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423 lines
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ReStructuredText
.. -*- coding: utf-8-with-signature -*-
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See also :doc:`cautions.rst<cautions>`.
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============
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Known Issues
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============
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Below is a list of known issues in recent releases of Tahoe-LAFS, and how to
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manage them. The current version of this file can be found at
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https://github.com/tahoe-lafs/tahoe-lafs/blob/master/docs/known_issues.rst .
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If you've been using Tahoe-LAFS since v1.1 (released 2008-06-11) or if you're
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just curious about what sort of mistakes we've made in the past, then you
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might want to read the "historical known issues" document in
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``docs/historical/historical_known_issues.txt``.
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Known Issues in Tahoe-LAFS v1.10.3, released 30-Mar-2016
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========================================================
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* `Unauthorized access by JavaScript in unrelated files`_
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* `Disclosure of file through embedded hyperlinks or JavaScript in that file`_
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* `Command-line arguments are leaked to other local users`_
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* `Capabilities may be leaked to web browser phishing filter / "safe browsing" servers`_
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* `Known issues in the SFTP frontend`_
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* `Traffic analysis based on sizes of files/directories, storage indices, and timing`_
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* `Privacy leak via Google Chart API link in map-update timing web page`_
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----
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Unauthorized access by JavaScript in unrelated files
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----------------------------------------------------
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If you view a file stored in Tahoe-LAFS through a web user interface,
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JavaScript embedded in that file can, in some circumstances, access other
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files or directories stored in Tahoe-LAFS that you view through the same
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web user interface. Such a script would be able to send the contents of
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those other files or directories to the author of the script, and if you
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have the ability to modify the contents of those files or directories,
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then that script could modify or delete those files or directories.
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This attack is known to be possible when an attacking tab or window could
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reach a tab or window containing a Tahoe URI by navigating back or forward
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in the history, either from itself or from any frame with a known name (as
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specified by the "target" attribute of an HTML link). It might be possible
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in other cases depending on the browser.
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*how to manage it*
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For future versions of Tahoe-LAFS, we are considering ways to close off
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this leakage of authority while preserving ease of use -- the discussion
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of this issue is ticket `#615`_.
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For the present, either do not view files stored in Tahoe-LAFS through a
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web user interface, or turn off JavaScript in your web browser before
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doing so, or limit your viewing to files which you know don't contain
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malicious JavaScript.
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.. _#615: https://tahoe-lafs.org/trac/tahoe-lafs/ticket/615
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----
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Disclosure of file through embedded hyperlinks or JavaScript in that file
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-------------------------------------------------------------------------
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If there is a file stored on a Tahoe-LAFS storage grid, and that file
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gets downloaded and displayed in a web browser, then JavaScript or
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hyperlinks within that file can leak the capability to that file to a
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third party, which means that third party gets access to the file.
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If there is JavaScript in the file, then it could deliberately leak
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the capability to the file out to some remote listener.
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If there are hyperlinks in the file, and they get followed, then
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whichever server they point to receives the capability to the
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file. Note that IMG tags are typically followed automatically by web
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browsers, so being careful which hyperlinks you click on is not
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sufficient to prevent this from happening.
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*how to manage it*
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For future versions of Tahoe-LAFS, we are considering ways to close off
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this leakage of authority while preserving ease of use -- the discussion
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of this issue is ticket `#127`_.
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For the present, a good work-around is that if you want to store and
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view a file on Tahoe-LAFS and you want that file to remain private, then
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remove from that file any hyperlinks pointing to other people's servers
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and remove any JavaScript unless you are sure that the JavaScript is not
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written to maliciously leak access.
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.. _#127: https://tahoe-lafs.org/trac/tahoe-lafs/ticket/127
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----
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Command-line arguments are leaked to other local users
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------------------------------------------------------
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Remember that command-line arguments are visible to other users (through
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the 'ps' command, or the windows Process Explorer tool), so if you are
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using a Tahoe-LAFS node on a shared host, other users on that host will
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be able to see (and copy) any caps that you pass as command-line
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arguments. This includes directory caps that you set up with the "tahoe
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add-alias" command.
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*how to manage it*
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As of Tahoe-LAFS v1.3.0 there is a "tahoe create-alias" command that does
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the following technique for you.
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Bypass add-alias and edit the NODEDIR/private/aliases file directly, by
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adding a line like this:
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fun: URI:DIR2:ovjy4yhylqlfoqg2vcze36dhde:4d4f47qko2xm5g7osgo2yyidi5m4muyo2vjjy53q4vjju2u55mfa
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By entering the dircap through the editor, the command-line arguments
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are bypassed, and other users will not be able to see them. Once you've
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added the alias, if you use that alias instead of a cap itself on the
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command-line, then no secrets are passed through the command line. Then
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other processes on the system can still see your filenames and other
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arguments you type there, but not the caps that Tahoe-LAFS uses to permit
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access to your files and directories.
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----
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Capabilities may be leaked to web browser phishing filter / "safe browsing" servers
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-----------------------------------------------------------------------------------
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Firefox, Internet Explorer, and Chrome include a "phishing filter" or
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"safe browing" component, which is turned on by default, and which sends
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any URLs that it deems suspicious to a central server.
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Microsoft gives `a brief description of their filter's operation`_. Firefox
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and Chrome both use Google's `"safe browsing API"`_ (`specification`_).
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This of course has implications for the privacy of general web browsing
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(especially in the cases of Firefox and Chrome, which send your main
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personally identifying Google cookie along with these requests without your
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explicit consent, as described in `Firefox bugzilla ticket #368255`_.
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The reason for documenting this issue here, though, is that when using the
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Tahoe-LAFS web user interface, it could also affect confidentiality and integrity
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by leaking capabilities to the filter server.
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Since IE's filter sends URLs by SSL/TLS, the exposure of caps is limited to
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the filter server operators (or anyone able to hack the filter server) rather
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than to network eavesdroppers. The "safe browsing API" protocol used by
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Firefox and Chrome, on the other hand, is *not* encrypted, although the
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URL components are normally hashed.
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Opera also has a similar facility that is disabled by default. A previous
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version of this file stated that Firefox had abandoned their phishing
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filter; this was incorrect.
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.. _a brief description of their filter's operation: https://blogs.msdn.com/ie/archive/2005/09/09/463204.aspx
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.. _"safe browsing API": https://code.google.com/apis/safebrowsing/
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.. _specification: https://code.google.com/p/google-safe-browsing/wiki/Protocolv2Spec
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.. _Firefox bugzilla ticket #368255: https://bugzilla.mozilla.org/show_bug.cgi?id=368255
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*how to manage it*
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If you use any phishing filter or "safe browsing" feature, consider either
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disabling it, or not using the WUI via that browser. Phishing filters have
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`very limited effectiveness`_ , and phishing or malware attackers have learnt
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how to bypass them.
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.. _very limited effectiveness: http://lorrie.cranor.org/pubs/ndss-phish-tools-final.pdf
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To disable the filter in IE7 or IE8:
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++++++++++++++++++++++++++++++++++++
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- Click Internet Options from the Tools menu.
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- Click the Advanced tab.
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- If an "Enable SmartScreen Filter" option is present, uncheck it.
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If a "Use Phishing Filter" or "Phishing Filter" option is present,
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set it to Disable.
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- Confirm (click OK or Yes) out of all dialogs.
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If you have a version of IE that splits the settings between security
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zones, do this for all zones.
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To disable the filter in Firefox:
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+++++++++++++++++++++++++++++++++
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- Click Options from the Tools menu.
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- Click the Security tab.
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- Uncheck both the "Block reported attack sites" and "Block reported
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web forgeries" options.
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- Click OK.
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To disable the filter in Chrome:
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++++++++++++++++++++++++++++++++
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- Click Options from the Tools menu.
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- Click the "Under the Hood" tab and find the "Privacy" section.
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- Uncheck the "Enable phishing and malware protection" option.
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- Click Close.
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----
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Known issues in the SFTP frontend
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---------------------------------
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These are documented in :doc:`frontends/FTP-and-SFTP` and on `the
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SftpFrontend page`_ on the wiki.
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.. _the SftpFrontend page: https://tahoe-lafs.org/trac/tahoe-lafs/wiki/SftpFrontend
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----
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Traffic analysis based on sizes of files/directories, storage indices, and timing
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---------------------------------------------------------------------------------
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Files and directories stored by Tahoe-LAFS are encrypted, but the ciphertext
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reveals the exact size of the original file or directory representation.
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This information is available to passive eavesdroppers and to server operators.
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For example, a large data set with known file sizes could probably be
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identified with a high degree of confidence.
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Uploads and downloads of the same file or directory can be linked by server
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operators, even without making assumptions based on file size. Anyone who
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knows the introducer furl for a grid may be able to act as a server operator.
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This implies that if such an attacker knows which file/directory is being
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accessed in a particular request (by some other form of surveillance, say),
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then they can identify later or earlier accesses of the same file/directory.
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Observing requests during a directory traversal (such as a deep-check
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operation) could reveal information about the directory structure, i.e.
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which files and subdirectories are linked from a given directory.
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Attackers can combine the above information with inferences based on timing
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correlations. For instance, two files that are accessed close together in
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time are likely to be related even if they are not linked in the directory
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structure. Also, users that access the same files may be related to each other.
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----
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Privacy leak via Google Chart API link in map-update timing web page
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--------------------------------------------------------------------
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The Tahoe web-based user interface includes a diagnostic page known as the
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"map-update timing page". It is reached through the "Recent and Active
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Operations" link on the front welcome page, then through the "Status" column
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for "map-update" operations (which occur when mutable files, including
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directories, are read or written). This page contains per-server response
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times, as lines of text, and includes an image which displays the response
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times in graphical form. The image is generated by constructing a URL for
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the `Google Chart API`_, which is then served by the `chart.apis.google.com`
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internet server.
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.. _Google Chart API: https://developers.google.com/chart/image/
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When you view this page, several parties may learn information about your
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Tahoe activities. The request will typically include a "Referer" header,
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revealing the URL of the mapupdate status page (which is typically something
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like "http://127.0.0.1:3456/status/mapupdate-123") to network observers and
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the Google API server. The image returned by this server is typically a PNG
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file, but either the server or a MitM attacker could replace it with
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something malicious that attempts to exploit a browser rendering bug or
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buffer overflow. (Note that browsers do not execute scripts inside IMG tags,
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even for SVG images).
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In addition, if your Tahoe node connects to its grid over Tor or i2p, but the
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web browser you use to access your node does not, then this image link may
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reveal your use of Tahoe (and that grid) to the outside world. It is not
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recommended to use a browser in this way, because other links in Tahoe-stored
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content would reveal even more information (e.g. an attacker could store an
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HTML file with unique CSS references into a shared Tahoe grid, then send your
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pseudonym a message with its URI, then observe your browser loading that CSS
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file, and thus link the source IP address of your web client to that
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pseudonym).
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A future version of Tahoe will probably replace the Google Chart API link
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(which was deprecated by Google in April 2012) with client-side javascript
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using d3.js, removing the information leak but requiring JS to see the chart.
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See ticket `#1942`_ for details.
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.. _#1942: https://tahoe-lafs.org/trac/tahoe-lafs/ticket/1942
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----
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Known Issues in Tahoe-LAFS v1.9.0, released 31-Oct-2011
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=======================================================
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Integrity Failure during Mutable Downloads
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------------------------------------------
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Under certain circumstances, the integrity-verification code of the mutable
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downloader could be bypassed. Clients who receive carefully crafted shares
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(from attackers) will emit incorrect file contents, and the usual
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share-corruption errors would not be raised. This only affects mutable files
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(not immutable), and only affects downloads that use doctored shares. It is
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not persistent: the threat is resolved once you upgrade your client to a
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version without the bug. However, read-modify-write operations (such as
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directory manipulations) performed by vulnerable clients could cause the
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attacker's modifications to be written back out to the mutable file, making
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the corruption permanent.
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The attacker's ability to manipulate the file contents is limited. They can
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modify FEC-encoded ciphertext in all but one share. This gives them the
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ability to blindly flip bits in roughly 2/3rds of the file (for the default
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k=3 encoding parameter). Confidentiality remains intact, unless the attacker
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can deduce the file's contents by observing your reactions to corrupted
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downloads.
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This bug was introduced in 1.9.0, as part of the MDMF-capable downloader, and
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affects both SDMF and MDMF files. It was not present in 1.8.3.
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*how to manage it*
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There are three options:
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* Upgrade to 1.9.1, which fixes the bug
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* Downgrade to 1.8.3, which does not contain the bug
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* If using 1.9.0, do not trust the contents of mutable files (whether SDMF or
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MDMF) that the 1.9.0 client emits, and do not modify directories (which
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could write the corrupted data back into place, making the damage
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persistent)
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----
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Known Issues in Tahoe-LAFS v1.8.2, released 30-Jan-2011
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=======================================================
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Unauthorized deletion of an immutable file by its storage index
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---------------------------------------------------------------
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Due to a flaw in the Tahoe-LAFS storage server software in v1.3.0 through
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v1.8.2, a person who knows the "storage index" that identifies an immutable
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file can cause the server to delete its shares of that file.
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If an attacker can cause enough shares to be deleted from enough storage
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servers, this deletes the file.
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This vulnerability does not enable anyone to read file contents without
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authorization (confidentiality), nor to change the contents of a file
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(integrity).
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A person could learn the storage index of a file in several ways:
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1. By being granted the authority to read the immutable file: i.e. by being
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granted a read capability to the file. They can determine the file's
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storage index from its read capability.
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2. By being granted a verify capability to the file. They can determine the
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file's storage index from its verify capability. This case probably
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doesn't happen often because users typically don't share verify caps.
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3. By operating a storage server, and receiving a request from a client that
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has a read cap or a verify cap. If the client attempts to upload,
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download, or verify the file with their storage server, even if it doesn't
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actually have the file, then they can learn the storage index of the file.
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4. By gaining read access to an existing storage server's local filesystem,
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and inspecting the directory structure that it stores its shares in. They
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can thus learn the storage indexes of all files that the server is holding
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at least one share of. Normally only the operator of an existing storage
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server would be able to inspect its local filesystem, so this requires
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either being such an operator of an existing storage server, or somehow
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gaining the ability to inspect the local filesystem of an existing storage
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server.
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*how to manage it*
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Tahoe-LAFS version v1.8.3 or newer (except v1.9a1) no longer has this flaw;
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if you upgrade a storage server to a fixed release then that server is no
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longer vulnerable to this problem.
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Note that the issue is local to each storage server independently of other
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storage servers: when you upgrade a storage server then that particular
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storage server can no longer be tricked into deleting its shares of the
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target file.
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If you can't immediately upgrade your storage server to a version of
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Tahoe-LAFS that eliminates this vulnerability, then you could temporarily
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shut down your storage server. This would of course negatively impact
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availability -- clients would not be able to upload or download shares to
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that particular storage server while it was shut down -- but it would protect
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the shares already stored on that server from being deleted as long as the
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server is shut down.
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If the servers that store shares of your file are running a version of
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Tahoe-LAFS with this vulnerability, then you should think about whether
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someone can learn the storage indexes of your files by one of the methods
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described above. A person can not exploit this vulnerability unless they have
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received a read cap or verify cap, or they control a storage server that has
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been queried about this file by a client that has a read cap or a verify cap.
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Tahoe-LAFS does not currently have a mechanism to limit which storage servers
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can connect to your grid, but it does have a way to see which storage servers
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have been connected to the grid. The Introducer's front page in the Web User
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Interface has a list of all storage servers that the Introducer has ever seen
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and the first time and the most recent time that it saw them. Each Tahoe-LAFS
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gateway maintains a similar list on its front page in its Web User Interface,
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showing all of the storage servers that it learned about from the Introducer,
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when it first connected to that storage server, and when it most recently
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connected to that storage server. These lists are stored in memory and are
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reset to empty when the process is restarted.
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See ticket `#1528`_ for technical details.
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.. _#1528: https://tahoe-lafs.org/trac/tahoe-lafs/ticket/1528
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