1 # Sample Configuration File for Privoxy 3.0.33
3 # Copyright (C) 2001-2021 Privoxy Developers https://www.privoxy.org/
5 #####################################################################
10 # II. FORMAT OF THE CONFIGURATION FILE #
12 # 1. LOCAL SET-UP DOCUMENTATION #
13 # 2. CONFIGURATION AND LOG FILE LOCATIONS #
15 # 4. ACCESS CONTROL AND SECURITY #
18 # 7. HTTPS INSPECTION (EXPERIMENTAL) #
19 # 8. WINDOWS GUI OPTIONS #
21 #####################################################################
27 # This file holds Privoxy's main configuration. Privoxy detects
28 # configuration changes automatically, so you don't have to restart
29 # it unless you want to load a different configuration file.
31 # The configuration will be reloaded with the first request after
32 # the change was done, this request itself will still use the old
33 # configuration, though. In other words: it takes two requests
34 # before you see the result of your changes. Requests that are
35 # dropped due to ACL don't trigger reloads.
37 # When starting Privoxy on Unix systems, give the location of this
38 # file as last argument. On Windows systems, Privoxy will look for
39 # this file with the name 'config.txt' in the current working
40 # directory of the Privoxy process.
43 # II. FORMAT OF THE CONFIGURATION FILE
44 # ====================================
46 # Configuration lines consist of an initial keyword followed by a
47 # list of values, all separated by whitespace (any number of spaces
48 # or tabs). For example,
50 # actionsfile default.action
52 # Indicates that the actionsfile is named 'default.action'.
54 # The '#' indicates a comment. Any part of a line following a '#' is
55 # ignored, except if the '#' is preceded by a '\'.
57 # Thus, by placing a # at the start of an existing configuration
58 # line, you can make it a comment and it will be treated as if it
59 # weren't there. This is called "commenting out" an option and can
60 # be useful. Removing the # again is called "uncommenting".
62 # Note that commenting out an option and leaving it at its default
63 # are two completely different things! Most options behave very
64 # differently when unset. See the "Effect if unset" explanation in
65 # each option's description for details.
67 # Long lines can be continued on the next line by using a `\' as the
71 # 1. LOCAL SET-UP DOCUMENTATION
72 # ==============================
74 # If you intend to operate Privoxy for more users than just
75 # yourself, it might be a good idea to let them know how to reach
76 # you, what you block and why you do that, your policies, etc.
84 # Location of the Privoxy User Manual.
88 # A fully qualified URI
96 # https://www.privoxy.org/version/user-manual/ will be used,
97 # where version is the Privoxy version.
101 # The User Manual URI is the single best source of information
102 # on Privoxy, and is used for help links from some of the
103 # internal CGI pages. The manual itself is normally packaged
104 # with the binary distributions, so you probably want to set
105 # this to a locally installed copy.
109 # The best all purpose solution is simply to put the full local
110 # PATH to where the User Manual is located:
112 # user-manual /usr/share/doc/privoxy/user-manual
114 # The User Manual is then available to anyone with access to
115 # Privoxy, by following the built-in URL: http://
116 # config.privoxy.org/user-manual/ (or the shortcut: http://p.p/
119 # If the documentation is not on the local system, it can be
120 # accessed from a remote server, as:
122 # user-manual http://example.com/privoxy/user-manual/
126 # If set, this option should be the first option in the
127 # config file, because it is used while the config file is
130 #user-manual https://www.privoxy.org/user-manual/
132 # 1.2. trust-info-url
133 # ====================
137 # A URL to be displayed in the error page that users will see if
138 # access to an untrusted page is denied.
150 # No links are displayed on the "untrusted" error page.
154 # The value of this option only matters if the experimental
155 # trust mechanism has been activated. (See trustfile below.)
157 # If you use the trust mechanism, it is a good idea to write up
158 # some on-line documentation about your trust policy and to
159 # specify the URL(s) here. Use multiple times for multiple URLs.
161 # The URL(s) should be added to the trustfile as well, so users
162 # don't end up locked out from the information on why they were
163 # locked out in the first place!
165 #trust-info-url http://www.example.com/why_we_block.html
166 #trust-info-url http://www.example.com/what_we_allow.html
169 # ===================
173 # An email address to reach the Privoxy administrator.
185 # No email address is displayed on error pages and the CGI user
190 # If both admin-address and proxy-info-url are unset, the whole
191 # "Local Privoxy Support" box on all generated pages will not be
194 #admin-address privoxy-admin@example.com
196 # 1.4. proxy-info-url
197 # ====================
201 # A URL to documentation about the local Privoxy setup,
202 # configuration or policies.
214 # No link to local documentation is displayed on error pages and
215 # the CGI user interface.
219 # If both admin-address and proxy-info-url are unset, the whole
220 # "Local Privoxy Support" box on all generated pages will not be
223 # This URL shouldn't be blocked ;-)
225 #proxy-info-url http://www.example.com/proxy-service.html
227 # 2. CONFIGURATION AND LOG FILE LOCATIONS
228 # ========================================
230 # Privoxy can (and normally does) use a number of other files for
231 # additional configuration, help and logging. This section of the
232 # configuration file tells Privoxy where to find those other files.
234 # The user running Privoxy, must have read permission for all
235 # configuration files, and write permission to any files that would
236 # be modified, such as log files and actions files.
244 # The directory where the other configuration files are located.
252 # /etc/privoxy (Unix) or Privoxy installation dir (Windows)
260 # No trailing "/", please.
269 # An alternative directory where the templates are loaded from.
281 # The templates are assumed to be located in confdir/template.
285 # Privoxy's original templates are usually overwritten with each
286 # update. Use this option to relocate customized templates that
287 # should be kept. As template variables might change between
288 # updates, you shouldn't expect templates to work with Privoxy
289 # releases other than the one they were part of, though.
293 # 2.3. temporary-directory
294 # =========================
298 # A directory where Privoxy can create temporary files.
310 # No temporary files are created, external filters don't work.
314 # To execute external filters, Privoxy has to create temporary
315 # files. This directive specifies the directory the temporary
316 # files should be written to.
318 # It should be a directory only Privoxy (and trusted users) can
321 #temporary-directory .
328 # The directory where all logging takes place (i.e. where the
329 # logfile is located).
337 # /var/log/privoxy (Unix) or Privoxy installation dir (Windows)
345 # No trailing "/", please.
354 # The actions file(s) to use
358 # Complete file name, relative to confdir
362 # match-all.action # Actions that are applied to all sites and maybe overruled later on.
364 # default.action # Main actions file
366 # user.action # User customizations
370 # No actions are taken at all. More or less neutral proxying.
374 # Multiple actionsfile lines are permitted, and are in fact
377 # The default values are default.action, which is the "main"
378 # actions file maintained by the developers, and user.action,
379 # where you can make your personal additions.
381 # Actions files contain all the per site and per URL
382 # configuration for ad blocking, cookie management, privacy
383 # considerations, etc.
385 actionsfile match-all.action # Actions that are applied to all sites and maybe overruled later on.
386 actionsfile default.action # Main actions file
387 actionsfile user.action # User customizations
388 #actionsfile regression-tests.action # Tests for privoxy-regression-test
395 # The filter file(s) to use
399 # File name, relative to confdir
403 # default.filter (Unix) or default.filter.txt (Windows)
407 # No textual content filtering takes place, i.e. all +filter{name}
408 # actions in the actions files are turned neutral.
412 # Multiple filterfile lines are permitted.
414 # The filter files contain content modification rules that use
415 # regular expressions. These rules permit powerful changes on
416 # the content of Web pages, and optionally the headers as well,
417 # e.g., you could try to disable your favorite JavaScript
418 # annoyances, re-write the actual displayed text, or just have
419 # some fun playing buzzword bingo with web pages.
421 # The +filter{name} actions rely on the relevant filter (name)
422 # to be defined in a filter file!
424 # A pre-defined filter file called default.filter that contains
425 # a number of useful filters for common problems is included in
426 # the distribution. See the section on the filter action for a
429 # It is recommended to place any locally adapted filters into a
430 # separate file, such as user.filter.
432 filterfile default.filter
433 filterfile user.filter # User customizations
440 # The log file to use
444 # File name, relative to logdir
448 # Unset (commented out). When activated: logfile (Unix) or
449 # privoxy.log (Windows).
453 # No logfile is written.
457 # The logfile is where all logging and error messages are
458 # written. The level of detail and number of messages are set
459 # with the debug option (see below). The logfile can be useful
460 # for tracking down a problem with Privoxy (e.g., it's not
461 # blocking an ad you think it should block) and it can help you
462 # to monitor what your browser is doing.
464 # Depending on the debug options below, the logfile may be a
465 # privacy risk if third parties can get access to it. As most
466 # users will never look at it, Privoxy only logs fatal errors by
469 # For most troubleshooting purposes, you will have to change
470 # that, please refer to the debugging section for details.
472 # Any log files must be writable by whatever user Privoxy is
473 # being run as (on Unix, default user id is "privoxy").
475 # To prevent the logfile from growing indefinitely, it is
476 # recommended to periodically rotate or shorten it. Many
477 # operating systems support log rotation out of the box, some
478 # require additional software to do it. For details, please
479 # refer to the documentation for your operating system.
488 # The name of the trust file to use
492 # File name, relative to confdir
496 # Unset (commented out). When activated: trust (Unix) or
497 # trust.txt (Windows)
501 # The entire trust mechanism is disabled.
505 # The trust mechanism is an experimental feature for building
506 # white-lists and should be used with care. It is NOT
507 # recommended for the casual user.
509 # If you specify a trust file, Privoxy will only allow access to
510 # sites that are specified in the trustfile. Sites can be listed
511 # in one of two ways:
513 # Prepending a ~ character limits access to this site only (and
514 # any sub-paths within this site), e.g. ~www.example.com allows
515 # access to ~www.example.com/features/news.html, etc.
517 # Or, you can designate sites as trusted referrers, by
518 # prepending the name with a + character. The effect is that
519 # access to untrusted sites will be granted -- but only if a
520 # link from this trusted referrer was used to get there. The
521 # link target will then be added to the "trustfile" so that
522 # future, direct accesses will be granted. Sites added via this
523 # mechanism do not become trusted referrers themselves (i.e.
524 # they are added with a ~ designation). There is a limit of 512
525 # such entries, after which new entries will not be made.
527 # If you use the + operator in the trust file, it may grow
528 # considerably over time.
530 # It is recommended that Privoxy be compiled with the
531 # --disable-force, --disable-toggle and --disable-editor
532 # options, if this feature is to be used.
534 # Possible applications include limiting Internet access for
542 # These options are mainly useful when tracing a problem. Note that
543 # you might also want to invoke Privoxy with the --no-daemon command
544 # line option when debugging.
552 # Key values that determine what information gets logged.
560 # 0 (i.e.: only fatal errors (that cause Privoxy to exit) are
565 # Default value is used (see above).
569 # The available debug levels are:
571 # debug 1 # Log the destination for each request. See also debug 1024.
572 # debug 2 # show each connection status
573 # debug 4 # show tagging-related messages
574 # debug 8 # show header parsing
575 # debug 16 # log all data written to the network
576 # debug 32 # debug force feature
577 # debug 64 # debug regular expression filters
578 # debug 128 # debug redirects
579 # debug 256 # debug GIF de-animation
580 # debug 512 # Common Log Format
581 # debug 1024 # Log the destination for requests Privoxy didn't let through, and the reason why.
582 # debug 2048 # CGI user interface
583 # debug 4096 # Startup banner and warnings.
584 # debug 8192 # Non-fatal errors
585 # debug 32768 # log all data read from the network
586 # debug 65536 # Log the applying actions
588 # To select multiple debug levels, you can either add them or
589 # use multiple debug lines.
591 # A debug level of 1 is informative because it will show you
592 # each request as it happens. 1, 1024, 4096 and 8192 are
593 # recommended so that you will notice when things go wrong. The
594 # other levels are probably only of interest if you are hunting
595 # down a specific problem. They can produce a lot of output
598 # If you are used to the more verbose settings, simply enable
599 # the debug lines below again.
601 # If you want to use pure CLF (Common Log Format), you should
602 # set "debug 512" ONLY and not enable anything else.
604 # Privoxy has a hard-coded limit for the length of log messages.
605 # If it's reached, messages are logged truncated and marked with
606 # "... [too long, truncated]".
608 # Please don't file any support requests without trying to
609 # reproduce the problem with increased debug level first. Once
610 # you read the log messages, you may even be able to solve the
611 # problem on your own.
613 #debug 1 # Log the destination for each request. See also debug 1024.
614 #debug 2 # show each connection status
615 #debug 4 # show tagging-related messages
616 #debug 8 # show header parsing
617 #debug 128 # debug redirects
618 #debug 256 # debug GIF de-animation
619 #debug 512 # Common Log Format
620 #debug 1024 # Log the destination for requests Privoxy didn't let through, and the reason why.
621 #debug 4096 # Startup banner and warnings
622 #debug 8192 # Non-fatal errors
623 #debug 65536 # Log applying actions
625 # 3.2. single-threaded
626 # =====================
630 # Whether to run only one server thread.
642 # Multi-threaded (or, where unavailable: forked) operation, i.e.
643 # the ability to serve multiple requests simultaneously.
647 # This option is only there for debugging purposes. It will
648 # drastically reduce performance.
657 # The hostname shown on the CGI pages.
669 # The hostname provided by the operating system is used.
673 # On some misconfigured systems resolving the hostname fails or
674 # takes too much time and slows Privoxy down. Setting a fixed
675 # hostname works around the problem.
677 # In other circumstances it might be desirable to show a
678 # hostname other than the one returned by the operating system.
679 # For example if the system has several different hostnames and
680 # you don't want to use the first one.
682 # Note that Privoxy does not validate the specified hostname
685 #hostname hostname.example.org
687 # 4. ACCESS CONTROL AND SECURITY
688 # ===============================
690 # This section of the config file controls the security-relevant
691 # aspects of Privoxy's configuration.
694 # 4.1. listen-address
695 # ====================
699 # The address and TCP port on which Privoxy will listen for
714 # Bind to 127.0.0.1 (IPv4 localhost), port 8118. This is
715 # suitable and recommended for home users who run Privoxy on the
716 # same machine as their browser.
720 # You will need to configure your browser(s) to this proxy
723 # If you already have another service running on port 8118, or
724 # if you want to serve requests from other machines (e.g. on
725 # your local network) as well, you will need to override the
728 # You can use this statement multiple times to make Privoxy
729 # listen on more ports or more IP addresses. Suitable if your
730 # operating system does not support sharing IPv6 and IPv4
731 # protocols on the same socket.
733 # If a hostname is used instead of an IP address, Privoxy will
734 # try to resolve it to an IP address and if there are multiple,
735 # use the first one returned.
737 # If the address for the hostname isn't already known on the
738 # system (for example because it's in /etc/hostname), this may
739 # result in DNS traffic.
741 # If the specified address isn't available on the system, or if
742 # the hostname can't be resolved, Privoxy will fail to start. On
743 # GNU/Linux, and other platforms that can listen on not yet
744 # assigned IP addresses, Privoxy will start and will listen on
745 # the specified address whenever the IP address is assigned to
748 # IPv6 addresses containing colons have to be quoted by
749 # brackets. They can only be used if Privoxy has been compiled
750 # with IPv6 support. If you aren't sure if your version supports
751 # it, have a look at http://config.privoxy.org/show-status.
753 # Some operating systems will prefer IPv6 to IPv4 addresses even
754 # if the system has no IPv6 connectivity which is usually not
755 # expected by the user. Some even rely on DNS to resolve
756 # localhost which mean the "localhost" address used may not
759 # It is therefore recommended to explicitly configure the
760 # intended IP address instead of relying on the operating
761 # system, unless there's a strong reason not to.
763 # If you leave out the address, Privoxy will bind to all IPv4
764 # interfaces (addresses) on your machine and may become
765 # reachable from the Internet and/or the local network. Be aware
766 # that some GNU/Linux distributions modify that behaviour
767 # without updating the documentation. Check for non-standard
768 # patches if your Privoxy version behaves differently.
770 # If you configure Privoxy to be reachable from the network,
771 # consider using access control lists (ACL's, see below), and/or
774 # If you open Privoxy to untrusted users, you should also make
775 # sure that the following actions are disabled:
776 # enable-edit-actions and enable-remote-toggle
780 # Suppose you are running Privoxy on a machine which has the
781 # address 192.168.0.1 on your local private network
782 # (192.168.0.0) and has another outside connection with a
783 # different address. You want it to serve requests from inside
786 # listen-address 192.168.0.1:8118
788 # Suppose you are running Privoxy on an IPv6-capable machine and
789 # you want it to listen on the IPv6 address of the loopback
792 # listen-address [::1]:8118
794 listen-address 127.0.0.1:8118
801 # Initial state of "toggle" status
813 # Act as if toggled on
817 # If set to 0, Privoxy will start in "toggled off" mode, i.e.
818 # mostly behave like a normal, content-neutral proxy with both
819 # ad blocking and content filtering disabled. See
820 # enable-remote-toggle below.
824 # 4.3. enable-remote-toggle
825 # ==========================
829 # Whether or not the web-based toggle feature may be used
841 # The web-based toggle feature is disabled.
845 # When toggled off, Privoxy mostly acts like a normal,
846 # content-neutral proxy, i.e. doesn't block ads or filter
849 # Access to the toggle feature can not be controlled separately
850 # by "ACLs" or HTTP authentication, so that everybody who can
851 # access Privoxy (see "ACLs" and listen-address above) can
852 # toggle it for all users. So this option is not recommended for
853 # multi-user environments with untrusted users.
855 # Note that malicious client side code (e.g Java) is also
856 # capable of using this option.
858 # As a lot of Privoxy users don't read documentation, this
859 # feature is disabled by default.
861 # Note that you must have compiled Privoxy with support for this
862 # feature, otherwise this option has no effect.
864 enable-remote-toggle 0
866 # 4.4. enable-remote-http-toggle
867 # ===============================
871 # Whether or not Privoxy recognizes special HTTP headers to
872 # change its behaviour.
884 # Privoxy ignores special HTTP headers.
888 # When toggled on, the client can change Privoxy's behaviour by
889 # setting special HTTP headers. Currently the only supported
890 # special header is "X-Filter: No", to disable filtering for the
891 # ongoing request, even if it is enabled in one of the action
894 # This feature is disabled by default. If you are using Privoxy
895 # in a environment with trusted clients, you may enable this
896 # feature at your discretion. Note that malicious client side
897 # code (e.g Java) is also capable of using this feature.
899 # This option will be removed in future releases as it has been
900 # obsoleted by the more general header taggers.
902 enable-remote-http-toggle 0
904 # 4.5. enable-edit-actions
905 # =========================
909 # Whether or not the web-based actions file editor may be used
921 # The web-based actions file editor is disabled.
925 # Access to the editor can not be controlled separately by
926 # "ACLs" or HTTP authentication, so that everybody who can
927 # access Privoxy (see "ACLs" and listen-address above) can
928 # modify its configuration for all users.
930 # This option is not recommended for environments with untrusted
931 # users and as a lot of Privoxy users don't read documentation,
932 # this feature is disabled by default.
934 # Note that malicious client side code (e.g Java) is also
935 # capable of using the actions editor and you shouldn't enable
936 # this options unless you understand the consequences and are
937 # sure your browser is configured correctly.
939 # Note that you must have compiled Privoxy with support for this
940 # feature, otherwise this option has no effect.
942 enable-edit-actions 0
944 # 4.6. enforce-blocks
945 # ====================
949 # Whether the user is allowed to ignore blocks and can "go there
962 # Blocks are not enforced.
966 # Privoxy is mainly used to block and filter requests as a
967 # service to the user, for example to block ads and other junk
968 # that clogs the pipes. Privoxy's configuration isn't perfect
969 # and sometimes innocent pages are blocked. In this situation it
970 # makes sense to allow the user to enforce the request and have
971 # Privoxy ignore the block.
973 # In the default configuration Privoxy's "Blocked" page contains
974 # a "go there anyway" link to adds a special string (the force
975 # prefix) to the request URL. If that link is used, Privoxy will
976 # detect the force prefix, remove it again and let the request
979 # Of course Privoxy can also be used to enforce a network
980 # policy. In that case the user obviously should not be able to
981 # bypass any blocks, and that's what the "enforce-blocks" option
982 # is for. If it's enabled, Privoxy hides the "go there anyway"
983 # link. If the user adds the force prefix by hand, it will not
984 # be accepted and the circumvention attempt is logged.
992 # 4.7. ACLs: permit-access and deny-access
993 # =========================================
997 # Who can access what.
1001 # src_addr[:port][/src_masklen] [dst_addr[:port][/dst_masklen]]
1003 # Where src_addr and dst_addr are IPv4 addresses in dotted
1004 # decimal notation or valid DNS names, port is a port number,
1005 # and src_masklen and dst_masklen are subnet masks in CIDR
1006 # notation, i.e. integer values from 2 to 30 representing the
1007 # length (in bits) of the network address. The masks and the
1008 # whole destination part are optional.
1010 # If your system implements RFC 3493, then src_addr and dst_addr
1011 # can be IPv6 addresses delimited by brackets, port can be a
1012 # number or a service name, and src_masklen and dst_masklen can
1013 # be a number from 0 to 128.
1019 # If no port is specified, any port will match. If no
1020 # src_masklen or src_masklen is given, the complete IP address
1021 # has to match (i.e. 32 bits for IPv4 and 128 bits for IPv6).
1025 # Don't restrict access further than implied by listen-address
1029 # Access controls are included at the request of ISPs and
1030 # systems administrators, and are not usually needed by
1031 # individual users. For a typical home user, it will normally
1032 # suffice to ensure that Privoxy only listens on the localhost
1033 # (127.0.0.1) or internal (home) network address by means of the
1034 # listen-address option.
1036 # Please see the warnings in the FAQ that Privoxy is not
1037 # intended to be a substitute for a firewall or to encourage
1038 # anyone to defer addressing basic security weaknesses.
1040 # Multiple ACL lines are OK. If any ACLs are specified, Privoxy
1041 # only talks to IP addresses that match at least one
1042 # permit-access line and don't match any subsequent deny-access
1043 # line. In other words, the last match wins, with the default
1044 # being deny-access.
1046 # If Privoxy is using a forwarder (see forward below) for a
1047 # particular destination URL, the dst_addr that is examined is
1048 # the address of the forwarder and NOT the address of the
1049 # ultimate target. This is necessary because it may be
1050 # impossible for the local Privoxy to determine the IP address
1051 # of the ultimate target (that's often what gateways are used
1054 # You should prefer using IP addresses over DNS names, because
1055 # the address lookups take time. All DNS names must resolve! You
1056 # can not use domain patterns like "*.org" or partial domain
1057 # names. If a DNS name resolves to multiple IP addresses, only
1058 # the first one is used.
1060 # Some systems allow IPv4 clients to connect to IPv6 server
1061 # sockets. Then the client's IPv4 address will be translated by
1062 # the system into IPv6 address space with special prefix
1063 # ::ffff:0:0/96 (so called IPv4 mapped IPv6 address). Privoxy
1064 # can handle it and maps such ACL addresses automatically.
1066 # Denying access to particular sites by ACL may have undesired
1067 # side effects if the site in question is hosted on a machine
1068 # which also hosts other sites (most sites are).
1072 # Explicitly define the default behavior if no ACL and
1073 # listen-address are set: "localhost" is OK. The absence of a
1074 # dst_addr implies that all destination addresses are OK:
1076 # permit-access localhost
1078 # Allow any host on the same class C subnet as www.privoxy.org
1079 # access to nothing but www.example.com (or other domains hosted
1080 # on the same system):
1082 # permit-access www.privoxy.org/24 www.example.com/32
1084 # Allow access from any host on the 26-bit subnet 192.168.45.64
1085 # to anywhere, with the exception that 192.168.45.73 may not
1086 # access the IP address behind www.dirty-stuff.example.com:
1088 # permit-access 192.168.45.64/26
1089 # deny-access 192.168.45.73 www.dirty-stuff.example.com
1091 # Allow access from the IPv4 network 192.0.2.0/24 even if
1092 # listening on an IPv6 wild card address (not supported on all
1095 # permit-access 192.0.2.0/24
1097 # This is equivalent to the following line even if listening on
1098 # an IPv4 address (not supported on all platforms):
1100 # permit-access [::ffff:192.0.2.0]/120
1104 # ==================
1108 # Maximum size of the buffer for content filtering.
1120 # Use a 4MB (4096 KB) limit.
1124 # For content filtering, i.e. the +filter and +deanimate-gif
1125 # actions, it is necessary that Privoxy buffers the entire
1126 # document body. This can be potentially dangerous, since a
1127 # server could just keep sending data indefinitely and wait for
1128 # your RAM to exhaust -- with nasty consequences. Hence this
1131 # When a document buffer size reaches the buffer-limit, it is
1132 # flushed to the client unfiltered and no further attempt to
1133 # filter the rest of the document is made. Remember that there
1134 # may be multiple threads running, which might require up to
1135 # buffer-limit Kbytes each, unless you have enabled
1136 # "single-threaded" above.
1140 # 4.9. enable-proxy-authentication-forwarding
1141 # ============================================
1145 # Whether or not proxy authentication through Privoxy should
1158 # Proxy authentication headers are removed.
1162 # Privoxy itself does not support proxy authentication, but can
1163 # allow clients to authenticate against Privoxy's parent proxy.
1165 # By default Privoxy (3.0.21 and later) don't do that and remove
1166 # Proxy-Authorization headers in requests and Proxy-Authenticate
1167 # headers in responses to make it harder for malicious sites to
1168 # trick inexperienced users into providing login information.
1170 # If this option is enabled the headers are forwarded.
1172 # Enabling this option is not recommended if there is no parent
1173 # proxy that requires authentication or if the local network
1174 # between Privoxy and the parent proxy isn't trustworthy. If
1175 # proxy authentication is only required for some requests, it is
1176 # recommended to use a client header filter to remove the
1177 # authentication headers for requests where they aren't needed.
1179 enable-proxy-authentication-forwarding 0
1181 # 4.10. trusted-cgi-referer
1182 # ==========================
1186 # A trusted website or webpage whose links can be followed to
1187 # reach sensitive CGI pages
1199 # No external pages are considered trusted referers.
1203 # Before Privoxy accepts configuration changes through CGI pages
1204 # like client-tags or the remote toggle, it checks the Referer
1205 # header to see if the request comes from a trusted source.
1207 # By default only the webinterface domains config.privoxy.org
1208 # and p.p are considered trustworthy. Requests originating from
1209 # other domains are rejected to prevent third-parties from
1210 # modifiying Privoxy's state by e.g. embedding images that
1211 # result in CGI requests.
1213 # In some environments it may be desirable to embed links to CGI
1214 # pages on external pages, for example on an Intranet homepage
1215 # the Privoxy admin controls.
1217 # The "trusted-cgi-referer" option can be used to add that page,
1218 # or the whole domain, as trusted source so the resulting
1219 # requests aren't rejected. Requests are accepted if the
1220 # specified trusted-cgi-refer is the prefix of the Referer.
1222 # If the trusted source is supposed to access the CGI pages via
1223 # JavaScript the cors-allowed-origin option can be used.
1225 # +-----------------------------------------------------+
1227 # |-----------------------------------------------------|
1228 # |Declaring pages the admin doesn't control trustworthy|
1229 # |may allow malicious third parties to modify Privoxy's|
1230 # |internal state against the user's wishes and without |
1231 # |the user's knowledge. |
1232 # +-----------------------------------------------------+
1234 #trusted-cgi-referer http://www.example.org/local-privoxy-control-page
1236 # 4.11. cors-allowed-origin
1237 # ==========================
1241 # A trusted website which can access Privoxy's CGI pages through
1254 # No external sites get access via cross-origin resource
1259 # Modern browsers by default prevent cross-origin requests made
1260 # via JavaScript to Privoxy's CGI interface even if Privoxy
1261 # would trust the referer because it's white listed via the
1262 # trusted-cgi-referer directive.
1264 # Cross-origin resource sharing (CORS) is a mechanism to allow
1265 # cross-origin requests.
1267 # The "cors-allowed-origin" option can be used to specify a
1268 # domain that is allowed to make requests to Privoxy CGI
1269 # interface via JavaScript. It is used in combination with the
1270 # trusted-cgi-referer directive.
1272 # +-----------------------------------------------------+
1274 # |-----------------------------------------------------|
1275 # |Declaring domains the admin doesn't control |
1276 # |trustworthy may allow malicious third parties to |
1277 # |modify Privoxy's internal state against the user's |
1278 # |wishes and without the user's knowledge. |
1279 # +-----------------------------------------------------+
1281 #cors-allowed-origin http://www.example.org/
1286 # This feature allows routing of HTTP requests through a chain of
1289 # Forwarding can be used to chain Privoxy with a caching proxy to
1290 # speed up browsing. Using a parent proxy may also be necessary if
1291 # the machine that Privoxy runs on has no direct Internet access.
1293 # Note that parent proxies can severely decrease your privacy level.
1294 # For example a parent proxy could add your IP address to the
1295 # request headers and if it's a caching proxy it may add the "Etag"
1296 # header to revalidation requests again, even though you configured
1297 # Privoxy to remove it. It may also ignore Privoxy's header time
1298 # randomization and use the original values which could be used by
1299 # the server as cookie replacement to track your steps between
1302 # Also specified here are SOCKS proxies. Privoxy supports the SOCKS
1303 # 4 and SOCKS 4A protocols.
1311 # To which parent HTTP proxy specific requests should be routed.
1315 # target_pattern http_parent[:port]
1317 # where target_pattern is a URL pattern that specifies to which
1318 # requests (i.e. URLs) this forward rule shall apply. Use / to
1319 # denote "all URLs". http_parent[:port] is the DNS name or IP
1320 # address of the parent HTTP proxy through which the requests
1321 # should be forwarded, optionally followed by its listening port
1322 # (default: 8000). Use a single dot (.) to denote "no
1331 # Don't use parent HTTP proxies.
1335 # If http_parent is ".", then requests are not forwarded to
1336 # another HTTP proxy but are made directly to the web servers.
1338 # http_parent can be a numerical IPv6 address (if RFC 3493 is
1339 # implemented). To prevent clashes with the port delimiter, the
1340 # whole IP address has to be put into brackets. On the other
1341 # hand a target_pattern containing an IPv6 address has to be put
1342 # into angle brackets (normal brackets are reserved for regular
1343 # expressions already).
1345 # Multiple lines are OK, they are checked in sequence, and the
1350 # Everything goes to an example parent proxy, except SSL on port
1351 # 443 (which it doesn't handle):
1353 # forward / parent-proxy.example.org:8080
1356 # Everything goes to our example ISP's caching proxy, except for
1357 # requests to that ISP's sites:
1359 # forward / caching-proxy.isp.example.net:8000
1360 # forward .isp.example.net .
1362 # Parent proxy specified by an IPv6 address:
1364 # forward / [2001:DB8::1]:8000
1366 # Suppose your parent proxy doesn't support IPv6:
1368 # forward / parent-proxy.example.org:8000
1369 # forward ipv6-server.example.org .
1370 # forward <[2-3][0-9a-f][0-9a-f][0-9a-f]:*> .
1373 # 5.2. forward-socks4, forward-socks4a, forward-socks5 and forward-socks5t
1374 # =========================================================================
1378 # Through which SOCKS proxy (and optionally to which parent HTTP
1379 # proxy) specific requests should be routed.
1383 # target_pattern [user:pass@]socks_proxy[:port] http_parent[:port]
1385 # where target_pattern is a URL pattern that specifies to which
1386 # requests (i.e. URLs) this forward rule shall apply. Use / to
1387 # denote "all URLs". http_parent and socks_proxy are IP
1388 # addresses in dotted decimal notation or valid DNS names (
1389 # http_parent may be "." to denote "no HTTP forwarding"), and
1390 # the optional port parameters are TCP ports, i.e. integer
1391 # values from 1 to 65535. user and pass can be used for SOCKS5
1392 # authentication if required.
1400 # Don't use SOCKS proxies.
1404 # Multiple lines are OK, they are checked in sequence, and the
1407 # The difference between forward-socks4 and forward-socks4a is
1408 # that in the SOCKS 4A protocol, the DNS resolution of the
1409 # target hostname happens on the SOCKS server, while in SOCKS 4
1410 # it happens locally.
1412 # With forward-socks5 the DNS resolution will happen on the
1413 # remote server as well.
1415 # forward-socks5t works like vanilla forward-socks5 but lets
1416 # Privoxy additionally use Tor-specific SOCKS extensions.
1417 # Currently the only supported SOCKS extension is optimistic
1418 # data which can reduce the latency for the first request made
1419 # on a newly created connection.
1421 # socks_proxy and http_parent can be a numerical IPv6 address
1422 # (if RFC 3493 is implemented). To prevent clashes with the port
1423 # delimiter, the whole IP address has to be put into brackets.
1424 # On the other hand a target_pattern containing an IPv6 address
1425 # has to be put into angle brackets (normal brackets are
1426 # reserved for regular expressions already).
1428 # If http_parent is ".", then requests are not forwarded to
1429 # another HTTP proxy but are made (HTTP-wise) directly to the
1430 # web servers, albeit through a SOCKS proxy.
1434 # From the company example.com, direct connections are made to
1435 # all "internal" domains, but everything outbound goes through
1436 # their ISP's proxy by way of example.com's corporate SOCKS 4A
1437 # gateway to the Internet.
1439 # forward-socks4a / socks-gw.example.com:1080 www-cache.isp.example.net:8080
1440 # forward .example.com .
1442 # A rule that uses a SOCKS 4 gateway for all destinations but no
1443 # HTTP parent looks like this:
1445 # forward-socks4 / socks-gw.example.com:1080 .
1447 # To connect SOCKS5 proxy which requires username/password
1450 # forward-socks5 / user:pass@socks-gw.example.com:1080 .
1452 # To chain Privoxy and Tor, both running on the same system, you
1453 # would use something like:
1455 # forward-socks5t / 127.0.0.1:9050 .
1457 # Note that if you got Tor through one of the bundles, you may
1458 # have to change the port from 9050 to 9150 (or even another
1459 # one). For details, please check the documentation on the Tor
1462 # The public Tor network can't be used to reach your local
1463 # network, if you need to access local servers you therefore
1464 # might want to make some exceptions:
1466 # forward 192.168.*.*/ .
1467 # forward 10.*.*.*/ .
1468 # forward 127.*.*.*/ .
1470 # Unencrypted connections to systems in these address ranges
1471 # will be as (un)secure as the local network is, but the
1472 # alternative is that you can't reach the local network through
1473 # Privoxy at all. Of course this may actually be desired and
1474 # there is no reason to make these exceptions if you aren't sure
1477 # If you also want to be able to reach servers in your local
1478 # network by using their names, you will need additional
1479 # exceptions that look like this:
1481 # forward localhost/ .
1484 # 5.3. forwarded-connect-retries
1485 # ===============================
1489 # How often Privoxy retries if a forwarded connection request
1494 # Number of retries.
1502 # Connections forwarded through other proxies are treated like
1503 # direct connections and no retry attempts are made.
1507 # forwarded-connect-retries is mainly interesting for socks4a
1508 # connections, where Privoxy can't detect why the connections
1509 # failed. The connection might have failed because of a DNS
1510 # timeout in which case a retry makes sense, but it might also
1511 # have failed because the server doesn't exist or isn't
1512 # reachable. In this case the retry will just delay the
1513 # appearance of Privoxy's error message.
1515 # Note that in the context of this option, "forwarded
1516 # connections" includes all connections that Privoxy forwards
1517 # through other proxies. This option is not limited to the HTTP
1520 # Only use this option, if you are getting lots of
1521 # forwarding-related error messages that go away when you try
1522 # again manually. Start with a small value and check Privoxy's
1523 # logfile from time to time, to see how many retries are usually
1528 # forwarded-connect-retries 1
1530 forwarded-connect-retries 0
1535 # 6.1. accept-intercepted-requests
1536 # =================================
1540 # Whether intercepted requests should be treated as valid.
1552 # Only proxy requests are accepted, intercepted requests are
1553 # treated as invalid.
1557 # If you don't trust your clients and want to force them to use
1558 # Privoxy, enable this option and configure your packet filter
1559 # to redirect outgoing HTTP connections into Privoxy.
1561 # Note that intercepting encrypted connections (HTTPS) isn't
1564 # Make sure that Privoxy's own requests aren't redirected as
1565 # well. Additionally take care that Privoxy can't intentionally
1566 # connect to itself, otherwise you could run into redirection
1567 # loops if Privoxy's listening port is reachable by the outside
1568 # or an attacker has access to the pages you visit.
1570 # If you are running Privoxy as intercepting proxy without being
1571 # able to intercept all client requests you may want to adjust
1572 # the CGI templates to make sure they don't reference content
1573 # from config.privoxy.org.
1577 # accept-intercepted-requests 1
1579 accept-intercepted-requests 0
1581 # 6.2. allow-cgi-request-crunching
1582 # =================================
1586 # Whether requests to Privoxy's CGI pages can be blocked or
1599 # Privoxy ignores block and redirect actions for its CGI pages.
1603 # By default Privoxy ignores block or redirect actions for its
1604 # CGI pages. Intercepting these requests can be useful in
1605 # multi-user setups to implement fine-grained access control,
1606 # but it can also render the complete web interface useless and
1607 # make debugging problems painful if done without care.
1609 # Don't enable this option unless you're sure that you really
1614 # allow-cgi-request-crunching 1
1616 allow-cgi-request-crunching 0
1618 # 6.3. split-large-forms
1619 # =======================
1623 # Whether the CGI interface should stay compatible with broken
1636 # The CGI form generate long GET URLs.
1640 # Privoxy's CGI forms can lead to rather long URLs. This isn't a
1641 # problem as far as the HTTP standard is concerned, but it can
1642 # confuse clients with arbitrary URL length limitations.
1644 # Enabling split-large-forms causes Privoxy to divide big forms
1645 # into smaller ones to keep the URL length down. It makes
1646 # editing a lot less convenient and you can no longer submit all
1647 # changes at once, but at least it works around this browser
1650 # If you don't notice any editing problems, there is no reason
1651 # to enable this option, but if one of the submit buttons
1652 # appears to be broken, you should give it a try.
1656 # split-large-forms 1
1660 # 6.4. keep-alive-timeout
1661 # ========================
1665 # Number of seconds after which an open connection will no
1678 # Connections are not kept alive.
1682 # This option allows clients to keep the connection to Privoxy
1683 # alive. If the server supports it, Privoxy will keep the
1684 # connection to the server alive as well. Under certain
1685 # circumstances this may result in speed-ups.
1687 # By default, Privoxy will close the connection to the server if
1688 # the client connection gets closed, or if the specified timeout
1689 # has been reached without a new request coming in. This
1690 # behaviour can be changed with the connection-sharing option.
1692 # This option has no effect if Privoxy has been compiled without
1693 # keep-alive support.
1695 # Note that a timeout of five seconds as used in the default
1696 # configuration file significantly decreases the number of
1697 # connections that will be reused. The value is used because
1698 # some browsers limit the number of connections they open to a
1699 # single host and apply the same limit to proxies. This can
1700 # result in a single website "grabbing" all the connections the
1701 # browser allows, which means connections to other websites
1702 # can't be opened until the connections currently in use time
1705 # Several users have reported this as a Privoxy bug, so the
1706 # default value has been reduced. Consider increasing it to 300
1707 # seconds or even more if you think your browser can handle it.
1708 # If your browser appears to be hanging, it probably can't.
1712 # keep-alive-timeout 300
1714 keep-alive-timeout 5
1716 # 6.5. tolerate-pipelining
1717 # =========================
1721 # Whether or not pipelined requests should be served.
1733 # If Privoxy receives more than one request at once, it
1734 # terminates the client connection after serving the first one.
1738 # Privoxy currently doesn't pipeline outgoing requests, thus
1739 # allowing pipelining on the client connection is not guaranteed
1740 # to improve the performance.
1742 # By default Privoxy tries to discourage clients from pipelining
1743 # by discarding aggressively pipelined requests, which forces
1744 # the client to resend them through a new connection.
1746 # This option lets Privoxy tolerate pipelining. Whether or not
1747 # that improves performance mainly depends on the client
1750 # If you are seeing problems with pages not properly loading,
1751 # disabling this option could work around the problem.
1755 # tolerate-pipelining 1
1757 tolerate-pipelining 1
1759 # 6.6. default-server-timeout
1760 # ============================
1764 # Assumed server-side keep-alive timeout if not specified by the
1777 # Connections for which the server didn't specify the keep-alive
1778 # timeout are not reused.
1782 # Enabling this option significantly increases the number of
1783 # connections that are reused, provided the keep-alive-timeout
1784 # option is also enabled.
1786 # While it also increases the number of connections problems
1787 # when Privoxy tries to reuse a connection that already has been
1788 # closed on the server side, or is closed while Privoxy is
1789 # trying to reuse it, this should only be a problem if it
1790 # happens for the first request sent by the client. If it
1791 # happens for requests on reused client connections, Privoxy
1792 # will simply close the connection and the client is supposed to
1793 # retry the request without bothering the user.
1795 # Enabling this option is therefore only recommended if the
1796 # connection-sharing option is disabled.
1798 # It is an error to specify a value larger than the
1799 # keep-alive-timeout value.
1801 # This option has no effect if Privoxy has been compiled without
1802 # keep-alive support.
1806 # default-server-timeout 60
1808 #default-server-timeout 5
1810 # 6.7. connection-sharing
1811 # ========================
1815 # Whether or not outgoing connections that have been kept alive
1816 # should be shared between different incoming connections.
1828 # Connections are not shared.
1832 # This option has no effect if Privoxy has been compiled without
1833 # keep-alive support, or if it's disabled.
1837 # Note that reusing connections doesn't necessary cause
1838 # speedups. There are also a few privacy implications you should
1841 # If this option is enabled, outgoing connections are shared
1842 # between clients (if there are more than one) and closing the
1843 # browser that initiated the outgoing connection does not affect
1844 # the connection between Privoxy and the server unless the
1845 # client's request hasn't been completed yet.
1847 # If the outgoing connection is idle, it will not be closed
1848 # until either Privoxy's or the server's timeout is reached.
1849 # While it's open, the server knows that the system running
1850 # Privoxy is still there.
1852 # If there are more than one client (maybe even belonging to
1853 # multiple users), they will be able to reuse each others
1854 # connections. This is potentially dangerous in case of
1855 # authentication schemes like NTLM where only the connection is
1856 # authenticated, instead of requiring authentication for each
1859 # If there is only a single client, and if said client can keep
1860 # connections alive on its own, enabling this option has next to
1861 # no effect. If the client doesn't support connection
1862 # keep-alive, enabling this option may make sense as it allows
1863 # Privoxy to keep outgoing connections alive even if the client
1864 # itself doesn't support it.
1866 # You should also be aware that enabling this option increases
1867 # the likelihood of getting the "No server or forwarder data"
1868 # error message, especially if you are using a slow connection
1871 # This option should only be used by experienced users who
1872 # understand the risks and can weight them against the benefits.
1876 # connection-sharing 1
1878 #connection-sharing 1
1880 # 6.8. socket-timeout
1881 # ====================
1885 # Number of seconds after which a socket times out if no data is
1898 # A default value of 300 seconds is used.
1902 # The default is quite high and you probably want to reduce it.
1903 # If you aren't using an occasionally slow proxy like Tor,
1904 # reducing it to a few seconds should be fine.
1906 # +-----------------------------------------------------+
1908 # |-----------------------------------------------------|
1909 # |When a TLS library is being used to read or write |
1910 # |data from a socket with https-inspection enabled the |
1911 # |socket-timeout currently isn't applied and the |
1912 # |timeout used depends on the library (which may not |
1913 # |even use a timeout). |
1914 # +-----------------------------------------------------+
1917 # socket-timeout 300
1921 # 6.9. max-client-connections
1922 # ============================
1926 # Maximum number of client connections that will be served.
1938 # Connections are served until a resource limit is reached.
1940 # Privoxy creates one thread (or process) for every incoming
1941 # client connection that isn't rejected based on the access
1944 # If the system is powerful enough, Privoxy can theoretically
1945 # deal with several hundred (or thousand) connections at the
1946 # same time, but some operating systems enforce resource limits
1947 # by shutting down offending processes and their default limits
1948 # may be below the ones Privoxy would require under heavy load.
1950 # Configuring Privoxy to enforce a connection limit below the
1951 # thread or process limit used by the operating system makes
1952 # sure this doesn't happen. Simply increasing the operating
1953 # system's limit would work too, but if Privoxy isn't the only
1954 # application running on the system, you may actually want to
1955 # limit the resources used by Privoxy.
1957 # If Privoxy is only used by a single trusted user, limiting the
1958 # number of client connections is probably unnecessary. If there
1959 # are multiple possibly untrusted users you probably still want
1960 # to additionally use a packet filter to limit the maximal
1961 # number of incoming connections per client. Otherwise a
1962 # malicious user could intentionally create a high number of
1963 # connections to prevent other users from using Privoxy.
1965 # Obviously using this option only makes sense if you choose a
1966 # limit below the one enforced by the operating system.
1968 # One most POSIX-compliant systems Privoxy can't properly deal
1969 # with more than FD_SETSIZE file descriptors if Privoxy has been
1970 # configured to use select() and has to reject connections if
1971 # the limit is reached. When using select() this limit therefore
1972 # can't be increased without recompiling Privoxy with a
1973 # different FD_SETSIZE limit unless Privoxy is running on
1974 # Windows with _WIN32 defined.
1976 # When Privoxy has been configured to use poll() the FD_SETSIZE
1977 # limit does not apply.
1981 # max-client-connections 256
1983 #max-client-connections 256
1985 # 6.10. listen-backlog
1986 # =====================
1990 # Connection queue length requested from the operating system.
2002 # A connection queue length of 128 is requested from the
2007 # Under high load incoming connection may queue up before
2008 # Privoxy gets around to serve them. The queue length is limited
2009 # by the operating system. Once the queue is full, additional
2010 # connections are dropped before Privoxy can accept and serve
2013 # Increasing the queue length allows Privoxy to accept more
2014 # incoming connections that arrive roughly at the same time.
2016 # Note that Privoxy can only request a certain queue length,
2017 # whether or not the requested length is actually used depends
2018 # on the operating system which may use a different length
2021 # On many operating systems a limit of -1 can be specified to
2022 # instruct the operating system to use the maximum queue length
2023 # allowed. Check the listen man page to see if your platform
2026 # On some platforms you can use "netstat -Lan -p tcp" to see the
2027 # effective queue length.
2029 # Effectively using a value above 128 usually requires changing
2030 # the system configuration as well. On FreeBSD-based system the
2031 # limit is controlled by the kern.ipc.soacceptqueue sysctl.
2035 # listen-backlog 4096
2039 # 6.11. enable-accept-filter
2040 # ===========================
2044 # Whether or not Privoxy should use an accept filter
2056 # No accept filter is enabled.
2060 # Accept filters reduce the number of context switches by not
2061 # passing sockets for new connections to Privoxy until a
2062 # complete HTTP request is available.
2064 # As a result, Privoxy can process the whole request right away
2065 # without having to wait for additional data first.
2067 # For this option to work, Privoxy has to be compiled with
2068 # FEATURE_ACCEPT_FILTER and the operating system has to support
2069 # it (which may require loading a kernel module).
2071 # Currently accept filters are only supported on FreeBSD-based
2072 # systems. Check the accf_http(9) man page to learn how to
2073 # enable the support in the operating system.
2077 # enable-accept-filter 1
2079 #enable-accept-filter 1
2081 # 6.12. handle-as-empty-doc-returns-ok
2082 # =====================================
2086 # The status code Privoxy returns for pages blocked with
2087 # +handle-as-empty-document.
2099 # Privoxy returns a status 403(forbidden) for all blocked pages.
2103 # Privoxy returns a status 200(OK) for pages blocked with
2104 # +handle-as-empty-document and a status 403(Forbidden) for all
2105 # other blocked pages.
2109 # This directive was added as a work-around for Firefox bug
2110 # 492459: "Websites are no longer rendered if SSL requests for
2111 # JavaScripts are blocked by a proxy."
2112 # (https://bugzilla.mozilla.org/show_bug.cgi?id=492459), the bug
2113 # has been fixed for quite some time, but this directive is also
2114 # useful to make it harder for websites to detect whether or not
2115 # resources are being blocked.
2117 #handle-as-empty-doc-returns-ok 1
2119 # 6.13. enable-compression
2120 # =========================
2124 # Whether or not buffered content is compressed before delivery.
2136 # Privoxy does not compress buffered content.
2140 # Privoxy compresses buffered content before delivering it to
2141 # the client, provided the client supports it.
2145 # This directive is only supported if Privoxy has been compiled
2146 # with FEATURE_COMPRESSION, which should not to be confused with
2149 # Compressing buffered content is mainly useful if Privoxy and
2150 # the client are running on different systems. If they are
2151 # running on the same system, enabling compression is likely to
2152 # slow things down. If you didn't measure otherwise, you should
2153 # assume that it does and keep this option disabled.
2155 # Privoxy will not compress buffered content below a certain
2158 #enable-compression 1
2160 # 6.14. compression-level
2161 # ========================
2165 # The compression level that is passed to the zlib library when
2166 # compressing buffered content.
2170 # Positive number ranging from 0 to 9.
2178 # Compressing the data more takes usually longer than
2179 # compressing it less or not compressing it at all. Which level
2180 # is best depends on the connection between Privoxy and the
2181 # client. If you can't be bothered to benchmark it for yourself,
2182 # you should stick with the default and keep compression
2185 # If compression is disabled, the compression level is
2190 # # Best speed (compared to the other levels)
2191 # compression-level 1
2193 # # Best compression
2194 # compression-level 9
2196 # # No compression. Only useful for testing as the added header
2197 # # slightly increases the amount of data that has to be sent.
2198 # # If your benchmark shows that using this compression level
2199 # # is superior to using no compression at all, the benchmark
2200 # # is likely to be flawed.
2201 # compression-level 0
2203 #compression-level 1
2205 # 6.15. client-header-order
2206 # ==========================
2210 # The order in which client headers are sorted before forwarding
2215 # Client header names delimited by spaces or tabs
2223 # By default Privoxy leaves the client headers in the order they
2224 # were sent by the client. Headers are modified in-place, new
2225 # headers are added at the end of the already existing headers.
2227 # The header order can be used to fingerprint client requests
2228 # independently of other headers like the User-Agent.
2230 # This directive allows to sort the headers differently to
2231 # better mimic a different User-Agent. Client headers will be
2232 # emitted in the order given, headers whose name isn't
2233 # explicitly specified are added at the end.
2235 # Note that sorting headers in an uncommon way will make
2236 # fingerprinting actually easier. Encrypted headers are not
2237 # affected by this directive unless https-inspection is enabled.
2239 #client-header-order Host \
2244 # Proxy-Connection \
2250 # Upgrade-Insecure-Requests \
2251 # If-Modified-Since \
2257 # 6.16. client-specific-tag
2258 # ==========================
2262 # The name of a tag that will always be set for clients that
2263 # requested it through the webinterface.
2267 # Tag name followed by a description that will be shown in the
2276 # Client-specific tags allow Privoxy admins to create different
2277 # profiles and let the users chose which one they want without
2278 # impacting other users.
2280 # One use case is allowing users to circumvent certain blocks
2281 # without having to allow them to circumvent all blocks. This is
2282 # not possible with the enable-remote-toggle feature because it
2283 # would bluntly disable all blocks for all users and also affect
2284 # other actions like filters. It also is set globally which
2285 # renders it useless in most multi-user setups.
2287 # After a client-specific tag has been defined with the
2288 # client-specific-tag directive, action sections can be
2289 # activated based on the tag by using a CLIENT-TAG pattern. The
2290 # CLIENT-TAG pattern is evaluated at the same priority as URL
2291 # patterns, as a result the last matching pattern wins. Tags
2292 # that are created based on client or server headers are
2293 # evaluated later on and can overrule CLIENT-TAG and URL
2296 # The tag is set for all requests that come from clients that
2297 # requested it to be set. Note that "clients" are differentiated
2298 # by IP address, if the IP address changes the tag has to be
2301 # Clients can request tags to be set by using the CGI interface
2302 # http://config.privoxy.org/client-tags. The specific tag
2303 # description is only used on the web page and should be phrased
2304 # in away that the user understands the effect of the tag.
2308 # # Define a couple of tags, the described effect requires action sections
2309 # # that are enabled based on CLIENT-TAG patterns.
2310 # client-specific-tag circumvent-blocks Overrule blocks but do not affect other actions
2311 # client-specific-tag disable-content-filters Disable content-filters but do not affect other actions
2312 # client-specific-tag overrule-redirects Overrule redirect sections
2313 # client-specific-tag allow-cookies Do not crunch cookies in either direction
2314 # client-specific-tag change-tor-socks-port Change forward-socks5 settings to use a different Tor socks port (and circuits)
2315 # client-specific-tag no-https-inspection Disable HTTPS inspection
2316 # client-specific-tag no-tls-verification Don't verify certificates when http-inspection is enabled
2319 # 6.17. client-tag-lifetime
2320 # ==========================
2324 # How long a temporarily enabled tag remains enabled.
2336 # In case of some tags users may not want to enable them
2337 # permanently, but only for a short amount of time, for example
2338 # to circumvent a block that is the result of an overly-broad
2341 # The CGI interface http://config.privoxy.org/client-tags
2342 # therefore provides a "enable this tag temporarily" option. If
2343 # it is used, the tag will be set until the client-tag-lifetime
2348 # # Increase the time to life for temporarily enabled tags to 3 minutes
2349 # client-tag-lifetime 180
2352 # 6.18. trust-x-forwarded-for
2353 # ============================
2357 # Whether or not Privoxy should use IP addresses specified with
2358 # the X-Forwarded-For header
2370 # If clients reach Privoxy through another proxy, for example a
2371 # load balancer, Privoxy can't tell the client's IP address from
2372 # the connection. If multiple clients use the same proxy, they
2373 # will share the same client tag settings which is usually not
2376 # This option lets Privoxy use the X-Forwarded-For header value
2377 # as client IP address. If the proxy sets the header, multiple
2378 # clients using the same proxy do not share the same client tag
2381 # This option should only be enabled if Privoxy can only be
2382 # reached through a proxy and if the proxy can be trusted to set
2383 # the header correctly. It is recommended that ACL are used to
2384 # make sure only trusted systems can reach Privoxy.
2386 # If access to Privoxy isn't limited to trusted systems, this
2387 # option would allow malicious clients to change the client tags
2388 # for other clients or increase Privoxy's memory requirements by
2389 # registering lots of client tag settings for clients that don't
2394 # # Allow systems that can reach Privoxy to provide the client
2395 # # IP address with a X-Forwarded-For header.
2396 # trust-x-forwarded-for 1
2399 # 6.19. receive-buffer-size
2400 # ==========================
2404 # The size of the buffer Privoxy uses to receive data from the
2417 # Increasing the receive-buffer-size increases Privoxy's memory
2418 # usage but can lower the number of context switches and thereby
2419 # reduce the cpu usage and potentially increase the throughput.
2421 # This is mostly relevant for fast network connections and large
2422 # downloads that don't require filtering.
2424 # Reducing the buffer size reduces the amount of memory Privoxy
2425 # needs to handle the request but increases the number of
2426 # systemcalls and may reduce the throughput.
2428 # A dtrace command like: "sudo dtrace -n 'syscall::read:return /
2429 # execname == "privoxy"/ { @[execname] = llquantize(arg0, 10, 0,
2430 # 5, 20); @m = max(arg0)}'" can be used to properly tune the
2431 # receive-buffer-size. On systems without dtrace, strace or
2432 # truss may be used as less convenient alternatives.
2434 # If the buffer is too large it will increase Privoxy's memory
2435 # footprint without any benefit. As the memory is (currently)
2436 # cleared before using it, a buffer that is too large can
2437 # actually reduce the throughput.
2441 # # Increase the receive buffer size
2442 # receive-buffer-size 32768
2445 # 7. HTTPS INSPECTION (EXPERIMENTAL)
2446 # ===================================
2448 # HTTPS inspection allows to filter encrypted requests and
2449 # responses. This is only supported when Privoxy has been built with
2450 # FEATURE_HTTPS_INSPECTION. If you aren't sure if your version
2451 # supports it, have a look at http://config.privoxy.org/show-status.
2455 # ==================
2459 # Directory with the CA key, the CA certificate and the trusted
2472 # Default value is used.
2476 # This directive specifies the directory where the CA key, the
2477 # CA certificate and the trusted CAs file are located.
2479 # The permissions should only let Privoxy and the Privoxy admin
2480 # access the directory.
2484 # ca-directory /usr/local/etc/privoxy/CA
2486 #ca-directory /usr/local/etc/privoxy/CA
2489 # ==================
2493 # The CA certificate file in ".crt" format.
2505 # Default value is used.
2509 # This directive specifies the name of the CA certificate file
2512 # The file is used by Privoxy to generate website certificates
2513 # when https inspection is enabled with the https-inspection
2516 # Privoxy clients should import the certificate so that they can
2517 # validate the generated certificates.
2519 # The file can be generated with: openssl req -new -x509
2520 # -extensions v3_ca -keyout cakey.pem -out cacert.crt -days 3650
2524 # ca-cert-file root.crt
2526 #ca-cert-file cacert.crt
2533 # The CA key file in ".pem" format.
2545 # Default value is used.
2549 # This directive specifies the name of the CA key file in ".pem"
2550 # format. The ca-cert-file section contains a command to
2553 # The CA key is used by Privoxy to sign generated certificates.
2555 # Access to the key should be limited to Privoxy.
2559 # ca-key-file cakey.pem
2561 #ca-key-file cakey.pem
2568 # The password for the CA keyfile.
2580 # Default value is used.
2584 # This directive specifies the password for the CA keyfile that
2585 # is used when Privoxy generates certificates for intercepted
2588 # +-----------------------------------------------------+
2590 # |-----------------------------------------------------|
2591 # |Note that the password is shown on the CGI page so |
2592 # |don't reuse an important one. |
2594 # |If disclosure of the password is a compliance issue |
2595 # |consider blocking the relevant CGI requests after |
2596 # |enabling the enforce-blocks and |
2597 # |allow-cgi-request-crunching. |
2598 # +-----------------------------------------------------+
2601 # ca-password blafasel
2603 #ca-password swordfish
2605 # 7.5. certificate-directory
2606 # ===========================
2610 # Directory to save generated keys and certificates.
2622 # Default value is used.
2626 # This directive specifies the directory where generated TLS/SSL
2627 # keys and certificates are saved when https inspection is
2628 # enabled with the https-inspection action.
2630 # The keys and certificates currently have to be deleted
2631 # manually when changing the ca-cert-file and the ca-cert-key.
2633 # The permissions should only let Privoxy and the Privoxy admin
2634 # access the directory.
2636 # +-----------------------------------------------------+
2638 # |-----------------------------------------------------|
2639 # |Privoxy currently does not garbage-collect obsolete |
2640 # |keys and certificates and does not keep track of how |
2641 # |may keys and certificates exist. |
2643 # |Privoxy admins should monitor the size of the |
2644 # |directory and/or make sure there is sufficient space |
2645 # |available. A cron job to limit the number of keys and|
2646 # |certificates to a certain number may be worth |
2648 # +-----------------------------------------------------+
2651 # certificate-directory /usr/local/var/privoxy/certs
2653 #certificate-directory /usr/local/var/privoxy/certs
2660 # A list of ciphers to use in TLS handshakes
2672 # A default value is inherited from the TLS library.
2676 # This directive allows to specify a non-default list of ciphers
2677 # to use in TLS handshakes with clients and servers.
2679 # Ciphers are separated by colons. Which ciphers are supported
2680 # depends on the TLS library. When using OpenSSL, unsupported
2681 # ciphers are skipped. When using MbedTLS they are rejected.
2683 # +-----------------------------------------------------+
2685 # |-----------------------------------------------------|
2686 # |Specifying an unusual cipher list makes |
2687 # |fingerprinting easier. Note that the default list |
2688 # |provided by the TLS library may be unusual when |
2689 # |compared to the one used by modern browsers as well. |
2690 # +-----------------------------------------------------+
2693 # # Explicitly set a couple of ciphers with names used by MbedTLS
2694 # cipher-list cipher-list TLS-ECDHE-RSA-WITH-CHACHA20-POLY1305-SHA256:\
2695 # TLS-ECDHE-ECDSA-WITH-CHACHA20-POLY1305-SHA256:\
2696 # TLS-DHE-RSA-WITH-CHACHA20-POLY1305-SHA256:\
2697 # TLS-ECDHE-ECDSA-WITH-AES-128-GCM-SHA256:\
2698 # TLS-ECDHE-ECDSA-WITH-AES-256-GCM-SHA384:\
2699 # TLS-ECDHE-ECDSA-WITH-AES-256-CCM:\
2700 # TLS-ECDHE-ECDSA-WITH-AES-256-CCM-8:\
2701 # TLS-ECDHE-ECDSA-WITH-AES-128-CCM:\
2702 # TLS-ECDHE-ECDSA-WITH-AES-128-CCM-8:\
2703 # TLS-ECDHE-ECDSA-WITH-CAMELLIA-128-GCM-SHA256:\
2704 # TLS-ECDHE-ECDSA-WITH-CAMELLIA-256-GCM-SHA384:\
2705 # TLS-ECDHE-RSA-WITH-AES-128-GCM-SHA256:\
2706 # TLS-ECDHE-RSA-WITH-AES-256-GCM-SHA384:\
2707 # TLS-ECDHE-RSA-WITH-CAMELLIA-128-GCM-SHA256:\
2708 # TLS-ECDHE-RSA-WITH-CAMELLIA-256-GCM-SHA384:\
2709 # TLS-DHE-RSA-WITH-AES-256-GCM-SHA384:\
2710 # TLS-DHE-RSA-WITH-AES-128-GCM-SHA256:\
2711 # TLS-DHE-RSA-WITH-AES-256-CCM:\
2712 # TLS-DHE-RSA-WITH-AES-256-CCM-8:\
2713 # TLS-DHE-RSA-WITH-AES-128-CCM:\
2714 # TLS-DHE-RSA-WITH-AES-128-CCM-8:\
2715 # TLS-DHE-RSA-WITH-CAMELLIA-128-GCM-SHA256:\
2716 # TLS-DHE-RSA-WITH-CAMELLIA-256-GCM-SHA384:\
2717 # TLS-ECDH-RSA-WITH-AES-128-GCM-SHA256:\
2718 # TLS-ECDH-RSA-WITH-AES-256-GCM-SHA384:\
2719 # TLS-ECDH-RSA-WITH-CAMELLIA-128-GCM-SHA256:\
2720 # TLS-ECDH-RSA-WITH-CAMELLIA-256-GCM-SHA384:\
2721 # TLS-ECDH-ECDSA-WITH-AES-128-GCM-SHA256:\
2722 # TLS-ECDH-ECDSA-WITH-AES-256-GCM-SHA384:\
2723 # TLS-ECDH-ECDSA-WITH-CAMELLIA-128-GCM-SHA256:\
2724 # TLS-ECDH-ECDSA-WITH-CAMELLIA-256-GCM-SHA384
2726 # # Explicitly set a couple of ciphers with names used by OpenSSL
2727 # cipher-list ECDHE-RSA-AES256-GCM-SHA384:\
2728 # ECDHE-ECDSA-AES256-GCM-SHA384:\
2729 # DH-DSS-AES256-GCM-SHA384:\
2730 # DHE-DSS-AES256-GCM-SHA384:\
2731 # DH-RSA-AES256-GCM-SHA384:\
2732 # DHE-RSA-AES256-GCM-SHA384:\
2733 # ECDH-RSA-AES256-GCM-SHA384:\
2734 # ECDH-ECDSA-AES256-GCM-SHA384:\
2735 # ECDHE-RSA-AES128-GCM-SHA256:\
2736 # ECDHE-ECDSA-AES128-GCM-SHA256:\
2737 # DH-DSS-AES128-GCM-SHA256:\
2738 # DHE-DSS-AES128-GCM-SHA256:\
2739 # DH-RSA-AES128-GCM-SHA256:\
2740 # DHE-RSA-AES128-GCM-SHA256:\
2741 # ECDH-RSA-AES128-GCM-SHA256:\
2742 # ECDH-ECDSA-AES128-GCM-SHA256:\
2743 # ECDHE-RSA-AES256-GCM-SHA384:\
2746 # # Use keywords instead of explicitly naming the ciphers (Does not work with MbedTLS)
2747 # cipher-list ALL:!EXPORT:!EXPORT40:!EXPORT56:!aNULL:!LOW:!RC4:@STRENGTH
2750 # 7.7. trusted-cas-file
2751 # ======================
2755 # The trusted CAs file in ".pem" format.
2759 # File name relative to ca-directory
2767 # Default value is used.
2771 # This directive specifies the trusted CAs file that is used
2772 # when validating certificates for intercepted TLS/SSL requests.
2774 # An example file can be downloaded from https://curl.se/ca/cacert.pem.
2775 # If you want to create the file yourself, please
2776 # see: https://curl.se/docs/caextract.html.
2780 # trusted-cas-file trusted_cas_file.pem
2782 #trusted-cas-file trustedCAs.pem
2784 # 8. WINDOWS GUI OPTIONS
2785 # =======================
2787 # Privoxy has a number of options specific to the Windows GUI
2791 # If "activity-animation" is set to 1, the Privoxy icon will animate
2792 # when "Privoxy" is active. To turn off, set to 0.
2794 #activity-animation 1
2796 # If "log-messages" is set to 1, Privoxy copies log messages to the
2797 # console window. The log detail depends on the debug directive.
2801 # If "log-buffer-size" is set to 1, the size of the log buffer, i.e.
2802 # the amount of memory used for the log messages displayed in the
2803 # console window, will be limited to "log-max-lines" (see below).
2805 # Warning: Setting this to 0 will result in the buffer to grow
2806 # infinitely and eat up all your memory!
2810 # log-max-lines is the maximum number of lines held in the log
2811 # buffer. See above.
2815 # If "log-highlight-messages" is set to 1, Privoxy will highlight
2816 # portions of the log messages with a bold-faced font:
2818 #log-highlight-messages 1
2820 # The font used in the console window:
2822 #log-font-name Comic Sans MS
2824 # Font size used in the console window:
2828 # "show-on-task-bar" controls whether or not Privoxy will appear as
2829 # a button on the Task bar when minimized:
2833 # If "close-button-minimizes" is set to 1, the Windows close button
2834 # will minimize Privoxy instead of closing the program (close with
2835 # the exit option on the File menu).
2837 #close-button-minimizes 1
2839 # The "hide-console" option is specific to the MS-Win console
2840 # version of Privoxy. If this option is used, Privoxy will
2841 # disconnect from and hide the command console.