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tor-formula/tor/defaults.yaml
McPcholkin 414373fac0 init commit
2019-03-27 15:50:46 +02:00

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tor:
pkgs:
- tor
service: tor
https_support_pkg: apt-transport-https
config_torrc: '/etc/tor/torrc'
config_torsocks: '/etc/tor/torsocks.conf'
repo_url: 'https://deb.torproject.org/torproject.org'
repo_key_url: 'https://deb.torproject.org/torproject.org/A3C4F0F979CAA22CDBA8F512EE8CBC9E886DDD89.asc'
fingerprint: False
torrc:
## Tor opens a SOCKS proxy on port 9050 by default -- even if you don't
## configure one below. Set "SOCKSPort 0" if you plan to run Tor only
## as a relay, and not make any local application connections yourself.
#SOCKSPort: '9050' # Default: Bind to localhost:9050 for local connections.
#SOCKSPort: '192.168.0.1:9100' # Bind to this address:port too.
SOCKSPort: '9050' # Default: Bind to localhost:9050 for local connections.
## Entry policies to allow/deny SOCKS requests based on IP address.
## First entry that matches wins. If no SOCKSPolicy is set, we accept
## all (and only) requests that reach a SOCKSPort. Untrusted users who
## can access your SOCKSPort may be able to learn about the connections
## you make.
#SOCKSPolicy: 'accept 192.168.0.0/16'
#SOCKSPolicy: 'accept6 FC00::/7'
#SOCKSPolicy: 'reject *'
SOCKSPolicy: 'accept *'
## Logs go to stdout at level "notice" unless redirected by something
## else, like one of the below lines. You can have as many Log lines as
## you want.
##
## We advise using "notice" in most cases, since anything more verbose
## may provide sensitive information to an attacker who obtains the logs.
##
## Send all messages of level 'notice' or higher to /var/log/tor/notices.log
#'Log notice file': '/var/log/tor/notices.log'
## Send every possible message to /var/log/tor/debug.log
#'Log debug file': '/var/log/tor/debug.log'
## Use the system log instead of Tor's logfiles
#'Log notice': 'syslog'
## To send all messages to stderr:
#'Log debug': 'stderr'
## Uncomment this to start the process in the background... or use
## --runasdaemon 1 on the command line. This is ignored on Windows;
## see the FAQ entry if you want Tor to run as an NT service.
RunAsDaemon: '1'
## The directory for keeping all the keys/etc. By default, we store
## things in $HOME/.tor on Unix, and in Application Data\tor on Windows.
DataDirectory: '/var/lib/tor'
## The port on which Tor will listen for local connections from Tor
## controller applications, as documented in control-spec.txt.
#ControlPort: '9051'
## If you enable the controlport, be sure to enable one of these
## authentication methods, to prevent attackers from accessing it.
#HashedControlPassword: '16:872860B76453A77D60CA2BB8C1A7042072093276A3D701AD684053EC4C'
#CookieAuthentication: '1'
############### This section is just for location-hidden services ###
## Once you have configured a hidden service, you can look at the
## contents of the file ".../hidden_service/hostname" for the address
## to tell people.
##
## HiddenServicePort x y:z says to redirect requests on port x to the
## address y:z.
#HiddenServiceDir: '/var/lib/tor/hidden_service/'
#HiddenServicePort: '80 127.0.0.1:80'
#HiddenServiceDir: '/var/lib/tor/other_hidden_service/'
#HiddenServicePort: '80 127.0.0.1:80'
#HiddenServicePort: '22 127.0.0.1:22'
################ This section is just for relays #####################
#
## See https://www.torproject.org/docs/tor-doc-relay for details.
## Required: what port to advertise for incoming Tor connections.
## If you want to listen on a port other than the one advertised in
## ORPort (e.g. to advertise 443 but bind to 9090), you can do it as
## follows. You'll need to do ipchains or other port forwarding
## yourself to make this work.
#ORPort 443 NoListen
#ORPort 127.0.0.1:9090 NoAdvertise
ORPort: '9001'
## The IP address or full DNS name for incoming connections to your
## relay. Leave commented out and Tor will guess.
#Address: 'noname.example.com'
## If you have multiple network interfaces, you can specify one for
## outgoing traffic to use.
#OutboundBindAddress: '10.0.0.5'
## A handle for your relay, so people don't have to refer to it by key.
## Nicknames must be between 1 and 19 characters inclusive, and must
## contain only the characters [a-zA-Z0-9].
#Nickname: 'ididnteditheconfig'
## Define these to limit how much relayed traffic you will allow. Your
## own traffic is still unthrottled. Note that RelayBandwidthRate must
## be at least 75 kilobytes per second.
## Note that units for these config options are bytes (per second), not
## bits (per second), and that prefixes are binary prefixes, i.e. 2^10,
## 2^20, etc.
#RelayBandwidthRate: '100 KBytes' # Throttle traffic to 100KB/s (800Kbps)
#RelayBandwidthBurst: '200 KBytes' # But allow bursts up to 200KB (1600Kb)
## Use these to restrict the maximum traffic per day, week, or month.
## Note that this threshold applies separately to sent and received bytes,
## not to their sum: setting "40 GB" may allow up to 80 GB total before
## hibernating.
##
## Set a maximum of 40 gigabytes each way per period.
#AccountingMax: '40 GBytes'
## Each period starts daily at midnight (AccountingMax is per day)
#AccountingStart: 'day 00:00'
## Each period starts on the 3rd of the month at 15:00 (AccountingMax
## is per month)
#AccountingStart: 'month 3 15:00'
## Administrative contact information for this relay or bridge. This line
## can be used to contact you if your relay or bridge is misconfigured or
## something else goes wrong. Note that we archive and publish all
## descriptors containing these lines and that Google indexes them, so
## spammers might also collect them. You may want to obscure the fact that
## it's an email address and/or generate a new address for this purpose.
#ContactInfo: 'Random Person <nobody AT example dot com>'
## You might also include your PGP or GPG fingerprint if you have one:
#ContactInfo: '0xFFFFFFFF Random Person <nobody AT example dot com>'
## Uncomment this to mirror directory information for others. Please do
## if you have enough bandwidth.
#DirPort: '9030' # what port to advertise for directory connections
## If you want to listen on a port other than the one advertised in
## DirPort (e.g. to advertise 80 but bind to 9091), you can do it as
## follows. below too. You'll need to do ipchains or other port
## forwarding yourself to make this work.
#DirPort: '80 NoListen'
#DirPort: '127.0.0.1:9091 NoAdvertise'
## Uncomment to return an arbitrary blob of html on your DirPort. Now you
## can explain what Tor is if anybody wonders why your IP address is
## contacting them. See contrib/tor-exit-notice.html in Tor's source
## distribution for a sample.
#DirPortFrontPage: '/etc/tor/tor-exit-notice.html'
## Uncomment this if you run more than one Tor relay, and add the identity
## key fingerprint of each Tor relay you control, even if they're on
## different networks. You declare it here so Tor clients can avoid
## using more than one of your relays in a single circuit. See
## https://www.torproject.org/docs/faq#MultipleRelays
## However, you should never include a bridge's fingerprint here, as it would
## break its concealability and potentially reveal its IP/TCP address.
#MyFamily: '$keyid,$keyid,...'
## A comma-separated list of exit policies. They're considered first
## to last, and the first match wins.
##
## If you want to allow the same ports on IPv4 and IPv6, write your rules
## using accept/reject *. If you want to allow different ports on IPv4 and
## IPv6, write your IPv6 rules using accept6/reject6 *6, and your IPv4 rules
## using accept/reject *4.
##
## If you want to _replace_ the default exit policy, end this with either a
## reject *:* or an accept *:*. Otherwise, you're _augmenting_ (prepending to)
## the default exit policy. Leave commented to just use the default, which is
## described in the man page or at
## https://www.torproject.org/documentation.html
##
## Look at https://www.torproject.org/faq-abuse.html#TypicalAbuses
## for issues you might encounter if you use the default exit policy.
##
## If certain IPs and ports are blocked externally, e.g. by your firewall,
## you should update your exit policy to reflect this -- otherwise Tor
## users will be told that those destinations are down.
##
## For security, by default Tor rejects connections to private (local)
## networks, including to the configured primary public IPv4 and IPv6 addresses,
## and any public IPv4 and IPv6 addresses on any interface on the relay.
## See the man page entry for ExitPolicyRejectPrivate if you want to allow
## "exit enclaving".
##
#ExitPolicy: 'accept *:6660-6667,reject *:*' # allow irc ports on IPv4 and IPv6 but no more
#ExitPolicy: 'accept *:119' # accept nntp ports on IPv4 and IPv6 as well as default exit policy
#ExitPolicy: 'accept *4:119' # accept nntp ports on IPv4 only as well as default exit policy
#ExitPolicy: 'accept6 *6:119' # accept nntp ports on IPv6 only as well as default exit policy
#ExitPolicy: 'reject *:*' # no exits allowed
## Bridge relays (or "bridges") are Tor relays that aren't listed in the
## main directory. Since there is no complete public list of them, even an
## ISP that filters connections to all the known Tor relays probably
## won't be able to block all the bridges. Also, websites won't treat you
## differently because they won't know you're running Tor. If you can
## be a real relay, please do; but if not, be a bridge!
#BridgeRelay: '1'
## By default, Tor will advertise your bridge to users through various
## mechanisms like https://bridges.torproject.org/. If you want to run
## a private bridge, for example because you'll give out your bridge
## address manually to your friends, uncomment this line:
#PublishServerDescriptor: '0'
torsocks:
# Default Tor address and port. By default, Tor will listen on localhost for
# any SOCKS connection and relay the traffic on the Tor network.
TorAddress: '127.0.0.1'
TorPort: '9050'
# Tor hidden sites do not have real IP addresses. This specifies what range of
# IP addresses will be handed to the application as "cookies" for .onion names.
# Of course, you should pick a block of addresses which you aren't going to
# ever need to actually connect to. This is similar to the MapAddress feature
# of the main tor daemon.
OnionAddrRange: '127.42.42.0/24'
# SOCKS5 Username and Password. This is used to isolate the torsocks connection
# circuit from other streams in Tor. Use with option IsolateSOCKSAuth (on by
# default) in tor(1). TORSOCKS_USERNAME and TORSOCKS_PASSWORD environment
# variable overrides these options.
#SOCKS5Username: <username>
#SOCKS5Password: <password>
# Set Torsocks to accept inbound connections. If set to 1, listen() and
# accept() will be allowed to be used with non localhost address. (Default: 0)
#AllowInbound: '1'
# Set Torsocks to allow outbound connections to the loopback interface.
# If set to 1, connect() will be allowed to be used to the loopback interface
# bypassing Tor. If set to 2, in addition to TCP connect(), UDP operations to
# the loopback interface will also be allowed, bypassing Tor. This option
# should not be used by most users. (Default: 0)
#AllowOutboundLocalhost: '1'
# Set Torsocks to use an automatically generated SOCKS5 username/password based
# on the process ID and current time, that makes the connections to Tor use a
# different circuit from other existing streams in Tor on a per-process basis.
# If set, the SOCKS5Username and SOCKS5Password options must not be set.
# (Default: 0)
#IsolatePID: '1'
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