday as day 1 and Sunday as day 7. If <strong>day</strong> is given, each accounting period runs from the time <em>HH:MM</em> each day to the same time on the next day. All times are local, and given in 24-hour time. (Defaults to "month 1 0:00".) </p> </dd> <dt class="hdlist1"> <strong>RefuseUnknownExits</strong> <strong>0</strong>|<strong>1</strong>|<strong>auto</strong> </dt> <dd> <p> Prevent nodes that don’t appear in the consensus from exiting using this relay. If the option is 1, we always block exit attempts from such nodes; if it’s 0, we never do, and if the option is "auto", then we do whatever the authorities suggest in the consensus. (Defaults to auto.) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSResolvConfFile</strong> <em>filename</em> </dt> <dd> <p> Overrides the default DNS configuration with the configuration in <em>filename</em>. The file format is the same as the standard Unix "<strong>resolv.conf</strong>" file (7). This option, like all other ServerDNS options, only affects name lookups that your server does on behalf of clients. (Defaults to use the system DNS configuration.) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSAllowBrokenConfig</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If this option is false, Tor exits immediately if there are problems parsing the system DNS configuration or connecting to nameservers. Otherwise, Tor continues to periodically retry the system nameservers until it eventually succeeds. (Defaults to "1".) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSSearchDomains</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, then we will search for addresses in the local search domain. For example, if this system is configured to believe it is in "example.com", and a client tries to connect to "www", the client will be connected to "www.example.com". This option only affects name lookups that your server does on behalf of clients. (Defaults to "0".) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSDetectHijacking</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set to 1, we will test periodically to determine whether our local nameservers have been configured to hijack failing DNS requests (usually to an advertising site). If they are, we will attempt to correct this. This option only affects name lookups that your server does on behalf of clients. (Defaults to "1".) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSTestAddresses</strong> <em>address</em>,<em>address</em>,<em>…</em> </dt> <dd> <p> When we’re detecting DNS hijacking, make sure that these <em>valid</em> addresses aren’t getting redirected. If they are, then our DNS is completely useless, and we’ll reset our exit policy to "reject <strong>:</strong>". This option only affects name lookups that your server does on behalf of clients. (Defaults to "www.google.com, www.mit.edu, www.yahoo.com, www.slashdot.org".) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSAllowNonRFC953Hostnames</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is disabled, Tor does not try to resolve hostnames containing illegal characters (like @ and :) rather than sending them to an exit node to be resolved. This helps trap accidental attempts to resolve URLs and so on. This option only affects name lookups that your server does on behalf of clients. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>BridgeRecordUsageByCountry</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled and BridgeRelay is also enabled, and we have GeoIP data, Tor keeps a keep a per-country count of how many client addresses have contacted it so that it can help the bridge authority guess which countries have blocked access to it. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>ServerDNSRandomizeCase</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set, Tor sets the case of each character randomly in outgoing DNS requests, and makes sure that the case matches in DNS replies. This so-called "0x20 hack" helps resist some types of DNS poisoning attack. For more information, see "Increased DNS Forgery Resistance through 0x20-Bit Encoding". This option only affects name lookups that your server does on behalf of clients. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>GeoIPFile</strong> <em>filename</em> </dt> <dd> <p> A filename containing GeoIP data, for use with BridgeRecordUsageByCountry. </p> </dd> <dt class="hdlist1"> <strong>CellStatistics</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor writes statistics on the mean time that cells spend in circuit queues to disk every 24 hours. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>DirReqStatistics</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor writes statistics on the number and response time of network status requests to disk every 24 hours. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>EntryStatistics</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor writes statistics on the number of directly connecting clients to disk every 24 hours. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>ExitPortStatistics</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor writes statistics on the number of relayed bytes and opened stream per exit port to disk every 24 hours. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>ExtraInfoStatistics</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is enabled, Tor includes previously gathered statistics in its extra-info documents that it uploads to the directory authorities. (Default: 0) </p> </dd> </dl></div> </div> <h2 id="_directory_server_options">DIRECTORY SERVER OPTIONS</h2> <div class="sectionbody"> <div class="paragraph"><p>The following options are useful only for directory servers (that is, if DirPort is non-zero):</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>AuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set to 1, Tor operates as an authoritative directory server. Instead of caching the directory, it generates its own list of good servers, signs it, and sends that to the clients. Unless the clients already have you listed as a trusted directory, you probably do not want to set this option. Please coordinate with the other admins at <a href="mailto:tor-ops@torproject.org">tor-ops@torproject.org</a> if you think you should be a directory. </p> </dd> <dt class="hdlist1"> <strong>DirPortFrontPage</strong> <em>FILENAME</em> </dt> <dd> <p> When this option is set, it takes an HTML file and publishes it as "/" on the DirPort. Now relay operators can provide a disclaimer without needing to set up a separate webserver. There’s a sample disclaimer in contrib/tor-exit-notice.html. </p> </dd> <dt class="hdlist1"> <strong>V1AuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor generates version 1 directory and running-routers documents (for legacy Tor clients up to 0.1.0.x). </p> </dd> <dt class="hdlist1"> <strong>V2AuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor generates version 2 network statuses and serves descriptors, etc as described in doc/spec/dir-spec-v2.txt (for Tor clients and servers running 0.1.1.x and 0.1.2.x). </p> </dd> <dt class="hdlist1"> <strong>V3AuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor generates version 3 network statuses and serves descriptors, etc as described in doc/spec/dir-spec.txt (for Tor clients and servers running at least 0.2.0.x). </p> </dd> <dt class="hdlist1"> <strong>VersioningAuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set to 1, Tor adds information on which versions of Tor are still believed safe for use to the published directory. Each version 1 authority is automatically a versioning authority; version 2 authorities provide this service optionally. See <strong>RecommendedVersions</strong>, <strong>RecommendedClientVersions</strong>, and <strong>RecommendedServerVersions</strong>. </p> </dd> <dt class="hdlist1"> <strong>NamingAuthoritativeDirectory</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set to 1, then the server advertises that it has opinions about nickname-to-fingerprint bindings. It will include these opinions in its published network-status pages, by listing servers with the flag "Named" if a correct binding between that nickname and fingerprint has been registered with the dirserver. Naming dirservers will refuse to accept or publish descriptors that contradict a registered binding. See <strong>approved-routers</strong> in the <strong>FILES</strong> section below. </p> </dd> <dt class="hdlist1"> <strong>HSAuthoritativeDir</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor also accepts and serves v0 hidden service descriptors, which are produced and used by Tor 0.2.1.x and older. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>HidServDirectoryV2</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set, Tor accepts and serves v2 hidden service descriptors. Setting DirPort is not required for this, because clients connect via the ORPort by default. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>BridgeAuthoritativeDir</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor accepts and serves router descriptors, but it caches and serves the main networkstatus documents rather than generating its own. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>MinUptimeHidServDirectoryV2</strong> <em>N</em> <strong>seconds</strong>|<strong>minutes</strong>|<strong>hours</strong>|<strong>days</strong>|<strong>weeks</strong> </dt> <dd> <p> Minimum uptime of a v2 hidden service directory to be accepted as such by authoritative directories. (Default: 25 hours) </p> </dd> <dt class="hdlist1"> <strong>DirPort</strong> <em>PORT</em>|<strong>auto</strong> </dt> <dd> <p> If this option is nonzero, advertise the directory service on this port. Set it to "auto" to have Tor pick a port for you. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>DirListenAddress</strong> <em>IP</em>[:<em>PORT</em>] </dt> <dd> <p> Bind the directory service to this address. If you specify a port, bind to this port rather than the one specified in DirPort. (Default: 0.0.0.0) This directive can be specified multiple times to bind to multiple addresses/ports. </p> </dd> <dt class="hdlist1"> <strong>DirPolicy</strong> <em>policy</em>,<em>policy</em>,<em>…</em> </dt> <dd> <p> Set an entrance policy for this server, to limit who can connect to the directory ports. The policies have the same form as exit policies above. </p> </dd> <dt class="hdlist1"> <strong>FetchV2Networkstatus</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set, we try to fetch the (obsolete, unused) version 2 network status consensus documents from the directory authorities. No currently supported Tor version uses them. (Default: 0.) </p> </dd> </dl></div> </div> <h2 id="_directory_authority_server_options">DIRECTORY AUTHORITY SERVER OPTIONS</h2> <div class="sectionbody"> <div class="dlist"><dl> <dt class="hdlist1"> <strong>RecommendedVersions</strong> <em>STRING</em> </dt> <dd> <p> STRING is a comma-separated list of Tor versions currently believed to be safe. The list is included in each directory, and nodes which pull down the directory learn whether they need to upgrade. This option can appear multiple times: the values from multiple lines are spliced together. When this is set then <strong>VersioningAuthoritativeDirectory</strong> should be set too. </p> </dd> <dt class="hdlist1"> <strong>RecommendedClientVersions</strong> <em>STRING</em> </dt> <dd> <p> STRING is a comma-separated list of Tor versions currently believed to be safe for clients to use. This information is included in version 2 directories. If this is not set then the value of <strong>RecommendedVersions</strong> is used. When this is set then <strong>VersioningAuthoritativeDirectory</strong> should be set too. </p> </dd> <dt class="hdlist1"> <strong>RecommendedServerVersions</strong> <em>STRING</em> </dt> <dd> <p> STRING is a comma-separated list of Tor versions currently believed to be safe for servers to use. This information is included in version 2 directories. If this is not set then the value of <strong>RecommendedVersions</strong> is used. When this is set then <strong>VersioningAuthoritativeDirectory</strong> should be set too. </p> </dd> <dt class="hdlist1"> <strong>ConsensusParams</strong> <em>STRING</em> </dt> <dd> <p> STRING is a space-separated list of key=value pairs that Tor will include in the "params" line of its networkstatus vote. </p> </dd> <dt class="hdlist1"> <strong>DirAllowPrivateAddresses</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor will accept router descriptors with arbitrary "Address" elements. Otherwise, if the address is not an IP address or is a private IP address, it will reject the router descriptor. Defaults to 0. </p> </dd> <dt class="hdlist1"> <strong>AuthDirBadDir</strong> <em>AddressPattern…</em> </dt> <dd> <p> Authoritative directories only. A set of address patterns for servers that will be listed as bad directories in any network status document this authority publishes, if <strong>AuthDirListBadDirs</strong> is set. </p> </dd> <dt class="hdlist1"> <strong>AuthDirBadExit</strong> <em>AddressPattern…</em> </dt> <dd> <p> Authoritative directories only. A set of address patterns for servers that will be listed as bad exits in any network status document this authority publishes, if <strong>AuthDirListBadExits</strong> is set. </p> </dd> <dt class="hdlist1"> <strong>AuthDirInvalid</strong> <em>AddressPattern…</em> </dt> <dd> <p> Authoritative directories only. A set of address patterns for servers that will never be listed as "valid" in any network status document that this authority publishes. </p> </dd> <dt class="hdlist1"> <strong>AuthDirReject</strong> <em>AddressPattern</em>… </dt> <dd> <p> Authoritative directories only. A set of address patterns for servers that will never be listed at all in any network status document that this authority publishes, or accepted as an OR address in any descriptor submitted for publication by this authority. </p> </dd> <dt class="hdlist1"> <strong>AuthDirListBadDirs</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> Authoritative directories only. If set to 1, this directory has some opinion about which nodes are unsuitable as directory caches. (Do not set this to 1 unless you plan to list non-functioning directories as bad; otherwise, you are effectively voting in favor of every declared directory.) </p> </dd> <dt class="hdlist1"> <strong>AuthDirListBadExits</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> Authoritative directories only. If set to 1, this directory has some opinion about which nodes are unsuitable as exit nodes. (Do not set this to 1 unless you plan to list non-functioning exits as bad; otherwise, you are effectively voting in favor of every declared exit as an exit.) </p> </dd> <dt class="hdlist1"> <strong>AuthDirRejectUnlisted</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> Authoritative directories only. If set to 1, the directory server rejects all uploaded server descriptors that aren’t explicitly listed in the fingerprints file. This acts as a "panic button" if we get hit with a Sybil attack. (Default: 0) </p> </dd> <dt class="hdlist1"> <strong>AuthDirMaxServersPerAddr</strong> <em>NUM</em> </dt> <dd> <p> Authoritative directories only. The maximum number of servers that we will list as acceptable on a single IP address. Set this to "0" for "no limit". (Default: 2) </p> </dd> <dt class="hdlist1"> <strong>AuthDirMaxServersPerAuthAddr</strong> <em>NUM</em> </dt> <dd> <p> Authoritative directories only. Like AuthDirMaxServersPerAddr, but applies to addresses shared with directory authorities. (Default: 5) </p> </dd> <dt class="hdlist1"> <strong>AuthDirFastGuarantee</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> Authoritative directories only. If non-zero, always vote the Fast flag for any relay advertising this amount of capacity or more. (Default: 20 KB) </p> </dd> <dt class="hdlist1"> <strong>AuthDirGuardBWGuarantee</strong> <em>N</em> <strong>bytes</strong>|<strong>KB</strong>|<strong>MB</strong>|<strong>GB</strong> </dt> <dd> <p> Authoritative directories only. If non-zero, this advertised capacity or more is always sufficient to satisfy the bandwidth requirement for the Guard flag. (Default: 250 KB) </p> </dd> <dt class="hdlist1"> <strong>BridgePassword</strong> <em>Password</em> </dt> <dd> <p> If set, contains an HTTP authenticator that tells a bridge authority to serve all requested bridge information. Used for debugging. (Default: not set.) </p> </dd> <dt class="hdlist1"> <strong>V3AuthVotingInterval</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> V3 authoritative directories only. Configures the server’s preferred voting interval. Note that voting will <em>actually</em> happen at an interval chosen by consensus from all the authorities' preferred intervals. This time SHOULD divide evenly into a day. (Default: 1 hour) </p> </dd> <dt class="hdlist1"> <strong>V3AuthVoteDelay</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> V3 authoritative directories only. Configures the server’s preferred delay between publishing its vote and assuming it has all the votes from all the other authorities. Note that the actual time used is not the server’s preferred time, but the consensus of all preferences. (Default: 5 minutes.) </p> </dd> <dt class="hdlist1"> <strong>V3AuthDistDelay</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> V3 authoritative directories only. Configures the server’s preferred delay between publishing its consensus and signature and assuming it has all the signatures from all the other authorities. Note that the actual time used is not the server’s preferred time, but the consensus of all preferences. (Default: 5 minutes.) </p> </dd> <dt class="hdlist1"> <strong>V3AuthNIntervalsValid</strong> <em>NUM</em> </dt> <dd> <p> V3 authoritative directories only. Configures the number of VotingIntervals for which each consensus should be valid for. Choosing high numbers increases network partitioning risks; choosing low numbers increases directory traffic. Note that the actual number of intervals used is not the server’s preferred number, but the consensus of all preferences. Must be at least 2. (Default: 3.) </p> </dd> <dt class="hdlist1"> <strong>V3BandwidthsFile</strong> <em>FILENAME</em> </dt> <dd> <p> V3 authoritative directories only. Configures the location of the bandiwdth-authority generated file storing information on relays' measured bandwidth capacities. (Default: unset.) </p> </dd> <dt class="hdlist1"> <strong>V3AuthUseLegacyKey</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set, the directory authority will sign consensuses not only with its own signing key, but also with a "legacy" key and certificate with a different identity. This feature is used to migrate directory authority keys in the event of a compromise. (Default: 0.) </p> </dd> <dt class="hdlist1"> <strong>RephistTrackTime</strong> <em>N</em> <strong>seconds</strong>|<strong>minutes</strong>|<strong>hours</strong>|<strong>days</strong>|<strong>weeks</strong> </dt> <dd> <p> Tells an authority, or other node tracking node reliability and history, that fine-grained information about nodes can be discarded when it hasn’t changed for a given amount of time. (Default: 24 hours) </p> </dd> <dt class="hdlist1"> <strong>VoteOnHidServDirectoriesV2</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> When this option is set in addition to <strong>AuthoritativeDirectory</strong>, Tor votes on whether to accept relays as hidden service directories. (Default: 1) </p> </dd> </dl></div> </div> <h2 id="_hidden_service_options">HIDDEN SERVICE OPTIONS</h2> <div class="sectionbody"> <div class="paragraph"><p>The following options are used to configure a hidden service.</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>HiddenServiceDir</strong> <em>DIRECTORY</em> </dt> <dd> <p> Store data files for a hidden service in DIRECTORY. Every hidden service must have a separate directory. You may use this option multiple times to specify multiple services. DIRECTORY must be an existing directory. </p> </dd> <dt class="hdlist1"> <strong>HiddenServicePort</strong> <em>VIRTPORT</em> [<em>TARGET</em>] </dt> <dd> <p> Configure a virtual port VIRTPORT for a hidden service. You may use this option multiple times; each time applies to the service using the most recent hiddenservicedir. By default, this option maps the virtual port to the same port on 127.0.0.1. You may override the target port, address, or both by specifying a target of addr, port, or addr:port. You may also have multiple lines with the same VIRTPORT: when a user connects to that VIRTPORT, one of the TARGETs from those lines will be chosen at random. </p> </dd> <dt class="hdlist1"> <strong>PublishHidServDescriptors</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 0, Tor will run any hidden services you configure, but it won’t advertise them to the rendezvous directory. This option is only useful if you’re using a Tor controller that handles hidserv publishing for you. (Default: 1) </p> </dd> <dt class="hdlist1"> <strong>HiddenServiceVersion</strong> <em>version</em>,<em>version</em>,<em>…</em> </dt> <dd> <p> A list of rendezvous service descriptor versions to publish for the hidden service. Currently, only version 2 is supported. (Default: 2) </p> </dd> <dt class="hdlist1"> <strong>HiddenServiceAuthorizeClient</strong> <em>auth-type</em> <em>client-name</em>,<em>client-name</em>,<em>…</em> </dt> <dd> <p> If configured, the hidden service is accessible for authorized clients only. The auth-type can either be 'basic' for a general-purpose authorization protocol or 'stealth' for a less scalable protocol that also hides service activity from unauthorized clients. Only clients that are listed here are authorized to access the hidden service. Valid client names are 1 to 19 characters long and only use characters in A-Za-z0-9+-_ (no spaces). If this option is set, the hidden service is not accessible for clients without authorization any more. Generated authorization data can be found in the hostname file. Clients need to put this authorization data in their configuration file using <strong>HidServAuth</strong>. </p> </dd> <dt class="hdlist1"> <strong>RendPostPeriod</strong> <em>N</em> <strong>seconds</strong>|<strong>minutes</strong>|<strong>hours</strong>|<strong>days</strong>|<strong>weeks</strong> </dt> <dd> <p> Every time the specified period elapses, Tor uploads any rendezvous service descriptors to the directory servers. This information is also uploaded whenever it changes. (Default: 1 hour) </p> </dd> </dl></div> </div> <h2 id="_testing_network_options">TESTING NETWORK OPTIONS</h2> <div class="sectionbody"> <div class="paragraph"><p>The following options are used for running a testing Tor network.</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>TestingTorNetwork</strong> <strong>0</strong>|<strong>1</strong> </dt> <dd> <p> If set to 1, Tor adjusts default values of the configuration options below, so that it is easier to set up a testing Tor network. May only be set if non-default set of DirServers is set. Cannot be unset while Tor is running. (Default: 0)<br /> </p> <div class="literalblock"> <div class="content"> <pre><tt>ServerDNSAllowBrokenConfig 1 DirAllowPrivateAddresses 1 EnforceDistinctSubnets 0 AssumeReachable 1 AuthDirMaxServersPerAddr 0 AuthDirMaxServersPerAuthAddr 0 ClientDNSRejectInternalAddresses 0 ClientRejectInternalAddresses 0 ExitPolicyRejectPrivate 0 V3AuthVotingInterval 5 minutes V3AuthVoteDelay 20 seconds V3AuthDistDelay 20 seconds MinUptimeHidServDirectoryV2 0 seconds TestingV3AuthInitialVotingInterval 5 minutes TestingV3AuthInitialVoteDelay 20 seconds TestingV3AuthInitialDistDelay 20 seconds TestingAuthDirTimeToLearnReachability 0 minutes TestingEstimatedDescriptorPropagationTime 0 minutes</tt></pre> </div></div> </dd> <dt class="hdlist1"> <strong>TestingV3AuthInitialVotingInterval</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> Like V3AuthVotingInterval, but for initial voting interval before the first consensus has been created. Changing this requires that <strong>TestingTorNetwork</strong> is set. (Default: 30 minutes) </p> </dd> <dt class="hdlist1"> <strong>TestingV3AuthInitialVoteDelay</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> Like TestingV3AuthInitialVoteDelay, but for initial voting interval before the first consensus has been created. Changing this requires that <strong>TestingTorNetwork</strong> is set. (Default: 5 minutes) </p> </dd> <dt class="hdlist1"> <strong>TestingV3AuthInitialDistDelay</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> Like TestingV3AuthInitialDistDelay, but for initial voting interval before the first consensus has been created. Changing this requires that <strong>TestingTorNetwork</strong> is set. (Default: 5 minutes) </p> </dd> <dt class="hdlist1"> <strong>TestingAuthDirTimeToLearnReachability</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> After starting as an authority, do not make claims about whether routers are Running until this much time has passed. Changing this requires that <strong>TestingTorNetwork</strong> is set. (Default: 30 minutes) </p> </dd> <dt class="hdlist1"> <strong>TestingEstimatedDescriptorPropagationTime</strong> <em>N</em> <strong>minutes</strong>|<strong>hours</strong> </dt> <dd> <p> Clients try downloading router descriptors from directory caches after this time. Changing this requires that <strong>TestingTorNetwork</strong> is set. (Default: 10 minutes) </p> </dd> </dl></div> </div> <h2 id="_signals">SIGNALS</h2> <div class="sectionbody"> <div class="paragraph"><p>Tor catches the following signals:</p></div> <div class="dlist"><dl> <dt class="hdlist1"> <strong>SIGTERM</strong> </dt> <dd> <p> Tor will catch this, clean up and sync to disk if necessary, and exit. </p> </dd> <dt class="hdlist1"> <strong>SIGINT</strong> </dt> <dd> <p> Tor clients behave as with SIGTERM; but Tor servers will do a controlled slow shutdown, closing listeners and waiting 30 seconds before exiting. (The delay can be configured with the ShutdownWaitLength config option.) </p> </dd> <dt class="hdlist1"> <strong>SIGHUP</strong> </dt> <dd> <p> The signal instructs Tor to reload its configuration (including closing and reopening logs), and kill and restart its helper processes if applicable. </p> </dd> <dt class="hdlist1"> <strong>SIGUSR1</strong> </dt> <dd> <p> Log statistics about current connections, past connections, and throughput. </p> </dd> <dt class="hdlist1"> <strong>SIGUSR2</strong> </dt> <dd> <p> Switch all logs to loglevel debug. You can go back to the old loglevels by sending a SIGHUP. </p> </dd> <dt class="hdlist1"> <strong>SIGCHLD</strong> </dt> <dd> <p> Tor receives this signal when one of its helper processes has exited, so it can clean up. </p> </dd> <dt class="hdlist1"> <strong>SIGPIPE</strong> </dt> <dd> <p> Tor catches this signal and ignores it. </p> </dd> <dt class="hdlist1"> <strong>SIGXFSZ</strong> </dt> <dd> <p> If this signal exists on your platform, Tor catches and ignores it. </p> </dd> </dl></div> </div> <h2 id="_files">FILES</h2> <div class="sectionbody"> <div class="dlist"><dl> <dt class="hdlist1"> <strong>/etc/tor/torrc</strong> </dt> <dd> <p> The configuration file, which contains "option value" pairs. </p> </dd> <dt class="hdlist1"> <strong>/var/lib/tor/</strong> </dt> <dd> <p> The tor process stores keys and other data here. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/cached-status/</strong> </dt> <dd> <p> The most recently downloaded network status document for each authority. Each file holds one such document; the filenames are the hexadecimal identity key fingerprints of the directory authorities. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/cached-descriptors</strong> and <strong>cached-descriptors.new</strong> </dt> <dd> <p> These files hold downloaded router statuses. Some routers may appear more than once; if so, the most recently published descriptor is used. Lines beginning with @-signs are annotations that contain more information about a given router. The ".new" file is an append-only journal; when it gets too large, all entries are merged into a new cached-descriptors file. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/cached-routers</strong> and <strong>cached-routers.new</strong> </dt> <dd> <p> Obsolete versions of cached-descriptors and cached-descriptors.new. When Tor can’t find the newer files, it looks here instead. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/state</strong> </dt> <dd> <p> A set of persistent key-value mappings. These are documented in the file. These include: </p> <div class="ulist"><ul> <li> <p> The current entry guards and their status. </p> </li> <li> <p> The current bandwidth accounting values (unused so far; see below). </p> </li> <li> <p> When the file was last written </p> </li> <li> <p> What version of Tor generated the state file </p> </li> <li> <p> A short history of bandwidth usage, as produced in the router descriptors. </p> </li> </ul></div> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/bw_accounting</strong> </dt> <dd> <p> Used to track bandwidth accounting values (when the current period starts and ends; how much has been read and written so far this period). This file is obsolete, and the data is now stored in the 'state' file as well. Only used when bandwidth accounting is enabled. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/control_auth_cookie</strong> </dt> <dd> <p> Used for cookie authentication with the controller. Location can be overridden by the CookieAuthFile config option. Regenerated on startup. See control-spec.txt for details. Only used when cookie authentication is enabled. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/keys/</strong>* </dt> <dd> <p> Only used by servers. Holds identity keys and onion keys. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/fingerprint</strong> </dt> <dd> <p> Only used by servers. Holds the fingerprint of the server’s identity key. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/approved-routers</strong> </dt> <dd> <p> Only for naming authoritative directory servers (see <strong>NamingAuthoritativeDirectory</strong>). This file lists nickname to identity bindings. Each line lists a nickname and a fingerprint separated by whitespace. See your <strong>fingerprint</strong> file in the <em>DataDirectory</em> for an example line. If the nickname is <strong>!reject</strong> then descriptors from the given identity (fingerprint) are rejected by this server. If it is <strong>!invalid</strong> then descriptors are accepted but marked in the directory as not valid, that is, not recommended. </p> </dd> <dt class="hdlist1"> <em>DataDirectory</em><strong>/router-stability</strong> </dt> <dd> <p> Only used by authoritative directory servers. Tracks measurements for router mean-time-between-failures so that authorities have a good idea of how to set their Stable flags. </p> </dd> <dt class="hdlist1"> <em>HiddenServiceDirectory</em><strong>/hostname</strong> </dt> <dd> <p> The <base32-encoded-fingerprint>.onion domain name for this hidden service. If the hidden service is restricted to authorized clients only, this file also contains authorization data for all clients. </p> </dd> <dt class="hdlist1"> <em>HiddenServiceDirectory</em><strong>/private_key</strong> </dt> <dd> <p> The private key for this hidden service. </p> </dd> <dt class="hdlist1"> <em>HiddenServiceDirectory</em><strong>/client_keys</strong> </dt> <dd> <p> Authorization data for a hidden service that is only accessible by authorized clients. </p> </dd> </dl></div> </div> <h2 id="_see_also">SEE ALSO</h2> <div class="sectionbody"> <div class="paragraph"><p><strong>privoxy</strong>(1), <strong>tsocks</strong>(1), <strong>torify</strong>(1)<br /></p></div> <div class="paragraph"><p><strong>https://www.torproject.org/</strong></p></div> </div> <h2 id="_bugs">BUGS</h2> <div class="sectionbody"> <div class="paragraph"><p>Plenty, probably. Tor is still in development. Please report them.</p></div> </div> <h2 id="_authors">AUTHORS</h2> <div class="sectionbody"> <div class="paragraph"><p>Roger Dingledine [arma at mit.edu], Nick Mathewson [nickm at alum.mit.edu].</p></div> </div> <div id="footer"> <div id="footer-text"> Last updated 2011-12-15 11:28:37 EDT </div> </div> </body> </html>