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.. IVLE - Informatics Virtual Learning Environment
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Copyright (C) 2007-2009 The University of Melbourne
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.. This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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.. This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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.. You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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IVLE is a complex piece of software that integrates closely with the
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underlying system. It can be considered part web service and part local system
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daemon. Due to the implementation of these parts it is tied to Apache Web
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Server (mainly due to the use of mod_python) and Linux.
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IVLE uses mod_python_ to allow Python scripts to be called from Apache. We
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register the :mod:`ivle.dispatch` module as the ``PythonHandler`` in the
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associated VirtualHost, allowing us to intercept all HTTP requests to the web
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The :mod:`ivle.dispatch` module is responsible for mapping requests from the
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client to the correct application plugin. Plugins can be specified by placing
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a :file:`*.conf` file into the :file:`/etc/ivle/plugins.d/` directory
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containing lines of the form :samp:`[{plugin_module}#{classname}]`.
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.. TODO: Document Plugin Format and Routing Strings
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In future, this may be ported to a WSGI (:pep:`333`) based dispatch to allow
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IVLE to be run on web servers other than Apache.
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.. _mod_python: http://www.modpython.org/
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IVLE uses the Genshi_ XHTML template system to generate all HTML pages. We
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have an inheritance-based "views" system. :class:`BaseView` is a class from
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which all views derive.
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There are 3 sub-types of :class:`BaseView` (more can be implemented if
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* browser, console, debuginfo, diff, forum, groups, help, home, logout,
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settings, subjects, svnlog, tos, tutorial
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* consoleservice, fileservice, tutorialservice, userservice
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The apps each derive from one of the above.
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IVLE used to write its HTML output as a raw stream to an output file, until
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it was refactored to use Genshi. All apps which haven't yet been refactored
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properly were ported to use the "raw byte streaming" view.
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.. _Genshi: http://genshi.edgewall.org/
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One of the main features of IVLE is it's ability to execute user's code in a
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customised environment that prevents access to other users files or underlying
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file system as well as placing basic resource limits to prevent users from
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accidentally exhausting shared resources such as CPU time and memory.
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To each user, it appears that they have their own private Unix filesystem
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containing software, libraries and a home directory to do with what they
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please. This is mainly done by the setuid root program ``trampoline`` which
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mounts the users home directory, sets up the users environment, jumps into the
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user's jail using the :manpage:`chroot(2)` system call and finally drops
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privileges to the desired user and group.
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To prevent abuse, ``trampoline`` can only be used by root or one of the uids
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specified when trampoline is built by ``setup.py build`` (defaults to UID 33,
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www-data on Debian systems). Since it's one of two C programs involved in IVLE
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and runs setuid root it is rather security sensitive.
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.. seealso:: Source code :file:`bin/trampoline/trampoline.c`
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Base Image Generation
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---------------------
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All user jails share a common base image that contains the files required for
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both IVLE's operation and for executing user code. This base image is
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generated automatically by the ``ivle-buildjail`` script. This then calls the
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distribution dependant details in :mod:`ivle.jailbuilder` module. At present
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we only support building jails for Debian derived systems using
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:program:`debootstrap`.
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The contents of the base image contains a few core packages required for the
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operation of IVLE - Python and the Python CJSON and SVN libraries. Other
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options that can be configured in :file:`/etc/ivle/ivle.conf` are the file
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mirror that debootstrap should use, the suite to build (such as hardy or
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jaunty), extra apt-sources, extra apt keys and any additional packages to
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To prevent users from altering files in the base image we change the
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permissions of :file:`/tmp`, :file:`/var/tmp` and :file:`/var/lock` to not be
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world writeable and check that no other files are world writeable.
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Finally we make the user dependent :file:`/etc/passwd` and
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:file:`/etc/ivle/ivle.conf` symlinks to files in the :file:`/home` directory
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so that they will be used when we mount a user's home directory.
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Mounting Home Directories
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-------------------------
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To give the appearance of a private file system we need to merge together a
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user's local home directory with the base image.
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To achieve this, IVLE uses the *bind mount* feature of Linux, which allows
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directories to be accessible from another location in the file system. By
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carefully bind-mounting the jail image as read-only and then bind-mounting the
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user's :file:`/home` and :file:`/tmp` directory data over the top, we create a
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jail with only three bind mounts and at virtually no file system overhead.
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IVLE has historically used numerous solutions to this problem, which are
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chronicled here to avoid the same mistakes being made again.
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In the first release of IVLE this was done offline by hard-linking all the
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files into the target directory, but for a large number of users, this
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process can take several hours, and also runs the risk of exhausting
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the number of inodes on the underlying file system.
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The second solution was to use `AUFS <http://aufs.sourceforge.net/>`_ to
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mount the user's home directory over a read-only version of the base on
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demand. This was implemented as part of ``trampoline`` and used a secondary
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program ``timount`` (see :file:`bin/timount/timount.c`), run at regular
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intervals, to unmount unused jails. This used the :const:`MNT_EXPIRE` flag
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for :manpage:`umount(2)` (available since Linux 2.6.8) that only unmounts a
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directory if it hasn't been accessed since the previous call with
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While quite effective, AUFS appeared to cause NFS caching issues when IVLE
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was run as a cluster, and as its inclusion status in future Linux
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distributions is questionable, the developers elected to use the much older
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bind mount feature instead.
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Before running the specified program in the users jail we need to
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:manpage:`chroot(2)` into the users jail and update the processes environment
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so that we have the correct environment variables and user/group ids.
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At this stage we also may apply a number of resource limits (see
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:manpage:`setrlimit`) to prevent run away processes (such as those containing
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infinite loops or "fork bombs") from exhausting all system resources. The
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default limits are on maximum address space (:const:`RLIMIT_AS`), process data
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space (:const:`RLIMIT_DATA`), core dump size (:const:`RLIMIT_CORE`), CPU time
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(:const:`RLIMIT_CPU`), file size (:const:`RLIMIT_FSIZE`) and number of
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processes that may be spawned (:const:`RLIMIT_NPROC`).
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Unfortunately due to glibc's :manpage:`malloc(2)` implementation being able to
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allocate memory using :manpage:`mmap(2)`, :const:`RLIMIT_DATA` does not
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provide an effective limit on the amount of memory that a process can allocate
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(short of applying a kernel patch). Thus the only way to limit memory
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allocations is by placing limits on the address space, but this can cause
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problems with certain applications that allocate far larger address spaces
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than the real memory used. For this reason :const:`RLIMIT_AS` is currently set
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.. _ref-python-console:
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IVLE provides a web based programming console, exposing similar features to
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Python's command line console. It is built around the
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:file:`services/python-console` script, which opens up a socket on a random
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port to which `JSON`_ encoded chat requests can be made.
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A new console is typically launched on demand by the web client to the HTTP
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API, which in turn calls the wrapper class :class:`ivle.console.Console` to
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start a new console in the user's jail.
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Subsequent requests from the same in-browser console connect to the existing
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console process. This is achieved by storing a string on the client which
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identifies the server address and port. The client then makes requests
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through the load balancer, sending this string through to an arbitrary slave
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which forwards the request to the identified console.
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This means that all slaves need access to all ports on every other slave.
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.. _JSON: http://json.org
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.. _ref-usrmgt-server:
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User Management Server
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======================
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The **User Management Server** is a daemon responsible for handling privileged
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actions on IVLE and should be launched along with IVLE. It is primarily
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* Creating user jails, Subversion repositories, and Subversion authentication
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* Creating group Subversion repositories.
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* Rebuilding Subversion authorization files.
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Communication with the Server is done using the :ref:`Chat Protocol
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<ref-chat>`. To prevent unauthorized use, communication with the User
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Management Server requires that a *shared secret* be used to communicate with
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the server. This secret is stored in the `magic` variable in the `[usrmgt]`
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section of :file:`/etc/ivle/ivle.conf`.
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The User Management Server is called almost exclusively from the
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:mod:`ivle.webapp.userservice` module.
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.. seealso:: Source code :file:`services/usrmgt-server`
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**Chat** is our JSON_-based client/server communication protocol used in
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communicating to :ref:`Python Console <ref-python-console>` processes and
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:ref:`User Management Server <ref-usrmgt-server>`. Since it is JSON-based it
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can be called from either Python or JavaScript.
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The protocol is a fairly simple client/server based one consisting of a single
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JSON object. Before communication starts a shared secret :const:`MAGIC` must
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be known by both parties. The shared secret is then used to form a
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'keyed-Hash Message Authentication Code' to ensure that the content is valid
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and not been modified in transit.
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The client request takes the following form::
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where :const:`DATA` is any valid JSON value and :const:`HASH` is an string
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containing the MD5 hash of the :const:`DATA` appended to :const:`MAGIC` and
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The server will respond with a JSON value corresponding to the request.
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If an error occurs then a special JSON object will be returned of the
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"traceback": TRACEBACK
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where :const:`NAME` is a JSON string of the exception type (such as
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'AttributeError'), :const:`VALUE` is the string value associated with the
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exception and :const:`TRACEBACK` is a string of the traceback generated by the
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server's exception handler.
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.. seealso:: Source code :file:`ivle/chat.py`
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Along with traditional file system access, IVLE allows users to version their
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files using Subversion_. Much like how Subversion workspaces are used on a
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standard desktop, workspaces are checked out into users home directories where
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they can be manipulated through a series of AJAX requests to the
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Like all other user file system actions, version control actions need to be
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executed inside the user's :ref:`jail <ref-jail>`. Requests are made to the
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``fileservice`` app in :mod:`ivle.webapp.fileservice` which then calls the
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``fileservice`` CGI script using ``trampoline``. This script is simply a
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wrapper around :mod:`ivle.fileservice_lib` which actually contains the code to
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handle each of the actions.
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Manipulation of the Subversion workspaces is done using the pysvn_ library.
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.. _Subversion: http://subversion.tigris.org/
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.. _pysvn: http://pysvn.tigris.org/
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Each user is allocated a Subversion repository when their :ref:`Jail
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<ref-jail>` is created by the :ref:`User Management Server
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<ref-usrmgt-server>`. Repository are stored in the location specified by
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``[paths] [[svn]] repo_path`` in :file:`/etc/ivle/ivle.conf` (by default
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:file:`/var/lib/ivle/svn/repositories/`). User repositories are stored in the
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:samp:`users/{USERNAME}/` subdirectory and group repositories in
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:samp:`groups/{SUBJECT}_{YEAR}_{SEMESTER}_{GROUP}`.
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While it would be possible to give users direct access to their repository
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using Subversion's file backend, this would allow users to potentially
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modify the history of any repository that they had access to. To ensure
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repository integrity, all Subversion interaction must be done remotely.
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These repositories are served by Apache using ``mod_dav_svn`` allowing access
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over Subversion's WebDAV HTTP or HTTPS backends. Users are authenticated using
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a randomly generated key which is stored in the database and is made available
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to each user inside their Jail (``svn_pass`` property inside
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:file:`/home/.ivle.conf`). This key is automatically provided when doing
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Subversion actions, but can be manually entered when accessing a users
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repository from an external Subversion client such as with :samp:`svn checkout
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{svn_addr}/users/{USERNAME}/ workspace`.
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Repository permissions for ``AuthzSVNAccessFILE`` are automatically generated
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and placed in the file located at ``[paths] [[svn]] conf`` for user
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repositories and ``[paths] [[svn]] group_conf`` for group repositories. User
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authentication keys for ``AuthUserFile`` are stored in the file located at
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``[path] [[svn]] auth_ivle``. These will be regenerated each time user or
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group repository settings change.
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.. TODO: Not yet merged