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282 lines
11 KiB
Markdown
282 lines
11 KiB
Markdown
---
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layout: doc
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title: TorVM
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permalink: /doc/torvm/
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redirect_from:
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- /doc/privacy/torvm/
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- /en/doc/torvm/
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- /doc/TorVM/
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- /doc/UserDoc/TorVM/
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- /wiki/UserDoc/TorVM/
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---
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Known issues:
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-------------
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- [Service doesn't start without (even empty) user torrc](https://groups.google.com/d/msg/qubes-users/fyBVmxIpbSs/R5mxUcIEZAQJ)
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Qubes TorVM (qubes-tor)
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==========================
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Qubes TorVM is a deprecated ProxyVM service that provides torified networking to
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all its clients. **If you are interested in TorVM, you will find the
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[Whonix implementation in Qubes](https://www.qubes-os.org/doc/privacy/whonix/) a
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more usable and robust solution for creating a torifying traffic proxy.**
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By default, any AppVM using the TorVM as its NetVM will be fully torified, so
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even applications that are not Tor aware will be unable to access the outside
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network directly.
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Moreover, AppVMs running behind a TorVM are not able to access globally
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identifying information (IP address and MAC address).
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Due to the nature of the Tor network, only IPv4 TCP and DNS traffic is allowed.
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All non-DNS UDP and IPv6 traffic is silently dropped.
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See [this article](https://blog.invisiblethings.org/2011/09/28/playing-with-qubes-networking-for-fun.html) for a description of the concept, architecture, and the original implementation.
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## Warning + Disclaimer
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1. Qubes TorVM is produced independently from the Tor(R) anonymity software and
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carries no guarantee from The Tor Project about quality, suitability or
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anything else.
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2. Qubes TorVM is not a magic anonymizing solution. Protecting your identity
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requires a change in behavior. Read the "Protecting Anonymity" section
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below.
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3. Traffic originating from the TorVM itself **IS NOT** routed through Tor.
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This includes system updates to the TorVM. Only traffic from VMs using TorVM
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as their NetVM is torified.
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Installation
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============
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0. *(Optional)* If you want to use a separate vm template for your TorVM
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qvm-clone fedora-23 fedora-23-tor
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1. In dom0, create a proxy vm and disable unnecessary services and enable qubes-tor
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qvm-create -p torvm
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qvm-service torvm -d qubes-netwatcher
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qvm-service torvm -d qubes-firewall
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qvm-service torvm -e qubes-tor
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# if you created a new template in the previous step
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qvm-prefs torvm -s template fedora-23-tor
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2. From your TemplateVM, install the torproject Fedora repo
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sudo yum install qubes-tor-repo
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3. Then, in the template, install the TorVM init scripts
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sudo yum install qubes-tor
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5. Configure an AppVM to use TorVM as its NetVM (for example a vm named anon-web)
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qvm-prefs -s anon-web netvm torvm
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... repeat for any other AppVMs you want torified...
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6. Shutdown the TemplateVM.
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7. Set the prefs of your TorVM to use the default sys-net or sys-firewall as its NetVM
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qvm-prefs -s torvm netvm sys-net
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8. Start the TorVM and any AppVM you have configured to be route through the TorVM
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9. From the AppVMs, verify torified connectivity, e.g. by visiting
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`https://check.torproject.org`.
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### Troubleshooting ###
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1. Check if the qubes-tor service is running (on the torvm)
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[user@torvm] $ sudo service qubes-tor status
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2. Tor logs to syslog, so to view messages use
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[user@torvm] $ sudo grep Tor /var/log/messages
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3. Restart the qubes-tor service (and repeat 1-2)
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[user@torvm] $ sudo service qubes-tor restart
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4. You may need to manually create the private data directory and set its permissions:
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[user@torvm] $ sudo mkdir /rw/usrlocal/lib/qubes-tor
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[user@torvm] $ sudo chown user:user /rw/usrlocal/lib/qubes-tor
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Usage
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=====
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Applications should "just work" behind a TorVM, however there are some steps
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you can take to protect anonymity and increase performance.
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## Protecting Anonymity
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The TorVM only purports to prevent the leaking of two identifiers:
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1. WAN IP Address
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2. NIC MAC Address
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This is accomplished through transparent TCP and transparent DNS proxying by
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the TorVM.
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The TorVM cannot anonymize information stored or transmitted from your AppVMs
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behind the TorVM.
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*Non-comprehensive* list of identifiers TorVM does not protect:
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* Time zone
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* User names and real name
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* Name+version of any client (e.g. IRC leaks name+version through CTCP)
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* Metadata in files (e.g., exif data in images, author name in PDFs)
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* License keys of non-free software
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### Further Reading
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* [Information on protocol leaks](https://trac.torproject.org/projects/tor/wiki/doc/TorifyHOWTO#Protocolleaks)
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* [Official Tor Usage Warning](https://www.torproject.org/download/download-easy.html.en#warning)
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* [Tor Browser Design](https://www.torproject.org/projects/torbrowser/design/)
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## How to use Tor Browser behind TorVM
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1. In a clean VM, [download Tor Browser from the Tor Project][tor-browser].
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2. [Verify the PGP signature][tor-verify-sig].
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3. Copy/move the Tor Browser archive into your AnonVM (i.e., the AppVM which has your TorVM as its netvm).
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4. Unpack the Tor Browser archive into your home directory.
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5. In dom0, right click the KDE Application Launcher Menu (AKA "Start Menu") and left click "Edit Applications..."
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6. In the KDE Menu Editor, find your AnonVM's group and create a new item (or make a copy of an existing item).
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7. Edit the following fields on the "General" tab:
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* Name: `my-new-anonvm: Tor Browser`
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* Command: `qvm-run -q --tray -a my-new-anonvm 'TOR_SKIP_LAUNCH=1 TOR_SKIP_CONTROLPORTTEST=1 TOR_SOCKS_PORT=9050 TOR_SOCKS_HOST=1.2.3.4 ./tor-browser_en-US/Browser/start-tor-browser'`
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* Replace `my-new-anonvm` with the name of your AnonVM.
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* Replace `1.2.3.4` with your TorVM's internal Qubes IP address, which can be viewed in Qubes VM Manager by clicking "View" --> "IP" or by running `qvm-ls -n` in dom0.
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* Replace `en-US` with your locale ID, if different.
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8. Click "Save" in the KDE Menu Editor.
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Tor Browser should now work correctly in your AnonVM when launched via the shortcut you just created.
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**Note:** If you want to use Tor Browser in a [DispVM][dispvm], the steps are the same as above, except you should copy the Tor Browser directory into your DVM template, [regenerate the DVM template][dispvm-customization], then use the following command in your KDE menu entry:
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`sh -c 'echo TOR_SKIP_LAUNCH=1 TOR_SKIP_CONTROLPORTTEST=1 TOR_SOCKS_PORT=9050 TOR_SOCKS_HOST=1.2.3.4 ./tor-browser_en-US/Browser/start-tor-browser | /usr/lib/qubes/qfile-daemon-dvm qubes.VMShell dom0 DEFAULT red'`
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(Replace `1.2.3.4` and `en-US` as indicated above.)
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## Performance
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In order to mitigate identity correlation TorVM makes use of Tor's new [stream
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isolation feature][stream-isolation]. Read "Threat Model" below for more
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information.
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However, this isn't desirable in all situations, particularly web browsing.
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These days loading a single web page requires fetching resources (images,
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javascript, css) from a dozen or more remote sources. Moreover, the use of
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IsolateDestAddr in a modern web browser may create very uncommon HTTP behavior
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patterns, that could ease fingerprinting.
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Additionally, you might have some apps that you want to ensure always share a
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Tor circuit or always get their own.
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For these reasons TorVM ships with two open SOCKS5 ports that provide Tor
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access with different stream isolation settings:
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* Port 9050 - Isolates by SOCKS Auth and client address only
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Each AppVM gets its own circuit, and each app using a unique SOCKS
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user/pass gets its own circuit
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* Port 9049 - Isolates client + destination port, address, and by SOCKS Auth
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Same as default settings listed above, but additionally traffic
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is isolated based on destination port and destination address.
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## Custom Tor Configuration
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Default tor settings are found in the following file and are the same across
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all TorVMs.
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/usr/lib/qubes-tor/torrc
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You can override these settings in your TorVM, or provide your own custom
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settings by appending them to:
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/rw/config/qubes-tor/torrc
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For information on tor configuration settings `man tor`
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Threat Model
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============
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TorVM assumes the same Adversary Model as [TorBrowser][tor-threats], but does
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not, by itself, have the same security and privacy requirements.
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## Proxy Obedience
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The primary security requirement of TorVM is *Proxy Obedience*.
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Client AppVMs MUST NOT bypass the Tor network and access the local physical
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network, internal Qubes network, or the external physical network.
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Proxy Obedience is assured through the following:
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1. All TCP traffic from client VMs is routed through Tor
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2. All DNS traffic from client VMs is routed through Tor
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3. All non-DNS UDP traffic from client VMs is dropped
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4. Reliance on the [Qubes OS network model][qubes-net] to enforce isolation
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## Mitigate Identity Correlation
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TorVM SHOULD prevent identity correlation among network services.
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Without stream isolation, all traffic from different activities or "identities"
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in different applications (e.g., web browser, IRC, email) end up being routed
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through the same tor circuit. An adversary could correlate this activity to a
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single pseudonym.
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TorVM uses the default stream isolation settings for transparently torified
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traffic. While more paranoid options are available, they are not enabled by
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default because they decrease performance and in most cases don't help
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anonymity (see [this tor-talk thread][stream-isolation-explained])
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By default TorVM does not use the most paranoid stream isolation settings for
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transparently torified traffic due to performance concerns. By default TorVM
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ensures that each AppVM will use a separate tor circuit (`IsolateClientAddr`).
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For more paranoid use cases the SOCKS proxy port 9049 is provided that has all
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stream isolation options enabled. User applications will require manual
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configuration to use this socks port.
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Future Work
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===========
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* Integrate Vidalia
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* Create Tor Browser packages w/out bundled tor
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* Use local DNS cache to speedup queries (pdnsd)
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* Support arbitrary [DNS queries][dns]
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* Fix Tor's openssl complaint
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* Support custom firewall rules (to support running a relay)
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Acknowledgements
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================
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Qubes TorVM is inspired by much of the previous work done in this area of
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transparent torified solutions. Notably the following:
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* [Patrick Schleizer](mailto:adrelanos@riseup.net) for his work on [Whonix](https://www.whonix.org)
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* The [Tor Project wiki](https://trac.torproject.org/projects/tor/wiki/doc/TorifyHOWTO)
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* And the many people who contributed to discussions on [tor-talk](https://lists.torproject.org/pipermail/tor-talk/)
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[stream-isolation]: https://gitweb.torproject.org/torspec.git/blob/HEAD:/proposals/171-separate-streams.txt
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[stream-isolation-explained]: https://lists.torproject.org/pipermail/tor-talk/2012-May/024403.html
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[tor-threats]: https://www.torproject.org/projects/torbrowser/design/#adversary
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[qubes-net]: https://www.qubes-os.org/doc/QubesNet/
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[dns]: https://tails.boum.org/todo/support_arbitrary_dns_queries/
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[tor-browser]: https://www.torproject.org/download/download-easy.html
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[tor-verify-sig]: https://www.torproject.org/docs/verifying-signatures.html
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[dispvm]: https://www.qubes-os.org/doc/DisposableVms/
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[dispvm-customization]: https://www.qubes-os.org/doc/UserDoc/DispVMCustomization/
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