The Hitchhiker's Guide to Online Anonymity

The Hitchhiker’s Guide to Online Anonymity

(Or “How I learned to start worrying and love privacy anonymity”)

Version 1.1.6, April 2023 by Anonymous Planet

IMPORTANT RECOMMENDATION FOR UKRAINIANS. ВАЖЛИВА РЕКОМЕНДАЦІЯ ДЛЯ УКРАЇНЦІВ

Це послання до народу України. Ми настійно рекомендуємо вам використовувати Briar для спілкування. Ви можете знайти його тут: <https://briarproject.org/ . За допомогою цієї програми ви можете спілкуватися, навіть коли немає Інтернету. Посібник тут: https://briarproject.org/manual/uk/, Швидкий початок: https://briarproject.org/quick-start/uk/


This is a message for the people of Ukraine. We strongly recommend that you use Briar for communicating. You can find it here: https://briarproject.org/ With this application, you can communicate even when there is no internet. The manual is here: https://briarproject.org/manual/, quick-start guide here: https://briarproject.org/quick-start/


This guide is a work in progress. It will probably never be “finished”.

No affiliation with the Anonymous [Wikiless] [Archive.org] collective/movement.

There might be some wrong or outdated information in this guide because no one is perfect.

Your experience may vary. Remember to check regularly for an updated version of this guide.

This guide is a non-profit open-source initiative, licensed under Creative Commons Attribution-NonCommercial 4.0 International (cc-by-nc-4.0 [Archive.org]).

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There are several ways you could read this guide:

Precautions while reading this guide and accessing the various links:

If you do not want the hassle and use one of the browsers below, you could also just install the following extension on your browser: https://libredirect.github.io/ [Archive.org]:

If you are having trouble accessing any of the many academic articles referenced in this guide due to paywalls, feel free to use Sci-Hub (https://en.wikipedia.org/wiki/Sci-Hub [Wikiless] [Archive.org]) or LibGen (https://en.wikipedia.org/wiki/Library_Genesis [Wikiless] [Archive.org]) for finding and reading them. Because Science should be free. All of it. If you are faced with a paywall accessing some resources, consider using https://12ft.io/.

Finally note that this guide does mention and even recommends various commercial services (such as VPNs, CDNs, e-mail providers, hosting providers…) but is not endorsed or sponsored by any of them in any way. There are no referral links and no commercial ties with any of these providers. This project is 100% non-profit and only relying on donations.

Contents:

Pre-requisites and limitations:

Pre-requisites:

Limitations:

This guide is not intended for:

Introduction:

TLDR for the whole guide: “A strange game. The only winning move is not to play” 4.

Making a social media account with a pseudonym or artist/brand name is easy. And it is enough in most use cases to protect your identity as the next George Orwell. There are plenty of people using pseudonyms all over Facebook/Instagram/Twitter/LinkedIn/TikTok/Snapchat/Reddit/… But the vast majority of those are anything but anonymous and can easily be traced to their real identity by your local police officers, random people within the OSINT5 (Open-Source Intelligence) community, and trolls6 on 4chan7.

This is a good thing as most criminals/trolls are not tech-savvy and will usually be identified with ease. But this is also a terrible thing as most political dissidents, human rights activists and whistleblowers can also be tracked rather easily.

This guide aims to provide an introduction to various de-anonymization techniques, tracking techniques, ID verification techniques, and optional guidance to creating and maintaining reasonably and truly online anonymous identities including social media accounts safely. This includes mainstream platforms and not only the privacy-friendly ones.

It is important to understand that the purpose of this guide is anonymity and not just privacy but much of the guidance you will find here will also help you improve your privacy and security even if you are not interested in anonymity. There is an important overlap in techniques and tools used for privacy, security, and anonymity but they differ at some point:

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(Illustration from9)

Will this guide help you protect yourself from the NSA, the FSB, Mark Zuckerberg, or the Mossad if they are out to find you? Probably not … Mossad will be doing “Mossad things” 10 and will probably find you no matter how hard you try to hide11.

You must consider your threat model12 before going further.

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(Illustration by Randall Munroe, xkcd.com, licensed under CC BY-NC 2.5)

Will this guide help you protect your privacy from OSINT researchers like Bellingcat13, Doxing14 trolls on 4chan15, and others that have no access to the NSA toolbox? More likely. Tho we would not be so sure about 4chan.

Here is a basic simplified threat model for this guide:

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(Note that the “magical amulets/submarine/fake your own death” jokes are quoted from the excellent article “This World of Ours” by James Mickens, 2014.16)

Disclaimer: Jokes aside (magical amulet…). Of course, there are also advanced ways to mitigate attacks against such advanced and skilled adversaries but those are just out of the scope of this guide. It is crucially important that you understand the limits of the threat model of this guide. And therefore, this guide will not double in size to help with those advanced mitigations as this is just too complex and will require an exceedingly high knowledge and skill level that is not expected from the targeted audience of this guide.

The EFF provides a few security scenarios of what you should consider depending on your activity. While some of those tips might not be within the scope of this guide (more about Privacy than Anonymity), they are still worth reading as examples. See https://ssd.eff.org/en/module-categories/security-scenarios [Archive.org].

If you want to go deeper into threat modeling, see Appendix B3: Threat modeling resources.

You might think this guide has no legitimate use but there are many17181920212223 such as:

This guide is written with hope for those good-intended individuals who might not be knowledgeable enough to consider the big picture of online anonymity and privacy.

Lastly, use it at your own risk. Anything in here is not legal advice and you should verify compliance with your local law before use (IANAL25). “Trust but verify”26 all the information yourself (or even better, “Never Trust, always verify”27). We strongly encourage you to inform yourself and do not hesitate to check any information in this guide with outside sources in case of doubt. Please do report any mistake you spot to us as we welcome criticism. Even harsh but sound criticism is welcome and will result in having the necessary corrections made as quickly as possible.

Understanding some basics of how some information can lead back to you and how to mitigate some:

There are many ways you can be tracked besides browser cookies and ads, your e-mail, and your phone number. And if you think only the Mossad or the NSA/FSB can find you, you would be wrong.

First, you could also consider these more general resources on privacy and security to learn more basics:

Note that these websites could contain affiliate/sponsored content and/or merchandising. This guide does not endorse and is not sponsored by any commercial entity in any way.

If you skipped those, you should really still consider viewing this YouTube playlist from the Techlore Go Incognito project (https://github.com/techlore-official/go-incognito [Archive.org]) as an introduction before going further: https://www.youtube.com/playlist?list=PL3KeV6Ui_4CayDGHw64OFXEPHgXLkrtJO [Invidious]. This guide will cover many of the topics in the videos of this playlist with more details and references as well as some added topics not covered within that series. This will just take you 2 or 3 hours to watch it all.

Now, here is a non-exhaustive list of some of the many ways you could be tracked and de-anonymized:

Your Network:

Your IP address:

Disclaimer: this whole paragraph is about your public-facing Internet IP and not your local network IP.

Your IP address28 is the most known and obvious way you can be tracked. That IP is the IP you are using at the source. This is where you connect to the internet. That IP is usually provided by your ISP (Internet Service Provider) (xDSL, Mobile, Cable, Fiber, Cafe, Bar, Friend, Neighbor). Most countries have data retention regulations29 that mandate keeping logs of who is using what IP at a certain time/date for up to several years or indefinitely. Your ISP can tell a third party that you were using a specific IP at a specific date and time, years after the fact. If that IP (the original one) leaks at any point for any reason, it can be used to track down you directly. In many countries, you will not be able to have internet access without providing some form of identification to the provider (address, ID, real name, e-mail …).

Needless to say, that most platforms (such as social networks) will also keep (sometimes indefinitely) the IP addresses you used to sign-up and sign into their services.

Here are some online resources you can use to find some information about your current public IP right now:

For those reasons, you will need to obfuscate and hide that origin IP (the one tied to your identification) or hide it through a combination of various means:

Do note that, unfortunately, these solutions are not perfect, and you will experience performance issues32.

All those will be explained later in this guide.

Your DNS and IP requests:

DNS stands for “Domain Name System”33 and is a service used by your browser (and other apps) to find the IP addresses of a service. It is a huge “contact list” (phone book for older people) that works like asking it a name and it returns the number to call. Except it returns an IP instead.

Every time your browser wants to access a certain service such as Google through www.google.com. Your Browser (Chrome or Firefox) will query a DNS service to find the IP addresses of the Google web servers.

Here is a video explaining DNS visually if you are already lost: https://www.youtube.com/watch?v=vrxwXXytEuI [Invidious]

Usually, the DNS service is provided by your ISP and automatically configured by the network you are connecting to. This DNS service could also be subject to data retention regulations or will just keep logs for other reasons (data collection for advertising purposes for instance). Therefore, this ISP will be capable of telling everything you did online just by looking at those logs which can, in turn, be provided to an adversary. Conveniently this is also the easiest way for many adversaries to apply censoring or parental control by using DNS blocking34. The provided DNS servers will give you a different address (than their real one) for some websites (like redirecting thepiratebay.org to some government website). Such blocking is widely applied worldwide for certain sites35.

Using a private DNS service or your own DNS service would mitigate these issues, but the other problem is that most of those DNS requests are by default still sent in clear text (unencrypted) over the network. Even if you browse PornHub in an incognito Window, using HTTPS and using a private DNS service, chances are exceedingly high that your browser will send a clear text unencrypted DNS request to some DNS servers asking basically “So what’s the IP address of www.pornhub.com?”.

Because it is not encrypted, your ISP and/or any other adversary could still intercept (using a Man-in-the-middle attack36) your request will know and possibly log what your IP was looking for. The same ISP can also tamper with the DNS responses even if you are using a private DNS. Rendering the use of a private DNS service useless.

As a bonus, many devices and apps will use hardcoded DNS servers bypassing any system setting you could set. This is for example the case with most (70%) Smart TVs and a large part (46%) of Game Consoles37. For these devices, you will have to force them38 to stop using their hardcoded DNS service which could make them stop working properly.

A solution to this is to use encrypted DNS using DoH (DNS over HTTPS39), DoT (DNS over TLS40) with a private DNS server (this can be self-hosted locally with a solution like pi-hole41, remotely hosted with a solution like nextdns.io or using the solutions provided by your VPN provider or the Tor network). This should prevent your ISP or some go-between from snooping on your requests … except it might not.

Small in-between Disclaimer: This guide does not necessarily endorse or recommend Cloudflare services even if it is mentioned several times in this section for technical understanding.

Unfortunately, the TLS protocol used in most HTTPS connections in most Browsers (Chrome/Brave among them) will leak the Domain Name again through SNI42 handshakes (this can be checked here at Cloudflare: https://www.cloudflare.com/ssl/encrypted-sni/ [Archive.org] ). As of the writing of this guide, only Firefox-based browsers supports ECH (Encrypted Client Hello43 previously known as eSNI44) on some websites which will encrypt everything end to end (in addition to using a secure private DNS over TLS/HTTPS) and will allow you to hide your DNS requests from a third party45. And this option is not enabled by default either so you will have to enable it yourself.

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In addition to limited browser support, only web Services and CDNs46 behind Cloudflare CDN support ECH/eSNI at this stage47. This means that ECH and eSNI are not supported (as of the writing of this guide) by most mainstream platforms such as:

Some countries like Russia48 and China49 might (unverified despite the articles) block ECH/eSNI handshakes at the network level to allow snooping and prevent bypassing censorship. Meaning you will not be able to establish an HTTPS connection with a service if you do not allow them to see what it was.

The issues do not end here. Part of the HTTPS TLS validation is called OCSP50 and this protocol used by Firefox-based browsers will leak metadata in the form of the serial number of the certificate of the website you are visiting. An adversary can then easily find which website you are visiting by matching the certificate number51. This issue can be mitigated by using OCSP stapling52. Unfortunately, this is enabled but not enforced by default in Firefox/Tor Browser. But the website you are visiting must also be supporting it and not all do. Chromium-based browsers on the other hand use a different system called CRLSets5354 which is arguably better.

Here is a list of how various browsers behave with OCSP: https://www.ssl.com/blogs/how-do-browsers-handle-revoked-ssl-tls-certificates/ [Archive.org]

Here is an illustration of the issue you could encounter on Firefox-based browsers:

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Finally, even if you use a custom encrypted DNS server (DoH or DoT) with ECH/eSNI support and OCSP stapling, it might still not be enough as traffic analysis studies55 have shown it is still possible to reliably fingerprint and block unwanted requests. Only DNS over Tor was able to show efficient DNS Privacy in recent studies but even that can still be defeated by other means (see Your Anonymized Tor/VPN traffic).

One could also decide to use a Tor Hidden DNS Service or ODoH (Oblivious DNS over HTTPS56) to further increase privacy/anonymity but unfortunately, as far as we know, these methods are only provided by Cloudflare as of this writing (https://blog.cloudflare.com/welcome-hidden-resolver/ [Archive.org], https://blog.cloudflare.com/oblivious-dns/ [Archive.org]). These are workable and reasonably secure technical options but there is also a moral choice if you want to use Cloudflare or not (despite the risk posed by some researchers57).

Note that Oblivious DNS addresses an adversary that eavesdrops on one of the connections listed here but not all. It does not address a global passive adversary (GPA) who can eavesdrop on many or all of these connections: - traffic between the client resolver and the recursive resolver - the recursive resolver and the ODNS resolver - the ODNS resolver and an authoritative server.

Lastly, there is also this new possibility called DoHoT which stands for DNS over HTTPS over Tor which could also further increase your privacy/anonymity and which you could consider if you are more skilled with Linux. See https://github.com/alecmuffett/dohot [Archive.org]. This guide will not help you with this one at this stage, but it might be coming soon.

Here is an illustration showing the current state of DNS and HTTPS privacy based on our current knowledge.

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As for your normal daily use (non-sensitive), remember that only Firefox-based browsers support ECH (formerly eSNI) so far and that it is only useful with websites hosted behind Cloudflare CDN at this stage. If you prefer a Chrome-based version (which is understandable for some due to some better-integrated features like on-the-fly Translation), then we would recommend the use of Brave instead which supports all Chrome extensions and offers much better privacy than Chrome.

But the story does not stop there right. Now because after all this, even if you encrypt your DNS and use all possible mitigations. Simple IP requests to any server will probably allow an adversary to still detect which site you are visiting. And this is simply because the majority of websites have unique IPs tied to them as explained here: https://blog.apnic.net/2019/08/23/what-can-you-learn-from-an-ip-address/ [Archive.org]. This means that an adversary can create a dataset of known websites for instance including their IPs and then match this dataset against the IP you ask for. In most cases, this will result in a correct guess of the website you are visiting. This means that despite OCSP stapling, despite ECH/eSNI, despite using Encrypted DNS … An adversary can still guess the website you are visiting anyway.

Therefore, to mitigate all these issues (as much as possible and as best as we can), this guide will later recommend two solutions: Using Tor and a virtualized (See Appendix W: Virtualization) multi-layered solution of VPN over Tor solution (DNS over VPN over Tor or DNS over TOR). Other options will also be explained (Tor over VPN, VPN only, No Tor/VPN) but are less recommended.

Your RFID enabled devices:

RFID stands for Radio-frequency identification58, it is the technology used for instance for contactless payments and various identification systems. Of course, your smartphone is among those devices and has RFID contactless payment capabilities through NFC59. As with everything else, such capabilities can be used for tracking by various actors.

But unfortunately, this is not limited to your smartphone, and you also probably carry some amount of RFID enabled device with you all the time such as:

While all these cannot be used to de-anonymize you from a remote online adversary, they can be used to narrow down a search if your approximate location at a certain time is known. For instance, you cannot rule out that some stores will effectively scan (and log) all RFID chips passing through the door. They might be looking for their loyalty cards but are also logging others along the way. Such RFID tags could be traced to your identity and allow for de-anonymization.

More information over at Wikipedia: https://en.wikipedia.org/wiki/Radio-frequency_identification#Security_concerns [Wikiless] [Archive.org] and https://en.wikipedia.org/wiki/Radio-frequency_identification#Privacy [Wikiless] [Archive.org]

The only way to mitigate this problem is to have no RFID tags on you or to shield them again using a type of Faraday cage. You could also use specialized wallets/pouches that specifically block RFID communications. Many of those are now made by well-known brands such as Samsonite60. You should just not carry such RFID devices while conducting sensitive activities.

See Appendix N: Warning about smartphones and smart devices

The Wi-Fi and Bluetooth devices around you:

Geolocation is not only done by using mobile antennas triangulation. It is also done using the Wi-Fi and Bluetooth devices around you. Operating systems makers like Google (Android61) and Apple (IOS62) maintain a convenient database of most Wi-Fi access points, Bluetooth devices, and their location. When your Android smartphone or iPhone is on (and not in Plane mode), it will scan actively (unless you specifically disable this feature in the settings) Wi-Fi access points, and Bluetooth devices around you and will be able to geolocate you with more precision than when using a GPS.

This active and continuous probing can then be sent back to Google/Apple/Microsoft as part of their Telemetry. The issue is that this probing is unique and can be used to uniquely identify a user and track such user. Shops, for example, can use this technique to fingerprint customers including when they return, where they go in the shop and how long they stay at a particular place. There are several papers6364 and articles65 describing this issue in depth.

This allows them to provide accurate locations even when GPS is off, but it also allows them to keep a convenient record of all Wi-Fi Bluetooth devices all over the world. Which can then be accessed by them or third parties for tracking.

Note: If you have an Android smartphone, Google probably knows where it is no matter what you do. You cannot really trust the settings. The whole operating system is built by a company that wants your data. Remember that if it is free then you are the product.

But that is not what all those Wi-Fi access points can do. Recently developed techs could even allow someone to track your movements accurately just based on radio interferences. What this means is that it is possible to track your movement inside a room/building based on the radio signals passing through. This might seem like a tinfoil hat conspiracy theory claim but here are the references66 with demonstrations showing this tech in action: http://rfpose.csail.mit.edu/ [Archive.org] and the video here: https://www.youtube.com/watch?v=HgDdaMy8KNE [Invidious]

Other researchers have found a way to count the people in a defined space using only Wi-Fi, see https://www.news.ucsb.edu/2021/020392/dont-fidget-wifi-will-count-you [Archive.org]

You could therefore imagine many use cases for such technologies like recording who enters specific buildings/offices (hotels, hospitals, or embassies for instance) and then discover who meets who and thereby tracking them from outside. Even if they have no smartphone on them.

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Again, such an issue could only be mitigated by being in a room/building that would act as a Faraday cage.

Here is another video of the same kind of tech in action: https://www.youtube.com/watch?v=FDZ39h-kCS8 [Invidious]

See Appendix N: Warning about smartphones and smart devices

There is not much you can do about these. Besides being non-identifiable in the first place.

Malicious/Rogue Wi-Fi Access Points:

These have been used at least since 2008 using an attack called “Jasager”67 and can be done by anyone using self-built tools or using commercially available devices such as Wi-Fi Pineapple68.

Here are some videos explaining more about the topic:

These devices can fit in a small bag and can take over the Wi-Fi environment of any place within their range. For instance, a Bar/Restaurant/Café/Hotel Lobby. These devices can force Wi-Fi clients to disconnect from their current Wi-Fi (using de-authentication, disassociation attacks69) while spoofing the normal Wi-Fi networks at the same location. They will continue to perform this attack until your computer, or you decide to try to connect to the rogue AP.

These devices can then mimic a captive portal70 with the exact same layout as the Wi-Fi you are trying to access (for instance an Airport Wi-Fi registration portal). Or they could just give you unrestricted access internet that they will themselves get from the same place.

Once you are connected through the Rogue AP, this AP will be able to execute various man-in-the-middle attacks to perform analysis on your traffic. These could be malicious redirections or simple traffic sniffing. These can then easily identify any client that would for instance try to connect to a VPN server or the Tor Network.

This can be useful when you know someone you want to de-anonymize is in a crowded place, but you do not know who. This would allow such an adversary to possibly fingerprint any website you visit despite the use of HTTPS, DoT, DoH, ODoH, VPN, or Tor using traffic analysis as pointed above in the DNS section.

These can also be used to carefully craft and serve you advanced phishing webpages that would harvest your credentials or try to make you install a malicious certificate allowing them to see your encrypted traffic.

How to mitigate those? If you do connect to a public wi-fi access point, use Tor, or use a VPN and then Tor (Tor over VPN) or even (VPN over Tor) to obfuscate your traffic from the rogue AP while still using it.

Your Anonymized Tor/VPN traffic:

Tor and VPNs are not silver bullets. Many advanced techniques have been developed and studied to de-anonymize encrypted Tor traffic over the years71. Most of those techniques are Correlation attacks that will correlate your network traffic in one way or another to logs or datasets. Here are some examples:

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There are ways to mitigate these such as:

Be aware again that this might not be enough against a motivated global adversary77 with wide access to global mass surveillance. Such an adversary might have access to logs no matter where you are and could use those to de-anonymize you. Usually, these attacks are part of what is called a Sybil Attack78. These adversaries are out of the scope of this guide.

Be also aware that all the other methods described in this guide such as Behavioral analysis can also be used to deanonymize Tor users indirectly (see further Your Digital Fingerprint, Footprint, and Online Behavior).

I also strongly recommend reading this very good, complete, and thorough (and more detailed) guide on most known Attack Vectors on Tor: https://github.com/Attacks-on-Tor/Attacks-on-Tor [Archive.org] as well as this recent research publication https://www.researchgate.net/publication/323627387_Shedding_Light_on_the_Dark_Corners_of_the_Internet_A_Survey_of_Tor_Research [Archive.org]

As well as this great series of blog posts: https://www.hackerfactor.com/blog/index.php?/archives/906-Tor-0day-The-Management-Vulnerability.html [Archive.org]

Recently, one of these attacks was attempted on the Tor Network with more information here: https://arstechnica.com/information-technology/2014/07/active-attack-on-tor-network-tried-to-decloak-users-for-five-months/ [Archive.org]

Lastly, do remember that using Tor can already be considered suspicious activity79, and its use could be considered malicious by some80.

This guide will later propose some mitigations to such attacks by changing your origin from the start (using public wi-fi’s for instance). Remember that such attacks are usually carried by highly skilled, highly resourceful, and motivated adversaries and are out of scope from this guide. It is also recommended that you learn about practical correlation attacks, as performed by intelligence agencies: https://officercia.mirror.xyz/WeAilwJ9V4GIVUkYa7WwBwV2II9dYwpdPTp3fNsPFjo [Archive.org]

Disclaimer: it should also be noted that Tor is not designed to protect against a global adversary. For more information see https://svn-archive.torproject.org/svn/projects/design-paper/tor-design.pdf [Archive.org] and specifically, “Part 3. Design goals and assumptions.”.

Some Devices can be tracked even when offline:

You have seen this in action/spy/Sci-Fi movies and shows, the protagonists always remove the battery of their phones to make sure it cannot be used. Most people would think that’s overkill. Well, unfortunately, no, this is now becoming true at least for some devices:

Such devices will continue to broadcast identity information to nearby devices even when offline using Bluetooth Low-Energy85. They do not have access to the devices directly (which are not connected to the internet) but instead use BLE to find them through other nearby devices86. They are using peer-to-peer short-range Bluetooth communication to broadcast their status through nearby online devices.

They could now find such devices and keep the location in some database that could then be used by third parties or themselves for various purposes (including analytics, advertising, or evidence/intelligence gathering).

See Appendix N: Warning about smartphones and smart devices

TLDR: Do not take such devices with you when conducting sensitive activities.

Your Hardware Identifiers:

Your IMEI and IMSI (and by extension, your phone number):

The IMEI (International Mobile Equipment Identity87) and the IMSI (International Mobile Subscriber Identity88) are unique numbers created by cell phone manufacturers and cell phone operators.

The IMEI is tied directly to the phone you are using. This number is known and tracked by the cell phone operators and known by the manufacturers. Every time your phone connects to the mobile network, it will register the IMEI on the network along with the IMSI (if a SIM card is inserted but that is not even needed). It is also used by many applications (Banking apps abusing the phone permission on Android for instance89) and smartphone Operating Systems (Android/IOS) for identification of the device90. It is possible but difficult (and not illegal in many jurisdictions91) to change the IMEI on a phone but it is probably easier and cheaper to just find and buy some old (working) Burner phone for a few Euros (this guide is for Germany remember) at a flea market or some random small shop.

The IMSI is tied directly to the mobile subscription or pre-paid plan you are using and is tied to your phone number by your mobile provider. The IMSI is hardcoded directly on the SIM card and cannot be changed. Remember that every time your phone connects to the mobile network, it will also register the IMSI on the network along with the IMEI. Like the IMEI, the IMSI is also being used by some applications and smartphone Operating systems for identification and is being tracked. Some countries in the EU for instance maintain a database of IMEI/IMSI associations for easy querying by Law Enforcement.

Today, giving away your (real) phone number is the same or better than giving away your Social Security number/Passport ID/National ID.

The IMEI and IMSI can be traced back to you in at least six ways:

Here is also a good YouTube video on this topic: DEFCON Safe Mode - Cooper Quintin - Detecting Fake 4G Base Stations in Real-Time https://www.youtube.com/watch?v=siCk4pGGcqA [Invidious]

For these reasons, it is crucial to get a dedicated anonymous phone number and/or an anonymous burner phone with a cash-bought pre-paid sim card that is not tied to you in any way (past or present) for conducting sensitive activities. It is also possible to get an anonymous pre-paid but preferably dedicated number from free and paid online services accepting anonymous cryptocurrencies like Monero. Get more practical guidance here: Getting an anonymous Phone number.

While there are some smartphones manufacturers like Purism with their Librem series101 who claim to have your privacy in mind, they still do not allow IMEI randomization which we believe is a key anti-tracking feature that should be provided by such manufacturers. While this measure will not prevent IMSI tracking within the SIM card, it would at least allow you to keep the same “burner phone” and only switch SIM cards instead of having to switch both for privacy.

See Appendix N: Warning about smartphones and smart devices

Your Wi-Fi or Ethernet MAC address:

The MAC address102 is a unique identifier tied to your physical Network Interface (Wired Ethernet or Wi-Fi) and could of course be used to track you if it is not randomized. As it was the case with the IMEI, manufacturers of computers and network cards usually keep logs of their sales (usually including things like serial number, IMEI, Mac Addresses, …) and it is possible again for them to track where and when the computer with the MAC address in question was sold and to whom. Even if you bought it with cash in a supermarket, the supermarket might still have CCTV (or a CCTV just outside that shop) and again the time/date of sale could be used to find out who was there using the Mobile Provider antenna logs at that time (IMEI/IMSI).

Operating Systems makers (Google/Microsoft/Apple) will also keep logs of devices and their MAC addresses in their logs for device identification (Find my device type services for example). Apple can tell that the MacBook with this specific MAC address was tied to a specific Apple Account before. Maybe yours before you decided to use the MacBook for sensitive activities. Maybe to a different user who sold it to you but remembers your e-mail/number from when the sale happened.

Your home router/Wi-Fi access point keeps logs of devices that are registered on the Wi-Fi, and these can be accessed too to find out who has been using your Wi-Fi. Sometimes this can be done remotely (and silently) by the ISP depending on if that router/Wi-Fi access point is being “managed” remotely by the ISP (which is often the case when they provide the router to their customers).

Some commercial devices will keep a record of MAC addresses roaming around for various purposes such as road congestion103.

So, it is important again not to bring your phone along when/where you conduct sensitive activities. If you use your own laptop, then it is crucial to hide that MAC address (and Bluetooth address) anywhere you use it and be extra careful not to leak any information. Thankfully many recent OSes now feature or allow the possibility to randomize MAC addresses (Android, IOS, Linux, and Windows 10/11) with the notable exception of macOS which does not support this feature even in its latest Big Sur version.

See Appendix N: Warning about smartphones and smart devices

Your Bluetooth MAC address:

Your Bluetooth MAC is like the earlier MAC address except it is for Bluetooth. Again, it can be used to track you as manufacturers and operating system makers keep logs of such information. It could be tied to a sale place/time/date or accounts and then could be used to track you with such information, the shop billing information, the CCTV, or the mobile antenna logs in correlation.

Operating systems have protections in place to randomize those addresses but are still subject to vulnerabilities104.

For this reason, and unless you really need those, you should just disable Bluetooth completely in the BIOS/UEFI settings if possible or in the Operating System otherwise.

On Windows 10, you will need to disable and enable the Bluetooth device in the device manager itself to force randomization of the address for next use and prevent tracking.

In general, this should not be too much of a concern compared to MAC Addresses. BT Addresses are randomized quite often.

See Appendix N: Warning about smartphones and smart devices

Your CPU:

All modern CPUs105 are now integrating hidden management platforms such as the now infamous Intel Management Engine106 and the AMD Platform Security Processor107.

Those management platforms are small operating systems running directly on your CPU as long as they have power. These systems have full access to your computer’s network and could be accessed by an adversary to de-anonymize you in various ways (using direct access or using malware for instance) as shown in this enlightening video: BlackHat, How to Hack a Turned-Off Computer, or Running Unsigned Code in Intel Management Engine https://www.youtube.com/watch?v=9fhNokIgBMU [Invidious].

These have already been affected by several security vulnerabilities in the past108 that allowed malware to gain control of target systems. These are also accused by many privacy actors including the EFF and Libreboot of being a backdoor into any system109.

There are some not so straightforward ways110 to disable the Intel IME on some CPUs and you should do so if you can. For some AMD laptops, you can disable it within the BIOS settings by disabling PSP.

Note that, to AMD’s defense, there were no security vulnerabilities found for ASP and no backdoors either. See https://www.youtube.com/watch?v=bKH5nGLgi08&t=2834s [Invidious]. In addition, AMD PSP does not provide any remote management capabilities contrary to Intel IME.

If you are feeling a bit more adventurous, you could install your own BIOS using Coreboot 111 or Libreboot (a distribution of Coreboot) if your laptop supports it. Coreboot allows users to add their own microcode or other firmware blobs in order for the machine to function, but this is based upon user choice, and as of Dec 2022, Libreboot has adopted a similar pragmatic approach in order to support newer devices in the Coreboot tree. (Thanks, kind Anon who corrected previous information in this paragraph.)

Check yourself:

Some CPUs have unfixable flaws (especially Intel CPUs) that could be exploited by various malware. Here is a good current list of such vulnerabilities affecting recent widespread CPUs: https://en.wikipedia.org/wiki/Transient_execution_CPU_vulnerability [Wikiless] [Archive.org]

Some of these can be avoided using Virtualization Software settings that can mitigate such exploits. See this guide for more information https://www.whonix.org/wiki/Spectre_Meltdown [Archive.org] (warning: these can severely impact the performance of your VMs).

This guide won’t go too deep into side-channel and microarchitecture attacks but we will highlight some issues with both Intel and AMD CPU architectures that will be mitigated throughout. It’s important to recognize hardware is just as susceptible to bugs, and therefore exploitation, regardless of manufacturer.

We will mitigate some of these issues in this guide by recommending the use of virtual machines on a dedicated anonymous laptop for your sensitive activities that will only be used from an anonymous public network.

In addition, we recommend the use of AMD CPUs instead of Intel CPUs.

Your Operating Systems and Apps telemetry services:

Whether it is Android, iOS, Windows, macOS, or even Ubuntu. Most popular Operating Systems now collect telemetry information by default even if you never opt-in or opted-out112 from the start. Some like Windows will not even allow disabling telemetry completely without some technical tweaks. This information collection can be extensive and include a staggering number of details (metadata and data) on your devices and their usage.

Here are good overviews of what is being collected by those five popular OSes in their last versions:

Not only are Operating Systems gathering telemetry services but so are Apps themselves like Browsers, Mail Clients, and Social Networking Apps installed on your system.

It is important to understand that this telemetry data can be tied to your device and help de-anonymizing you and later can be used against you by an adversary that would get access to this data.

This does not mean for example that Apple devices are terrible choices for good Privacy (tho this might be changing115), but they are certainly not the best choices for (relative) Anonymity. They might protect you from third parties knowing what you are doing but not from themselves. In all likelihood, they certainly know who you are.

Later in this guide, we will use all the means at our disposal to disable and block as much telemetry as possible to mitigate this attack vector in the Operating Systems supported in this guide. These will include Windows, macOS, and even Linux in some regard.

See Appendix N: Warning about smartphones and smart devices

Your Smart devices in general:

You got it; your smartphone is an advanced spying/tracking device that:

Data is being transmitted even if you opt-out116, processed, and stored indefinitely (most likely unencrypted117) by various third parties118.

But that is not all, this section is not called “Smartphones” but “Smart devices” because it is not only your smartphone spying on you. It is also every other smart device you could have:

See Appendix N: Warning about smartphones and smart devices

Conclusion: Do not bring your smart devices with you when conducting sensitive activities.

Yourself:

Your Metadata including your Geo-Location:

Your metadata is all the information about your activities without the actual content of those activities. For instance, it is like knowing you had a call from an oncologist before then calling your family and friends successively. You do not know what was said during the conversation, but you can guess what it was just from the metadata127.

This metadata will also often include your location that is being harvested by Smartphones, Operating Systems (Android128/IOS), Browsers, Apps, Websites. Odds are several companies are knowing exactly where you are at any time129 because of your smartphone130.

This location data has been used in many judicial cases131 already as part of “geofencing warrants” 132 that allow law enforcement to ask companies (such as Google/Apple) a list of all devices present at a certain location at a certain time. In addition, this location data is even sold by private companies to the military who can then use it conveniently133. These warrants are becoming widely used by law enforcement134135136.

If you want to experience yourself what a “geofencing warrant” would look like, here is an example: https://wigle.net/.

Now let us say you are using a VPN to hide your IP. The social media platform knows you were active on that account on November 4th from 8 am to 1 pm with that VPN IP. The VPN allegedly keeps no logs and cannot trace back that VPN IP to your IP. Your ISP however knows (or at least can know) you were connected to that same VPN provider on November 4th from 7:30 am to 2 pm but does not know what you were doing with it.

The question is: Is there someone somewhere that would have both pieces of information available137 for correlation in a convenient database?

Have you heard of Edward Snowden138? Now is the time to google him and read his book139. Also read about XKEYSCORE140141, MUSCULAR142, SORM143, Tempora144 , and PRISM145.

See “We kill people based on Metadata”146 or this famous tweet from the IDF https://twitter.com/idf/status/1125066395010699264 [Archive.org] [Nitter].

See Appendix N: Warning about smartphones and smart devices

Your Digital Fingerprint, Footprint, and Online Behavior:

This is the part where you should watch the documentary “The Social Dilemma”147 on Netflix as they cover this topic much better than anyone else.

This includes is the way you write (stylometry) 148149, the way you behave150151. The way you click. The way you browse. The fonts you use on your browser152. Fingerprinting is being used to guess who someone is by the way that user is behaving. You might be using specific pedantic words or making specific spelling mistakes that could give you away using a simple Google search for similar features because you typed comparably on some Reddit post 5 years ago using a not so anonymous Reddit account153. The words you type in a search engine alone can be used against you as the authorities now have warrants to find users who used specific keywords in search engines154.

Social Media platforms such as Facebook/Google can go a step further and can register your behavior in the browser itself. For instance, they can register everything you type even if you do not send it / save it. Think of when you draft an e-mail in Gmail. It is saved automatically as you type. They can register your clicks and cursor movements as well.

All they need to achieve this in most cases is Javascript enabled in your browser (which is the case in most Browsers including Tor Browser by default). Even with Javascript disabled, there are still ways to fingerprint you155.

While these methods are usually used for marketing purposes and advertising, they can also be a useful tool for fingerprinting users. This is because your behavior is unique or unique enough that over time, you could be de-anonymized.

Here are some examples:

Analysis algorithms could then be used to match these patterns with other users and match you to a different known user. It is unclear whether such data is already used or not by Governments and Law Enforcement agencies, but it might be in the future. And while this is mostly used for advertising/marketing/captchas purposes now. It could and probably will be used for investigations in the short or mid-term future to deanonymize users.

Here is a fun example you try yourself to see some of those things in action: https://clickclickclick.click (no archive links for this one sorry). You will see it becoming interesting over time (this requires Javascript enabled).

Here is also a recent example just showing what Google Chrome collects on you: https://web.archive.org/web/https://pbs.twimg.com/media/EwiUNH0UYAgLY7V?format=jpg&name=4096x4096

Here are some other resources on the topic if you cannot see this documentary:

So, how can you mitigate these?

You need to act and fully adopt a role as an actor would do for a performance. You need to become a different person, think, and act like that person. This is not a technical mitigation but a human one. You can only rely on yourself for that.

Ultimately, it is mostly up to you to fool those algorithms by adopting new habits and not revealing real information when using your anonymous identities. See Appendix A4: Counteracting Forensic Linguistics.

Your Clues about your Real Life and OSINT:

These are clues you might give over time that could point to your real identity. You might be talking to someone or posting on some board/forum/Reddit. In those posts, you might over time leak some information about your real life. These might be memories, experiences, or clues you shared that could then allow a motivated adversary to build a profile to narrow their search.

A real use and well-documented case of this was the arrest of the hacker Jeremy Hammond158 who shared over time several details about his past and was later discovered.

There are also a few cases involving OSINT at Bellingcat159. Have a look at their very informative (but slightly outdated) toolkit here: https://docs.google.com/spreadsheets/d/18rtqh8EG2q1xBo2cLNyhIDuK9jrPGwYr9DI2UncoqJQ/edit#gid=930747607 [Archive.org]

We have an OSINT discussion room in our Matrix community. Feel free to join at #OSINT:matrix.org.

You can also view some convenient lists of some available OSINT tools here if you want to try them on yourself for example:

As well as this interesting Playlist on YouTube: https://www.youtube.com/playlist?list=PLrFPX1Vfqk3ehZKSFeb9pVIHqxqrNW8Sy [Invidious]

As well as those interesting podcasts:

https://www.inteltechniques.com/podcast.html

You should never share real individual experiences/details using your anonymous identities that could later lead to finding your real identity. You will see more details about this in the Creating new identities section.

Your Face, Voice, Biometrics, and Pictures:

“Hell is other people”, even if you evade every method listed above, you are not out of the woods yet thanks to the widespread use of advanced Face recognition by everyone.

Companies like Facebook have used advanced face recognition for years160161 and have been using other means (Satellite imagery) to create maps of “people” around the world162. This evolution has been going on for years to the point we can now say “we lost control of our faces”163.

If you are walking in a touristy place, you will most likely appear in someone’s selfie within minutes without knowing it. That person could then go ahead and upload that selfie to various platforms (Twitter, Google Photos, Instagram, Facebook, Snapchat …). Those platforms will then apply face recognition algorithms to those pictures under the pretext of allowing better/easier tagging or to better organize your photo library. In addition to this, the same picture will provide a precise timestamp and in most cases geolocation of where it was taken. Even if the person does not provide a timestamp and geolocation, it can still be guessed with other means164165.

Here are a few resources for even trying this yourself:

Gait Recognition and Other Long-Range Biometrics

Even if you are not looking at the camera, they can still figure out who you are166, make out your emotions167, analyze your gait168169170, read your lips171, analyze the behavior of your eyes172, and probably guess your political affiliation173174.

Contrary to popular belief and pop culture, modern gait recognition systems aren’t fooled by simply changing how you walk (ex. with something uncomfortable in your shoe), as they analyze the way your body’s muscles move across your entire body, as you perform certain actions. The best way to fool modern gait recognition is to wear loose clothes that obscure the way your muscles move as you perform actions.

Other things than can be used to identify you include your earlobes, which are actually more identifiable than fingerprints, or even the shape of your skull. As such, soft headcoverings such as balaclavas are not recommendable for obscuring your identity - they make you look incredibly suspicious, while also conforming to the shape of your skull.

[][113]

(Illustration from https://www.nature.com/articles/s41598-020-79310-1 [Archive.org])

[][115]

(illustration from https://rd.springer.com/chapter/10.1007/978-3-030-42504-3_15 [Archive.org])

Those platforms (Google/Facebook) already know who you are for a few reasons:

Here is also an insightful demo of Microsoft Azure you can try for yourself at https://azure.microsoft.com/en-us/services/cognitive-services/face/#demo where you can detect emotions and compare faces from different pictures.

Governments already know who you are because they have your ID/Passport/Driving License pictures and often added biometrics (Fingerprints) in their database. Those same governments are integrating those technologies (often provided by private companies such as the Israeli Oosto180, Clearview AI181182, or NEC183) in their CCTV networks to look for “persons of interest”184. And some heavily surveilled states like China have implemented widespread use of Facial Recognition for various purposes185186 including possibly identifying ethnic minorities187. A simple face recognition error by some algorithm can ruin your life188189.

Here are some resources detailing some techniques used by Law Enforcement today:

Apple is making FaceID mainstream and pushing its use to log you into many services including the Banking systems.

The same goes with fingerprint authentication being mainstreamed by many smartphone makers to authenticate yourself. A simple picture where your fingers appear can be used to de-anonymize you190191192193.

The same goes with your voice which can be analyzed for various purposes as shown in the recent Spotify patent194.

Even your iris can be used for identification in some places195.

We can safely imagine a near future where you will not be able to create accounts or sign in anywhere without providing unique biometrics (A suitable time to re-watch Gattaca196, Person of Interest197 , and Minority Report198). And you can safely imagine how useful these large biometrics databases could be to some interested third parties.

In addition, all this information can also be used against you (if you are already de-anonymized) using deepfake199 by crafting false information (Pictures, Videos, Voice Recordings200…) and have already been used for such purposes201202. There are even commercial services for this readily available such as https://www.respeecher.com/ [Archive.org] and https://www.descript.com/overdub [Archive.org].

See this demo: https://www.youtube.com/watch?v=t5yw5cR79VA [Invidious]

At this time, there are a few steps203 you can use to mitigate (and only mitigate) face recognition when conducting sensitive activities where CCTV might be present:

(see Gait Recognition and Other Long-Range Biometrics)

(Note that if you intend to use these where advanced facial recognition systems have been installed, these measures could also flag as you as suspicious by themselves and trigger a human check)

Phishing and Social Engineering:

Phishing207 is a social engineering208 type of attack where an adversary could try to extract information from you by pretending or impersonating something/someone else.

A typical case is an adversary using a man-in-the-middle209 attack or a fake e-mail/call to ask for your credential for a service. This could for example be through e-mail or through impersonating financial services.

Such attacks can also be used to de-anonymize someone by tricking them into downloading malware or revealing personal information over time. The only defense against those is not to fall for them and common sense.

These have been used countless times since the early days of the internet and the usual one is called the “419 scam” (see https://en.wikipedia.org/wiki/Advance-fee_scam [Wikiless] [Archive.org]).

Here is a good video if you want to learn a bit more about phishing types: Black Hat, Ichthyology: Phishing as a Science https://www.youtube.com/watch?v=Z20XNp-luNA [Invidious].

Malware, exploits, and viruses:

Malware in your files/documents/e-mails:

Using steganography or other techniques, it is easy to embed malware into common file formats such as Office Documents, Pictures, Videos, PDF documents…

These can be as simple as HTML tracking links or complex targeted malware.

These could be simple pixel-sized images210 hidden in your e-mails that would call a remote server to try and get your IP address.

These could be exploiting a vulnerability in an outdated format or an outdated reader211. Such exploits could then be used to compromise your system.

See these good videos for more explanations on the matter:

You should always use extreme caution. To mitigate these attacks, this guide will later recommend the use of virtualization (See Appendix W: Virtualization) to mitigate leaking any information even in case of opening such a malicious file.

If you want to learn how to try detecting such malware, see Appendix T: Checking files for malware

Malware and Exploits in your apps and services:

So, you are using Tor Browser or Brave Browser over Tor. You could be using those over a VPN for added security. But you should keep in mind that there are exploits212 (hacks) that could be known by an adversary (but unknown to the App/Browser provider). Such exploits could be used to compromise your system and reveal details to de-anonymize you such as your IP address or other details.

A real use case of this technique was the Freedom Hosting213 case in 2013 where the FBI inserted malware214 using a Firefox browser exploit on a Tor website. This exploit allowed them to reveal details of some users. More recently, there was the notable SolarWinds215 hack that breached several US government institutions by inserting malware into an official software update server.

In some countries, Malware is just mandatory and/or distributed by the state itself. This is the case for instance in China with WeChat216 which can then be used in combination with other data for state surveillance217.

There are countless examples of malicious browser extensions, smartphone apps, and various apps that have been infiltrated with malware over the years.

Here are some steps to mitigate this type of attack:

To reflect these recommendations, this guide will therefore later guide you in the use of Virtualization (See Appendix W: Virtualization) so that even if your Browser/Apps get compromised by a skilled adversary, that adversary will find himself stuck in a sandbox218 without being able to access identifying information or compromise your system.

Malicious USB devices:

There are readily available commercial and cheap “badUSB” 219devices that can take deploy malware, log your typing, geolocate you, listen to you or gain control of your laptop just by plugging them in. Here are some examples that you can already buy yourself:

Such devices can be implanted anywhere (charging cable, mouse, keyboard, USB key …) by an adversary and can be used to track you or compromise your computer or smartphone. The most notable example of such attacks is probably Stuxnet220 in 2005.

While you could inspect a USB key physically, scan it with various utilities, check the various components to see if they are genuine, you will most likely never be able to discover complex malware embedded in genuine parts of a genuine USB key by a skilled adversary without advanced forensics equipment221.

To mitigate this, you should never trust such devices and plug them into sensitive equipment. If you use a charging device, you should consider the use of a USB data blocking device that will only allow charging but not any data transfer. Such data blocking devices are now readily available in many online shops. You should also consider disabling USB ports completely within the BIOS of your computer unless you need them (if you can).

Malware and backdoors in your Hardware Firmware and Operating System:

This might sound a bit familiar as this was already partially covered previously in the Your CPU section.

Malware and backdoors can be embedded directly into your hardware components. Sometimes those backdoors are implemented by the manufacturer itself such as the IME in the case of Intel CPUs. And in other cases, such backdoors can be implemented by a third party that places itself between orders of new hardware and customer delivery222.

Such malware and backdoors can also be deployed by an adversary using software exploits. Many of those are called rootkits223 within the tech world. Usually, these types of malware are harder to detect and mitigate as they are implemented at a lower level than the userspace224 and often in the firmware225 of hardware components itself.

What is firmware? Firmware is a low-level operating system for devices. Each component in your computer probably has firmware including for instance your disk drives. The BIOS226/UEFI227 system of your machine for instance is a type of firmware.

These can allow remote management and are capable of enabling full control of a target system silently and stealthily.

As mentioned previously, these are harder to detect by users but some limited steps that can be taken to mitigate some of those by protecting your device from tampering and use some measures (like re-flashing the bios for example). Unfortunately, if such malware or backdoor is implemented by the manufacturer itself, it becomes extremely difficult to detect and disable those.

Your files, documents, pictures, and videos:

Properties and Metadata:

This can be obvious to many but not to all. Most files have metadata attached to them. Good examples are pictures that store EXIF228 information which can hold a lot of information such as GPS coordinates, which camera/phone model took it, and when it was taken precisely. While this information might not directly give out who you are, it could tell exactly where you were at a certain moment which could allow others to use various sources to find you (CCTV or other footage taken at the same place at the same time during a protest for instance). You must verify any file you would put on those platforms for any properties that might hold any information that might lead back to you.

Here is an example of EXIF data that could be on a picture:

[][133]

(Illustration from Wikipedia)

This also works for videos. Yes, videos too have geo-tagging, and many are very unaware of this. Here Is for instance a very convenient tool to geo-locate YouTube videos: https://mattw.io/youtube-geofind/location [Archive.org]

For this reason, you will always have to be incredibly careful when uploading files using your anonymous identities and check the metadata of those files.

Even if you publish a plain text file, you should always double or triple-check it for any information leakage before publishing. You will find some guidance about this in the Some additional measures against forensics section at the end of the guide.

Watermarking:

Pictures/Videos/Audio:

Pictures/Videos often contain visible watermarks indicating who is the owner/creator but there are also invisible watermarks in various products aiming at identifying the viewer itself.

So, if you are a whistleblower and thinking about leaking some picture/audio/video file. Think twice. There are chances that those might contain invisible watermarking within them that would include information about you as a viewer. Such watermarks can be enabled with a simple switch in like Zoom (Video229 or Audio230) or with extensions231 for popular apps such as Adobe Premiere Pro. These can be inserted by various content management systems.

For a recent example where someone leaking a Zoom meeting recording was caught because it was watermarked: https://theintercept.com/2021/01/18/leak-zoom-meeting/ [Tor Mirror] [Archive.org]

Such watermarks can be inserted by various products232233234235 using Steganography236 and can resist compression237 and re-encoding238239.

These watermarks are not easily detectable and could allow identification of the source despite all efforts.

In addition to watermarks, the camera used for filming (and therefore the device used for filming) a video can also be identified using various techniques such as lens identification240 which could lead to de-anonymization.

Be extremely careful when publishing videos/pictures/audio files from known commercial platforms as they might contain such invisible watermarks in addition to details in the images themselves. There is no guaranteed 100% protection against those. You will have to use common sense.

Printing Watermarking:

Did you know your printer is most likely spying on you too? Even if it is not connected to any network? This is usually a known fact by many people in the IT community but few outside people.

Yes … Your printers can be used to de-anonymize you as well as explained by the EFF here https://www.eff.org/issues/printers [Archive.org]

With this (old but still relevant) video explaining how from the EFF as well: https://www.youtube.com/watch?v=izMGMsIZK4U [Invidious]

Many printers will print an invisible watermark allowing for identification of the printer on every printed page. This is called Printer Steganography241. There is no tangible way to mitigate this but to inform yourself on your printer and make sure it does not print any invisible watermark. This is important if you intend to print anonymously.

Here is an (old but still relevant) list of printers and brands who do not print such tracking dots provided by the EFF https://www.eff.org/pages/list-printers-which-do-or-do-not-display-tracking-dots [Archive.org]

Here are also some tips from the Whonix documentation (https://www.whonix.org/wiki/Printing_and_Scanning [Archive.org]):

Do not ever print in Color, usually, watermarks are not present without color toners/cartridges242.

Pixelized or Blurred Information:

Did you ever see a document with blurred text? Did you ever make fun of those movies/series where they “enhance” an image to recover seemingly impossible-to-read information?

Well, there are techniques for recovering information from such documents, videos, and pictures.

Here is for example an open-source project you could use yourself for recovering text from some blurred images yourself: https://github.com/beurtschipper/Depix [Archive.org]

image14
image14

This is of course an open-source project available for all to use. But you can imagine that such techniques have probably been used before by other adversaries. These could be used to reveal blurred information from published documents that could then be used to de-anonymize you.

There are also tutorials for using such techniques using Photo Editing tools such as GIMP such as https://medium.com/@somdevsangwan/unblurring-images-for-osint-and-more-part-1-5ee36db6a70b [Archive.org] followed by https://medium.com/@somdevsangwan/deblurring-images-for-osint-part-2-ba564af8eb5d [Scribe.rip] [Archive.org]

image15
image15

Finally, you will find plenty of deblurring resources here: https://github.com/subeeshvasu/Awesome-Deblurring [Archive.org]

Some online services could even help you do this automatically to some extent like MyHeritage.com enhance tool:

https://www.myheritage.com/photo-enhancer [Archive.org]

Here is the result of the above image:

image16
image16

Of course, this tool is more like “guessing” than really deblurring at this point, but it could be enough to find you using various reverse image searching services.

There are also techniques to deblur/depixelate parts in videos: see https://positive.security/blog/video-depixelation [Archive.org]

For this reason, it is always extremely important that you correctly redact and curate any document you might want to publish. Blurring is not enough, and you should always completely blacken/remove any sensitive data to avoid any attempt at recovering data from any adversary. Do not pixelized, do not blur, just put a hard black rectangle to redact information.

Your Cryptocurrencies transactions:

Contrary to widespread belief, Crypto transactions (such as Bitcoin and Ethereum) are not anonymous243. Most cryptocurrencies can be tracked accurately through various methods244245.

Remember what they say on their page: https://bitcoin.org/en/you-need-to-know [Archive.org] and https://bitcoin.org/en/protect-your-privacy [Archive.org]: “Bitcoin is not anonymous”

The main issue is not setting up a random Crypto wallet to receive some currency behind a VPN/Tor address (at this point, the wallet is anonymous). The issue is mainly when you want to convert Fiat money (Euros, Dollars …) to Crypto and then when you want to cash in your Crypto. You will have few realistic options but to transfer those to an exchange (such as Coinbase/Kraken/Bitstamp/Binance). Those exchanges have known wallet addresses and will keep detailed logs (due to KYC246 financial regulations) and can then trace back those crypto transactions to you using the financial system247.

There are some cryptocurrencies with privacy/anonymity in mind like Monero but even those have some and warnings to consider248249.

Use of “private” mixers, tumblers250 (centralized services that specialize in “anonymizing” cryptocurrencies by “mixing them”) and coinjoiners are risky as you don’t know what’s happening on them251 and can be trivially de-mixed252. Their centrally-controlled nature could also put you in trouble as they are more susceptible to money-laundering laws253.

This does not mean you cannot use Bitcoin anonymously at all. You can actually use Bitcoin anonymously as long as you do not convert it to actual currency, use a Bitcoin wallet from a safe anonymous network, and do not reuse addresses or consolidate outputs that were used when spending at different merchants. Meaning you should avoid KYC/AML regulations by various exchanges, avoid using the Bitcoin network from any known IP address, and use a wallet that provides privacy-preserving tools. See Appendix Z: Online anonymous payments using cryptocurrencies.

Overall, the best option for using Crypto with reasonable anonymity and privacy is still Monero and you should ideally not use any other for sensitive transactions unless you are aware of the limitations and risks involved. Please do read Appendix B2: Monero Disclaimer.

TLDR: Use Monero!

Your Cloud backups/sync services:

All companies are advertising their use of end-to-end encryption (E2EE). This is true for almost every messaging app and website (HTTPS). Apple and Google are advertising their use of encryption on their Android devices and their iPhones.

But what about your backups? Those automated iCloud/Google Drive backups you have?

Well, you should know that most of those backups are not fully end-to-end encrypted and will hold some of your information readily available for a third party. You will see their claims that data is encrypted at rest and safe from anyone … Except they usually do keep a key to access some of the data themselves. These keys are used for them indexing your content, recover your account, collecting various analytics.

There are specialized commercial forensics solutions available (Magnet Axiom254, Cellebrite Cloud255) that will help an adversary analyze your cloud data with ease.

Notable Examples:

You should not trust cloud providers with your (not previously and locally encrypted) sensitive data and you should be wary of their privacy claims. In most cases, they can access your data and provide it to a third party if they want to256.

The only way to mitigate this is to encrypt your data on your side and then only upload it to such services or just not use them at all.

Your Browser and Device Fingerprints:

Your Browser and Device Fingerprints257 are a set of properties/capabilities of your System/Browser. These are used on most websites for invisible user tracking but also to adapt the website user experience depending on their browser. For instance, websites will be able to provide a “mobile experience” if you are using a mobile browser or propose a specific language/geographic version depending on your fingerprint. Most of those techniques work with recent Browsers like Chromium-based258 browsers (such as Chrome/Edge) or Firefox259 unless taking specific measures. Browser and Device260 Fingerprinting are usually integrated into the Captcha services but also in other various services.

We will address Browser and Device Fingerprinting further down but this is a basic introduction to the methodology behind it and why it is used in practice.

It should also be noted that while some browsers and extensions will offer some fingerprint resistance, this resistance in itself can also be used to fingerprint you as explained here https://palant.info/2020/12/10/how-anti-fingerprinting-extensions-tend-to-make-fingerprinting-easier/ [Archive.org]

This guide will mitigate these issues by randomizing or hiding many of those fingerprinting identifiers by:

Microarchitectural Side-channel Deanonymization Attacks:

There was an attack published that can deanonymize users if they have a known alias. For example, an attacker trying to track the activities of a journalist can use that journalist’s public Twitter handle to link their anonymous identities with their public one. This breaks compartmentalization of identities and can lead to complete deanonymization, even of users who practice proper OPSEC.

The attack, published at https://leakuidatorplusteam.github.io/ [Archive.org], can be mitigated using the well-known NoScript extension and will be our preferred recommendation.

One loosely documented attack might take the following approach to fingerprinting: Alice is browsing the web using Firefox. The website she has just visited is using an invisible iframe that creates long strings, e.g., sentences or hashes, to produce some non-user-viewable string. These strings are setting a certain font type, Arial. Whether the browser renders this is non-essential, it only matters if the font changes. The iframe in this case serves no purpose but to identify whether a user has installed a certain font on their machine. If Alice is using a font that this frame has tried to render, then it is reported back to the website and to the person in control of the website.

The font renders a box with a specific height and width around itself, so that means a specific height and width of the text contained within. The iframe keeps doing this for each installed font to create a list of installed fonts for Alice. Because of stylistic differences between each font family, the same string and the same font size will add up to a different height and a different width than Arial. It is used as a fallback font to display text that won’t display otherwise, in the case of a user not having that font on their machine and thus non-viewable from their browser.

If a font requested by an iframe is not available, Arial will be used to show that text to the user. Every time the font measurement (identified by the dimensions of the box produced) changed, it means the font is present on Alice’s browser and her machine. By doing this for hundreds of fonts, websites can use this information to track users using their installed fonts across websites. Imagine a website then selling this “anonymized” information as a dataset to advertisement companies to serve you ads based on the websites you visit, because they know every font you have installed on your machine and can now track your identity across the internet. This attack is demonstrated here: Everything you always wanted to know about web-based device fingerprinting (but were afraid to ask) by Dr. Nick Nikiforakis, PhD in Computer Science from KU Leuven. He explains how his team of researchers identified which sites were using such techniques on Alexa’s top 10,000 websites. Primarily, they found that of those, 145 were fingerprinting browsers. They were fingerprinted 100% of the time — whether they were using the Do Not Track header, a popular Privacy & Security setting in many browsers, did not matter.

Attacks such as invisible iframes and media elements can be avoided by blocking all scripts globally by using something like uBlock Origin https://chrome.google.com/webstore/detail/ublock-origin/cjpalhdlnbpafiamejdnhcphjbkeiagm or by using NoScript https://chrome.google.com/webstore/detail/noscript/doojmbjmlfjjnbmnoijecmcbfeoakpjm. This is highly encouraged, not only to those wishing to be anonymous, but also to general web users.

Tor Browser:

Note: This attack is now prevented by default by an update of NoScript (11.4.8 and above) on all security levels in Tor Browser.

All others:

Installing the NoScript extension will prevent the attack by default only in private Windows using their new “TabGuard feature”. But can be enabled in the NoScript options to work on all Windows. See:

Alternative to NoScript for all other browsers:

The researches who disclosed the issue also made an extension available below. Again, nothing is required in Tor Browser. This path is not our preferred path but is still available if you do not want to use NoScript.

Separating identities via separate browsers or even with VMs is not enough to avoid this attack. However, another solution is to make sure that when you start working with an anonymous identity, you entirely close all activities linked to other identities. The vulnerability only works if you’re actively logged into a non-anonymous identity. The issue with this is that it can hinder effective workflow, as multitasking across multiple identities becomes impossible.

Local Data Leaks and Forensics:

Most of you have probably seen enough Crime dramas on Netflix or TV to know what forensics are. These are technicians (usually working for law enforcement) that will perform various analysis of evidence. This of course could include your smartphone or laptop.

While these might be done by an adversary when you already got “burned”, these might also be done randomly during a routine control or a border check. These unrelated checks might reveal secret information to adversaries that had no prior knowledge of such activities.

Forensics techniques are now very advanced and can reveal a staggering amount of information from your devices even if they are encrypted261. These techniques are widely used by law enforcement all over the world and should be considered.

Here are some recent resources you should read about your smartphone:

I also highly recommend that you read some documents from a forensics examiner perspective such as:

And finally, here is this very instructive detailed paper on the current state of IOS/Android security from the John Hopkins University: https://securephones.io/main.html262.

When it comes to your laptop, the forensics techniques are many and widespread. Many of those issues can be mitigated by using full disk encryption, virtualization (See Appendix W: Virtualization), and compartmentalization. This guide will later detail such threats and techniques to mitigate them.

Bad Cryptography:

There is a frequent adage among the infosec community: “Don’t roll your own crypto!”.

And there are reasons263264265266 for that:

We would not want people discouraged from studying and innovating in the crypto field because of that adage. So instead, we would recommend people to be cautious with “Roll your own crypto” because it is not necessarily good crypto:

Yet, this is not stopping some from doing it anyway and publishing various production Apps/Services using their self-made cryptography or proprietary closed-source methods:

Cryptography is a complex topic and bad cryptography could easily lead to your de-anonymization.

In the context of this guide,we recommend sticking to Apps/Services using well-established, published, and peer-reviewed methods.

So, what to prefer and what to avoid as of 2021? You will have to look up for yourself to get the technical details of each app and see if they are using “bad crypto” or “good crypto”. Once you get the technical details, you could check this page for seeing what it is worth: https://latacora.micro.blog/2018/04/03/cryptographic-right-answers.html [Archive.org]

Here are some examples:

Here are some real cases of issues bad cryptography:

Later this guide will not recommend “bad cryptography” and that should hopefully be enough to protect you?

No logging but logging anyway policies:

Many people have the idea that privacy-oriented services such as VPN or E-Mail providers are safe due to their no-logging policies or their encryption schemes. Unfortunately, many of those same people forget that all those providers are legal commercial entities subject to the laws of the countries in which they operate.

Any of those providers can be forced to silently (without your knowing (using for example a court order with a gag order280 or a national security letter281) log your activity to de-anonymize you. There have been several recent examples of those:

Some providers have implemented the use of a Warrant Canary290 that would allow their users to find out if they have been compromised by such orders, but this has not been tested yet as far as we know.

Finally, it is now well known that some companies might be sponsored front ends for some state adversaries (see the Crypto AG story291 and Omnisec story292).

For these reasons, you mustn’t trust such providers for your privacy despite all their claims. In most cases, you will be the last person to know if any of your accounts were targeted by such orders and you might never know at all.

To mitigate this, in cases where you want to use a VPN, we will recommend the use of a cash/Monero-paid VPN provider over Tor to prevent the VPN service from knowing any identifiable information about you.

If the VPN provider knows nothing about you, it should mitigate any issue due to them not logging but logging anyway.

Some Advanced targeted techniques:

image17
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(Illustration: an excellent movie we highly recommend: Das Leben der Anderen293)

Many advanced techniques can be used by skilled adversaries294 to bypass your security measures provided they already know where your devices are. Many of those techniques are detailed here https://cyber.bgu.ac.il/advanced-cyber/airgap [Archive.org] (Air-Gap Research Page, Cyber-Security Research Center, Ben-Gurion University of the Negev, Israel) but also in this report https://www.welivesecurity.com/wp-content/uploads/2021/12/eset_jumping_the_air_gap_wp.pdf [Archive.org] (ESET, JUMPING THE AIR GAP: 15 years of nation-state effort) and include:

Here is also a good video from the same authors to explain those topics: Black Hat, The Air-Gap Jumpers https://www.youtube.com/watch?v=YKRtFgunyj4 [Invidious]

Realistically, this guide will be of little help against such adversaries as such malware could be implanted on the devices by a manufacturer, anyone in the middle300, or by anyone with physical access to the air-gapped computer but there are still some ways to mitigate such techniques:

Some bonus resources:

Notes:

If you still do not think such information can be used by various actors to track you, you can see some statistics for yourself for some platforms and keep in mind those are only accounting for the lawful data requests and will not count things like PRISM, MUSCULAR, SORM or XKEYSCORE explained earlier:

General Preparations:

Personally, in the context of this guide, it is also interesting to have a look at your security model. And in this context,we only have one to recommend:

Zero-Trust Security301 (“Never trust, always verify”).

Here are some various resources about what Zero-Trust Security is:

Picking your route:

First, here is a small basic UML diagram showing your available options according to your skills/budget/time/resources.

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Timing limitations:

Budget/Material limitations:

The general advice in this guide regarding virtualization software is that it’s costly. That said, you should probably get a dedicated laptop, capable of running virtualization software, preferably a 64-bit architecture, to be used for more sensitive activities and testing.

Skills:

Adversarial considerations:

Now that you know what is possible, you should also consider threats and adversaries before picking the right route.

Threats:

Adversaries:

In all cases, you should read these two pages from the Whonix documentation that will give you in-depth insight into your choices:

You might be asking yourself: “How do I know if I’m in a hostile online environment where activities are actively monitored and blocked?”

Steps for all routes:

Getting used to using better passwords:

See Appendix A2: Guidelines for passwords and passphrases.

Getting an anonymous Phone number:

Skip this step if you have no intention of creating anonymous accounts on most mainstream platforms but just want anonymous browsing or if the platforms you will use allow registration without a phone number.

Physical Burner Phone and prepaid SIM card:

Get a burner phone:

This is rather easy. Leave your smartphone on and at home. Have some cash and go to some random flea market or small shop (ideally one without CCTV inside or outside and while avoiding being photographed/filmed) and just buy the cheapest phone you can find with cash and without providing any personal information. It only needs to be in working order.

A note regarding your current phone: The point of leaving your smartphone on is to create avoid leaking the fact that you’re not using the device. If a smartphone is turned off, this creates a metadata trail that can be used to correlate the time your smartphone was turned off with the activation of your burner. If possible, leave your phone doing something (for example, watching YouTube on auto-play) to obscure the metadata trail further. This will not make it impossible to correlate your inactivity, but may make it more difficult if your phone’s usage patterns can look convincing while you buy your burner.

We would recommend getting an old “dumbphone” with a removable battery (old Nokia if your mobile networks still allow those to connect as some countries phased out 1G-2G completely). This is to avoid the automatic sending/gathering of any telemetry/diagnostic data on the phone itself. You should never connect that phone to any Wi-Fi.

Site Note: Be careful of some sellers as shown here https://therecord.media/malware-found-preinstalled-in-classic-push-button-phones-sold-in-russia/ [Archive.org]

It will also be crucial not to power on that burner phone ever (not even without the SIM card) in any geographical location that could lead to you (at your home/work for instance) and never at the same location as your other known smartphone (because that one has an IMEI/IMSI that will easily lead to you). This might seem like a big burden, but it is not as these phones are only being used during the setup/sign-up process and for verification from time to time.

See Appendix N: Warning about smartphones and smart devices

You should test that the phone is in working order before going to the next step. But we will repeat ourselves and state that it is important to leave your smartphone at home when going (or turn it off before leaving if you must keep it) and that you test the phone at a random location that cannot be tracked back to you (and again, do not do that in front of a CCTV, avoid cameras, be aware of your surroundings). No need for Wi-Fi at this place either.

When you are certain the phone is in working order, disable Bluetooth then power it off (remove the battery if you can) and go back home and resume your normal activities. Go to the next step.

Getting an anonymous pre-paid SIM card:

This is the hardest part of the whole guide. It is a SPOF (Single Point of Failure). The places where you can still buy prepaid SIM cards without ID registration are getting increasingly limited due to various KYC type regulations308.

So here is a list of places where you can still get them now: https://prepaid-data-sim-card.fandom.com/wiki/Registration_Policies_Per_Country [Archive.org]

You should be able to find a place that is “not too far” and just go there physically to buy some pre-paid cards and top-up vouchers with cash. Do verify that no law was passed before going that would make registration mandatory (in case the above wiki was not updated). Try to avoid CCTV and cameras and do not forget to buy a Top-Up voucher with the SIM card (if it is not a package) as most pre-paid cards will require a top-up before use.

See Appendix N: Warning about smartphones and smart devices

Double-check that the mobile operators selling the pre-paid SIM cards will accept the SIM activation and top-up without any ID registration of any kind before going there. Ideally, they should accept SIM activation and top-up from the country you live in.

We would recommend GiffGaff in the UK as they are “affordable”, do not require identification for activation and top-up, and will even allow you to change your number up to two times from their website. One GiffGaff prepaid SIM card will therefore grant you three numbers to use for your needs.

Power off the phone after activation/top-up and before going home. Do not ever power it on again unless you are not at a place that can be used to reveal your identity and ideally leave your real phone on but at home before going to the safe place with only your burner phone.

Online Phone Number:

DISCLAIMER: Do not attempt this until you are done setting up a secure environment according to one of the selected routes. This step will require online access and should only be done from an anonymous network. Do not do this from any known/unsecured environment. Skip this until you have finished one of the routes.

There are many commercial services offering numbers to receive SMS messages online but most of those have no anonymity/privacy and can be of no help as most Social Media platforms place a limit on how many times a phone number can be used for registration.

There are some forums and subreddits (like r/phoneverification/) where users will offer the service of receiving such SMS messages for you for a small fee (using PayPal or some crypto payment). Unfortunately, these are full of scammers and very risky in terms of anonymity. You should not use those under any circumstance.

To this date, we do not know any reputable service that would offer this service and accept cash payments (by post for instance) like some VPN providers. But a few services are providing online phone numbers and do accept Monero which could be reasonably anonymous (yet less recommended than that physical way in the earlier chapter) that you could consider:

There are some other possibilities listed here https://cryptwerk.com/companies/sms/xmr/ [Archive.org]. Use at your own risk.

Now, what if you have no money? Well, in that case, you will have to try your luck with free services and hope for the best. Here are some examples, use at your own risk:

Disclaimer: We cannot vouch for any of these providers. We recommend doing it yourself physically. In this case, you will have to rely on the anonymity of Monero and you should not use any service that requires any kind of identification using your real identity. Please do read Appendix B2: Monero Disclaimer.

It is more convenient, cheaper, and less risky to just get a pre-paid SIM card from one of the physical places that still sell them for cash without ID.

Get a USB key:

Skip this step if you have no intention of creating anonymous accounts on most mainstream platforms, but you will want anonymous browsing; or if the platforms which you will use allow registration without a phone number.

Get at least one or two decent size generic USB keys (at least 16GB but we would recommend 32GB).

Please do not buy or use gimmicky self-encrypting devices such as these: https://syscall.eu/blog/2018/03/12/aigo_part1/ [Archive.org]

Some might be very efficient309 but many are gimmicky gadgets that offer no real protection310.

Find some safe places with decent public Wi-Fi:

You need to find safe places where you will be able to do your sensitive activities using some publicly accessible Wi-Fi (without any account/ID registration, avoid CCTVs).

This can be anywhere that will not be tied to you directly (your home/work) and where you can use the Wi-Fi for a while without being bothered. But also, a place where you can do this without being “noticed” by anyone.

If you think Starbucks is a clever idea, you may reconsider:

Situational awareness is key, and you should be constantly aware of your surroundings and avoid touristy places like it was plagued by Ebola. You want to avoid appearing on any picture/video of anyone while someone is taking a selfie, making a TikTok video, or posting some travel pictures on their Instagram. If you do, remember chances are high that those pictures will end up online (publicly or privately) with full metadata attached to them (time/date/geolocation) and your face. Remember these can and will be indexed by Facebook/Google/Yandex/Apple and probably all three letters’ agencies.

While this will not be available yet to your local police officers, it could be in the near future.

You will ideally need a set of 3-5 separate places such as this to avoid using the same place twice. Several trips will be needed over the weeks for the various steps in this guide.

You could also consider connecting to these places from a safe distance for added security. See Appendix Q: Using long-range Antenna to connect to Public Wi-Fis from a safe distance.

The Tor Browser route:

This part of the guide will help you in setting up the simplest and easiest way to browse the web anonymously. It is not necessarily the best method and there are more advanced methods below with (much) better security and (much) better mitigations against various adversaries. Yet, this is a straightforward way of accessing resources anonymously and quickly with no budget, no time, no skills, and limited usage.

So, what is Tor Browser? Tor Browser (https://www.torproject.org/ [Archive.org]) is a web browser like Safari/Firefox/Chrome/Edge/Brave designed with privacy and anonymity in mind.

This browser is different from other browsers as it will connect to the internet through the Tor Network using Onion Routing. We first recommend that you watch this very nice introduction video by the Tor Project themselves: https://www.youtube.com/watch?v=JWII85UlzKw [Invidious]. After that, you should probably head over to their page to read their quick overview here: https://2019.www.torproject.org/about/overview.html.en [Archive.org]. Without going into too many technical details, Tor Browser is an easy and simple “fire and forget” solution to browse the web anonymously from pretty much any device. It is probably sufficient for most people and can be used from any computer or smartphone.

Here are several ways to set it up for all main OSes.

Warning: You should avoid installing extensions in Tor Browser, as they can be used to fingerprint and identify you.

Windows, Linux, and macOS:

Please see Appendix Y: Installing and using desktop Tor Browser.

Android:

Note on Tor Browser for Android: The development of Tor Browser for Android is behind desktop Tor Browser Bundle (TBB). Some features are not available yet. E.g., the desktop version of Tor now enables automatic bridges using Moat:

Connection Assist works by looking up and downloading an up-to-date list of country-specific options to try using your location (with your consent). It manages to do so without needing to connect to the Tor Network first by utilizing moat – the same domain-fronting tool that Tor Browser uses to request a bridge from torproject.org.”

Personally, if you need to use a Bridge (this is not necessary for a non-hostile environment), you should pick a Meek-Azure. Those will probably work even if you are in China and want to bypass the Great Firewall. It is probably the best option to obfuscate your Tor activities if needed and Microsoft servers are usually not blocked.

Only available for Desktop Tor users: Recently, the Tor Project has made it incredibly simple to access Bridges with Connection Assist, and it is now automatically done in hostile or censored regions. Simply open the Tor Browser and the connection will be configured based on your needs on any hostile network. Previously, we had a list of options below this paragraph which were necessary to enable and configure bridges, but now that this is done automatically using moat. [Archive.org]

As with the desktop version, you need to know there are safety levels in Tor Browser. On Android, you can access these by following these steps:

You will find details about each level here: https://tb-manual.torproject.org/security-settings/ [Archive.org] but here is a summary:

We would recommend the “Safer” level for most cases. The Safest level should be enabled if you think you are accessing suspicious or dangerous websites and/or if you are extra paranoid.

If you are extra paranoid, use the “Safest” level by default and consider downgrading to Safer is the website is unusable because of Javascript blocking.

However, the Safer level should be used with some extra precautions while using some websites: see Appendix A5: Additional browser precautions with JavaScript enabled.

Now, you are really done, and you can now surf the web anonymously from your Android device.

Please see Warning for using Orbot on Android.

iOS:

Disclaimer: Onion Browser, following a 2018 release on iOS, has had IP leaks via WebRTC. It is still the only officially endorsed browser for the Tor network for iOS. Users should exercise caution when using the browser and check for any DNS leaks.

While the official Tor Browser is not yet available for iOS, there is an alternative called Onion Browser endorsed by the Tor Project311.

Personally, if you need to use a Bridge (this is not necessary for a non-hostile environment), you should pick a Snowflake one (since Meek-Azure bridges are not available). Those will probably work even if you are in China and want to bypass the Great Firewall. It is probably the best option you have on iOS.

As with the desktop version, you need to know there are safety levels in Onion Browser. On iOS, you can access these by following these steps:

We would recommend the “Silver” level for most cases. The Gold level should only be enabled if you think you are accessing suspicious or dangerous websites or if you are extra paranoid. The Gold mode will also most likely break many websites that rely actively on JavaScript.

As JavaScript is enabled in the Silver mode, please see Appendix A5: Additional browser precautions with JavaScript enabled.

Now, you are really done, and you can now surf the web anonymously from your iOS device.

Important Warning:

This route is the easiest but is not designed to resist highly skilled adversaries. It is however usable on any device regardless of the configuration. This route is also vulnerable to correlation attacks (See Your Anonymized Tor/VPN traffic) and is blind to anything that might be on your device (this could be any malware, exploit, virus, remote administration software, parental controls…). Yet, if your threat model is quite low, it is probably sufficient for most people.

If you have time and want to learn, we recommend going for other routes instead as they offer far better security and mitigate far more risks while lowering your attack surface considerably.

The Tails route:

This part of the guide will help you in setting up Tails if one of the following is true:

Tails312 stands for The Amnesic Incognito Live System. It is a bootable Live Operating System running from a USB key that is designed for leaving no traces and forcing all connections through the Tor network.

You insert the Tails USB key into your laptop, boot from it and you have a full operating system running with privacy and anonymity in mind. As soon as you shut down the computer, everything will be gone unless you saved it somewhere.

Tails is an amazingly straightforward way to get going in no time with what you have and without much learning. It has extensive documentation and tutorials.

WARNING: Tails is not always up to date with their bundled software. And not always up to date with the Tor Browser updates either. You should always make sure you are using the latest version of Tails and you should use extreme caution when using bundled apps within Tails that might be vulnerable to exploits and reveal your location313.

It does however have some drawbacks:

Important Note: If your laptop is monitored/supervised and some local restrictions are in place, please read Appendix U: How to bypass (some) local restrictions on supervised computers.

You should also read Tails Documentation, Warnings, and limitations, before going further https://tails.boum.org/doc/about/warnings/index.en.html [Archive.org]

Taking all this into account and the fact that their documentation is great, we will just redirect you towards their well-made and well-maintained tutorial:

https://tails.boum.org/install/index.en.html [Archive.org], pick your flavor and proceed.

If you’re having an issue accessing Tor due to censorship or other issues, you can try using Tor Bridges by following this Tails tutorial: https://tails.boum.org/doc/anonymous_internet/tor/index.en.html [Archive.org] and find more information about these on Tor Documentation https://2019.www.torproject.org/docs/bridges [Archive.org]

If you think using Tor alone is dangerous/suspicious, see Appendix P: Accessing the internet as safely as possible when Tor/VPN is not an option

Tor Browser settings on Tails:

When using Tor Browser, you should click the little shield Icon (upper right, next to the Address bar) and select your Security level (see https://tb-manual.torproject.org/security-settings/ [Archive.org] for details). Basically, there are three.

We would recommend the “Safer” level for most cases. The Safest level should be enabled if you think you are accessing suspicious or dangerous websites or if you are extra paranoid. The Safest mode will also most likely break many websites that rely actively on JavaScript.

If you are extra paranoid, use the “Safest” level by default and consider downgrading to Safer is the website is unusable because of Javascript blocking.

Lastly, while using Tor Browser on Tails on the “Safer” level, please consider Appendix A5: Additional browser precautions with JavaScript enabled

When you are done and have a working Tails on your laptop, go to the Creating your anonymous online identities step much further in this guide or if you want persistence and plausible deniability, continue with the next section.

Persistent Plausible Deniability using Whonix within Tails:

Consider checking the https://github.com/aforensics/HiddenVM [Archive.org] project for Tails.

This project is a clever idea of a one-click self-contained VM solution that you could store on an encrypted disk using plausible deniability315 (see The Whonix route: first chapters and also for some explanations about Plausible deniability, as well as the How to securely delete specific files/folders/data on your HDD/SSD and Thumb drives: section at the end of this guide for more understanding).

This would allow the creation of a hybrid system mixing Tails with the Virtualization options of the Whonix route in this guide.

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Note: See Pick your connectivity method in the Whonix Route for more explanations about Stream Isolation

In short:

In that case, as the project outlines it, there should be no traces of any of your activities on your computer and the sensitive work could be done from VMs stored into a Hidden container that should not be easily discoverable by a soft adversary.

This option is particularly interesting for “traveling light” and to mitigate forensics attacks while keeping persistence on your work. You only need 2 USB keys (one with Tails and one with a Veracrypt container containing persistent Whonix). The first USB key will appear to contain just Tails and the second USB will appear to contain just random garbage but will have a decoy volume which you can show for plausible deniability.

You might also wonder if this will result in a “Tor over Tor” setup, but it will not. The Whonix VMs will be accessing the network directly through clearnet and not through Tails Onion Routing.

In the future, this could also be supported by the Whonix project themselves as explained here: https://www.whonix.org/wiki/Whonix-Host [Archive.org] but it is not yet recommended as of now for end-users.

Remember that encryption with or without plausible deniability is not a silver bullet and will be of little use in case of torture. As a matter a fact, depending on who your adversary would be (your threat model), it might be wise not to use Veracrypt (formerly TrueCrypt) at all as shown in this demonstration: https://defuse.ca/truecrypt-plausible-deniability-useless-by-game-theory.htm [Archive.org]

Plausible deniability is only effective against soft lawful adversaries that will not resort to physical means.

See https://en.wikipedia.org/wiki/Rubber-hose_cryptanalysis [Wikiless] [Archive.org]

CAUTION: Please see Appendix K: Considerations for using external SSD drives and Understanding HDD vs SSD sections if you consider storing such hidden VMs on an external SSD drive:

Here is my guide on how to achieve this:

First Run:

Note, if during the import you are having issues such as “NS_ERROR_INVALID_ARG (0x80070057)”, this is probably because there is not enough disk space on your Hidden volume for Whonix. Whonix themselves recommend 32GB of free space but that’s probably not necessary and 10GB should be enough for a start. You can try working around this error by renaming the Whonix .OVA file to .TAR and decompressing it within Tails. When you are done with decompression, delete the OVA file and import the other files with the Import wizard. This time it might work.

Subsequent Runs:

Steps for all other routes:

Get a dedicated laptop for your sensitive activities:

Ideally, you should get a dedicated laptop that will not be tied to you in any effortless way (ideally paid with cash anonymously and using the same precautions as previously mentioned for the phone and the SIM card). It is recommended but not mandatory. This guide will help you harden your laptop as much as possible to prevent data leaks through various means. There will be several lines of defense standing between your online identities and yourself which should prevent most adversaries from de-anonymizing you - besides state/global actors. It will take considerable resources.

This laptop should ideally be a clean, freshly installed laptop (running Windows, Linux, or macOS); which is clean of your normal day-to-day activities; and which is offline (never connected to your home network). In the case of a Windows laptop, and if you used it before such a clean install, it should also not be activated. Simply reinstall without a product key in the case that it came pre-activated. Specifically, in the case of MacBooks, it should never have been tied to your identity before in any means. So, buy secondhand with cash from an unknown stranger who does not know your identity.

This is to mitigate some future issues in case of online leaks (including telemetry from your OS or Apps) that could compromise any unique identifiers of the laptop while using it (MAC Address, Bluetooth Address, and Product key …). But also, to avoid being tracked back if you need to dispose of the laptop.

If you used this laptop before for different purposes (like your day-to-day activities), all its hardware identifiers are probably known and registered by Microsoft or Apple. If later any of those identifiers is compromised (by malware, telemetry, exploits, human errors …) they could lead back to you.

The laptop should have at least 250GB of Disk Space at least 6GB (ideally 8GB or 16GB) of RAM and should be able to run a couple of Virtual Machines at the same time. It should have a working battery that lasts a few hours. You should aim for something with large storage (1TB+) if possible because we will need as much as possible.

This laptop could have an HDD (7200rpm) or an SSD/NVMe drive. Both possibilities have their benefits and issues that will be detailed later.

All future online steps performed with this laptop should ideally be done from a safe network such as Public Wi-Fi in a safe place (see Find some safe places with decent public Wi-Fi). But several steps will have to be taken offline first.

Some laptop recommendations:

We would strongly recommend getting a “business grade” laptop (meaning not consumer/gaming-grade laptop) if you can. For instance, some ThinkPad from Lenovo (my personal favorite).

This is because those business laptops usually offer better and more customizable security features (especially in the BIOS/UEFI settings) with longer support than most consumer laptops (Asus, MSI, Gigabyte, Acer…). The interesting features to look for are:

Bios/UEFI/Firmware Settings of your laptop:

PC:

These settings can be accessed through the boot menu of your laptop. Here is a good tutorial from HP explaining all the ways to access the BIOS on various computers: https://store.hp.com/us/en/tech-takes/how-to-enter-bios-setup-windows-pcs [Archive.org]

Usually how to access it is by pressing a specific key (F1, F2, or Del) at boot (before your OS).

Once you are in there, you will need to apply a few recommended settings:

Only enable those on a “need to use” basis and disable them again after use. This can help mitigate some attacks in case your laptop is seized while locked but still on OR if you had to shut it down rather quickly and someone took possession of it (this topic will be explained later in this guide).

About Secure boot:

So, what is Secure Boot320? In short, it is a UEFI security feature designed to prevent your computer from booting an operating system from which the bootloader was not signed by specific keys stored in the UEFI firmware of your laptop.

When the operating system (or the Bootloader321) supports it, you can store the keys of your bootloader in your UEFI firmware, and this will prevent booting up any unauthorized Operating System (such as a live OS USB or anything similar).

Secure Boot settings are protected by the password you set up to access the BIOS/UEFI settings. If you have that password, you can disable Secure Boot and allow unsigned OSes to boot on your system. This can help mitigate some Evil-Maid attacks (explained later in this guide).

In most cases, Secure Boot is disabled by default or is enabled but in “setup” mode which will allow any system to boot. For Secure Boot to work, your Operating System will have to support it and then sign its bootloader and push those signing keys to your UEFI firmware. After that, you will have to go to your BIOS/UEFI settings and save those pushed keys from your OS and change the Secure Boot from setup to user mode (or custom mode in some cases).

After doing that step, only the Operating Systems from which your UEFI firmware can verify the integrity of the bootloader will be able to boot.

Most laptops will have some default keys already stored in the secure boot settings. Usually, those are from the manufacturer itself or some companies such as Microsoft. So, this means that by default, it will always be possible to boot some USB disks even with secure boot. These include Windows, Fedora, Ubuntu, Mint, Debian, CentOS, OpenSUSE, Tails, Clonezilla, and many others. Secure Boot is however not supported at all by Qubes OS at this point.

In some laptops, you can manage those keys and remove the ones you do not want with a “custom mode” to only authorize your bootloader that you could sign yourself if you want to.

So, what is Secure Boot protecting you from? It will protect your laptop from booting unsigned bootloaders (by the OS provider) with for instance injected malware.

What is Secure Boot not protecting you from?

Additionally, several attacks could be possible against Secure Boot as explained (in-depth) in these technical videos:

So, it can be useful as an added measure against some adversaries but not all. Secure Boot in itself is not encrypting your hard drive. It is an added layer but that is it.

I still recommend you keep it on if you can.

Mac:

Take a moment to set a firmware password according to the tutorial here: https://support.apple.com/en-au/HT204455 [Archive.org]

You should also enable firmware password reset protection (available from Catalina) according to the documentation here: https://support.apple.com/en-gb/guide/security/sec28382c9ca/web [Archive.org]

This feature will mitigate the possibility for some adversaries to use hardware hacks to disable/bypass your firmware password. Note that this will also prevent Apple themselves from accessing the firmware in case of repair.

Physically Tamper protect your laptop:

At some point, you will inevitably leave this laptop alone somewhere. You will not sleep with it and take it everywhere every single day. You should make it as hard as possible for anyone to tamper with it without you noticing it. This is mostly useful against some limited adversaries that will not use a 5$ wrench against you322.

It is important to know that it is trivially easy for some specialists to install a key logger in your laptop, or to just make a clone copy of your hard drive that could later allow them to detect the presence of encrypted data in it using forensic techniques (more on that later).

Here is a good cheap method to make your laptop tamper-proof using Nail Polish (with glitter) https://mullvad.net/en/help/how-tamper-protect-laptop/ [Archive.org] 323 (with pictures).

While this is a good cheap method, it could also raise suspicions as it is quite “noticeable” and might just reveal that you “have something to hide”. So, there are more subtle ways of achieving the same result. You could also for instance make a close-up macro photography of the back screws of your laptop or just use a small amount of candle wax within one of the screws that could just look like usual dirt. You could then check for tampering by comparing the photographs of the screws with new ones. Their orientation might have changed a bit if your adversary was not careful enough (Tightening them exactly the same way they were before). Or the wax within the bottom of a screw head might have been damaged compared to before.

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The same techniques can be used with USB ports where you could just put a tiny amount of candle wax within the plug that would be damaged by inserting a USB key in it.

In riskier environments, check your laptop for tampering before using it regularly.

The Whonix route:

Picking your Host OS (the OS installed on your laptop):

This route will make extensive use of Virtual Machines324, they will require a host OS to run the Virtualization software. You have three recommended choices in this part of the guide:

In addition, chances are high that your Mac is or has been tied to an Apple account (at the time of purchase or after signing-in) and therefore its unique hardware identifiers could lead back to you in case of hardware identifiers leak.

Linux is also not necessarily the best choice for anonymity depending on your threat model. This is because using Windows will allow us to conveniently use Plausible Deniability325 (aka Deniable Encryption326) easily at the OS level. Windows is also unfortunately at the same time a privacy nightmare327 but is the only easy to set up option for using OS-wide plausible deniability. Windows telemetry and telemetry blocking are also widely documented which should mitigate many issues.

So, what is Plausible Deniability? You can cooperate with an adversary requesting access to your device/data without revealing your true secret. All this using Deniable Encryption328.

A soft lawful adversary could ask for your encrypted laptop password. At first, you could refuse to give out any password (using your “right to remain silent”, “right not to incriminate yourself”) but some countries are implementing laws329330 to exempt this from such rights (because terrorists and “think of the children”). In that case, you might have to reveal the password or face jail time in contempt of court. This is where plausible deniability will come into play.

You could then reveal a password, but that password will only give access to “plausible data” (a decoy OS). The forensics will be well aware that it is possible for you to have hidden data but should not be able to prove this (if you do this right). You will have cooperated, and the investigators will have access to something but not what you actually want to hide. Since the burden of proof should lie on their side, they will have no options but to believe you unless they have proof that you have hidden data.

This feature can be used at the OS level (a plausible OS and a hidden OS) or at the files level where you will have an encrypted file container (similar to a zip file) where different files will be shown depending on the encryption password you use.

This also means you could set up your own advanced “plausible deniability” setup using any Host OS by storing for instance Virtual Machines on a Veracrypt hidden volume container (be careful of traces in the Host OS tho that would need to be cleaned if the host OS is persistent, see Some additional measures against forensics section later). There is a project for achieving this within Tails (https://github.com/aforensics/HiddenVM [Archive.org]) which would make your Host OS non-persistent and use plausible deniability within Tails.

In the case of Windows, plausible deniability is also the reason you should ideally have Windows 10/11 Home (and not Pro). This is because Windows 10/11 Pro natively offers a full-disk encryption system (Bitlocker331) where Windows 10/11 Home offers no full-disk encryption at all. You will later use third-party open-source software for encryption that will allow full-disk encryption on Windows 10/11 Home. This will give you a good (plausible) excuse to use this software. While using this software on Windows 10/11 Pro would be suspicious.

Note about Linux: So, what about Linux and plausible deniability? Yes, it is possible to achieve plausible deniability with Linux too. More information within the Linux Host OS section later.

Unfortunately, encryption is not magic and there are some risks involved:

Threats with encryption:

The 5$ Wrench:

Remember that encryption with or without plausible deniability is not a silver bullet and will be of little use in case of torture. As a matter a fact, depending on who your adversary would be (your threat model), it might be wise not to use Veracrypt (formerly TrueCrypt) at all as shown in this demonstration: https://defuse.ca/truecrypt-plausible-deniability-useless-by-game-theory.htm [Archive.org]

Plausible deniability is only effective against soft lawful adversaries that will not resort to physical means. Avoid, if possible, the use of plausible deniability-capable software (such as Veracrypt) if your threat model includes hard adversaries. So, Windows users should in that case install Windows Pro as a Host OS and use Bitlocker instead.

See https://en.wikipedia.org/wiki/Rubber-hose_cryptanalysis [Wikiless] [Archive.org]

Evil-Maid Attack:

Evil Maid Attacks332 are conducted when someone tampers with your laptop while you are away. To install to clone your hard drive, install malware or a key logger. If they can clone your hard drive, they can compare one image of your hard drive at the time they took it while you were away with the hard drive when they seize it from you. If you used the laptop again in between, forensics examiners might be able to prove the existence of the hidden data by looking at the variations between the two images in what should be an empty/unused space. This could lead to compelling evidence of the existence of hidden data. If they install a key logger or malware within your laptop (software or hardware), they will be able to simply get the password from you for later use when they seize it. Such attacks can be done at your home, your hotel, a border crossing, or anywhere you leave your devices unattended.

You can mitigate this attack by doing the following (as recommended earlier):

Cold-Boot Attack:

Cold Boot attacks333 are trickier than the Evil Maid Attack but can be part of an Evil Maid attack as it requires an adversary to come into possession of your laptop while you are actively using your device or shortly afterward.

The idea is rather simple, as shown in this video334, an adversary could theoretically quickly boot your device on a special USB key that would copy the content of the RAM (the memory) of the device after you shut it down. If the USB ports are disabled or if they feel like they need more time, they could open it and “cool down” the memory using a spray or other chemicals (liquid nitrogen for instance) preventing the memory from decaying. They could then be able to copy its content for analysis. This memory dump could contain the key to decrypt your device. You will later apply a few principles to mitigate these.

In the case of Plausible Deniability, there have been some forensics studies335 about technically proving the presence of the hidden data with a simple forensic examination (without a Cold Boot/Evil Maid Attack) but these have been contested by other studies336 and by the maintainer of Veracrypt337 so we would not worry too much about those yet.

The same measures used to mitigate Evil Maid attacks should be in place for Cold Boot attacks with some added ones:

See also https://www.whonix.org/wiki/Cold_Boot_Attack_Defense [Archive.org] and https://www.whonix.org/wiki/Protection_Against_Physical_Attacks [Archive.org]

Here are also some interesting tools to consider for Linux users to defend against these:

About Sleep, Hibernation, and Shutdown:

If you want better security, you should shut down your laptop completely every time you leave it unattended or close the lid. This should clean and/or release the RAM and provide mitigations against cold boot attacks. However, this can be a bit inconvenient as you will have to reboot completely and type in a ton of passwords into various apps. Restart various VMs and other apps. So instead, you could also use hibernation (not supported on Qubes OS). Since the whole disk is encrypted, hibernation in itself should not pose a large security risk but will still shut down your laptop and clear the memory while allowing you to conveniently resume your work afterward. What you should never do is using the standard sleep feature which will keep your computer on, and the memory powered. This is an attack vector against evil-maid and cold-boot attacks discussed earlier. This is because your powered-on memory holds the encryption keys to your disk (encrypted or not) and could then be accessed by a skilled adversary.

This guide will provide guidance later on how to enable hibernation on various host OSes (except Qubes OS) if you do not want to shut down every time.

Local Data Leaks (traces) and forensics examination:

As mentioned briefly earlier, these are data leaks and traces from your operating system and apps when you perform any activity on your computer. These mostly apply to encrypted file containers (with or without plausible deniability) than OS-wide encryption. Such leaks are less “important” if your whole OS is encrypted (if you are not compelled to reveal the password).

Let us say for example you have a Veracrypt encrypted USB key with plausible deniability enabled. Depending on the password you use when mounting the USB key, it will open a decoy folder or the sensitive folder. Within those folders, you will have decoy documents/data within the decoy folder and sensitive documents/data within the sensitive folder.

In all cases, you will (most likely) open these folders with Windows Explorer, macOS Finder, or any other utility and do whatever you planned to do. Maybe you will edit a document within the sensitive folder. Maybe you will search for a document within the folder. Maybe you will delete one or watch a sensitive video using VLC.

Well, all those Apps and your Operating System might keep logs and traces of that usage. This might include the full path of the folder/files/drives, the time those were accessed, temporary caches of those files, the “recent” lists in each app, the file indexing system that could index the drive, and even thumbnails that could be generated

Here are some examples of such leaks:

Windows:
macOS:
Linux:

Forensics could’ use all those leaks (see Local Data Leaks and Forensics) to prove the existence of hidden data and defeat your attempts at using plausible deniability and to find out about your various sensitive activities.

It will be therefore important to apply various steps to prevent forensics from doing this by preventing and cleaning these leaks/traces and more importantly by using whole disk encryption, virtualization, and compartmentalization.

Forensics cannot extract local data leaks from an OS they cannot access. And you will be able to clean most of those traces by wiping the drive or by securely erasing your virtual machines (which is not as easy as you think on SSD drives).

Some cleaning techniques will nevertheless be covered in the “Cover your Tracks” part of this guide at the very end.

Online Data Leaks:

Whether you are using simple encryption or plausible deniability encryption. Even if you covered your tracks on the computer itself. There is still a risk of online data leaks that could reveal the presence of hidden data.

Telemetry is your enemy. As explained earlier in this guide, the telemetry of Operating Systems but also from Apps can send staggering amounts of private information online.

In the case of Windows, this data could for instance be used to prove the existence of a hidden OS / Volume on a computer and would be readily available at Microsoft. Therefore, it is critically important that you disable and block telemetry with all the means at your disposal. No matter what OS you are using.

Conclusion:

You should never conduct sensitive activities from a non-encrypted system. And even if it is encrypted, you should never conduct sensitive activities from the Host OS itself. Instead, you should use a VM to be able to efficiently isolate and compartmentalize your activities and prevent local data leaks.

If you have little to no knowledge of Linux or if you want to use OS-wide plausible deniability, we recommend going for Windows (or back to the Tails route) for convenience. This guide will help you hardening it as much as possible to prevent leaks. This guide will also help you hardening macOS and Linux as much as possible to prevent similar leaks.

If you have no interest in OS-wide plausible deniability and want to learn to use Linux, we will strongly recommend going for Linux or the Qubes OS route if your hardware allows it.

In all cases, the host OS should never be used to conduct sensitive activities directly. The host OS will only be used to connect to a public Wi-Fi Access Point. It will be left unused while you conduct sensitive activities and should ideally not be used for any of your day-to-day activities.

Consider also reading https://www.whonix.org/wiki/Full_Disk_Encryption#Encrypting_Whonix_VMs [Archive.org]

Linux Host OS:

As mentioned earlier, we do not recommend using your daily laptop for sensitive activities. Or at least we do not recommend using your in-place OS for these. Doing that might result in unwanted data leaks that could be used to de-anonymize you. If you have a dedicated laptop for this, you should reinstall a fresh clean OS. If you do not want to wipe your laptop and start over, you should consider the Tails route or proceed at your own risk.

I also recommend that you do the initial installation completely offline to avoid any data leak.

You should always remember that despite the reputation, Linux mainstream distributions (Ubuntu for instance) are not necessarily better at security than other systems such as macOS and Windows. See this reference to understand why https://madaidans-insecurities.github.io/linux.html [Archive.org].

Full disk encryption:

There are two routes here with Ubuntu or Debian based distros:

For other distros, you will have to document yourself, but it will likely be similar. Encryption during install is just much easier in the context of this guide.

Note about plausible deniability on Linux:

There are several ways to achieve plausible deniability on Linux343 and it is possible to achieve. Here are some more details about some of the ways we would recommend. All these options require some higher level of skills at using Linux.

The Detached Headers Way:

While not supported yet by this guide, it is possible to achieve a form of deniability on Linux using LUKS by using detached LUKS headers. For now, we will redirect you toward this page for more information: https://wiki.archlinux.org/title/Dm-crypt/Specialties#Encrypted_system_using_a_detached_LUKS_header [Archive.org]

The Veracrypt Way:

It is technically possible to not only use Veracrypt but also to achieve plausible deniability on a Linux Host OS by using Veracrypt for system full-disk encryption (instead of LUKS). This is not supported by Veracrypt (System encryption is only supported on Windows) and requires some tinkering with various commands. This is not recommended at all for unskilled users and should only be used at your own risk.

The steps to achieve this are not yet integrated into this guide but can be found here: http://dreadytofatroptsdj6io7l3xptbet6onoyno2yv7jicoxknyazubrad.onion/post/5779e55aae7fc06e4758 (this is a .onion address and requires Tor Browser).

Reject/Disable any telemetry:

Disable anything unnecessary:

Hibernation:

As explained previously, you should not use the sleep features but shut down or hibernate your laptop to mitigate some evil-maid and cold-boot attacks. Unfortunately, this feature is disabled by default on many Linux distros including Ubuntu. It is possible to enable it, but it might not work as expected. Follow this information at your own risk. If you do not want to do this, you should never use the sleep function and power off instead (and set the lid closing behavior to power off instead of sleep).

Follow one of these tutorials to enable Hibernate:

After Hibernate is enabled, change the behavior so that your laptop will hibernate when you close the lid by following this tutorial for Ubuntu 20.04 http://ubuntuhandbook.org/index.php/2020/05/lid-close-behavior-ubuntu-20-04/ [Archive.org] and this tutorial for Ubuntu 18.04 https://tipsonubuntu.com/2018/04/28/change-lid-close-action-ubuntu-18-04-lts/ [Archive.org]. There is no tutorial yet for Ubuntu 21.04 or 21.10 but the above for 20.04 should probably work too.

Unfortunately, this will not clean the key from memory directly when hibernating. To avoid this at the cost of some performance, you might consider encrypting the swap file by following this tutorial: https://help.ubuntu.com/community/EnableHibernateWithEncryptedSwap [Archive.org]

These settings should mitigate cold boot attacks if you can hibernate fast enough.

Enable MAC address randomization:

Hardening Linux:

As a light introduction for new Linux users, consider https://www.youtube.com/watch?v=Sa0KqbpLye4 [Invidious]

For more in-depth and advanced options, refer to:

Setting up a safe Browser:

See Appendix G: Safe Browser on the Host OS

macOS Host OS:

Note: Mac M1/M2 chips are now supported natively, or, if you wish to use commercial tools like VMWare Fusion or Parallels Desktop, but those are not covered in this guide. Seek this information yourself.

As mentioned earlier, we do not recommend using your daily laptop for sensitive activities. Or at least we do not recommend using your in-place OS for these. Doing that might result in unwanted data leaks that could be used to de-anonymize you. If you have a dedicated laptop for this, you should reinstall a fresh clean OS. If you do not want to wipe your laptop and start over, you should consider the Tails route or proceed at your own risk.

We also recommend that you do the initial installation completely offline to avoid any data leak.

Do not ever sign in with your Apple account using that Mac.

During the install:

Hardening macOS:

As a light introduction for new macOS users, consider https://www.youtube.com/watch?v=lFx5icuE6Io [Invidious]

Now to go more in-depth in securing and hardening your macOS, we recommend reading this guide which covers many of the issues: https://www.bejarano.io/hardening-macos/ [Archive.org]

Here are the basic steps you should take after your offline installation:

Enable Firmware password with “disable-reset-capability” option:

First, you should set up a firmware password following this guide from Apple: https://support.apple.com/en-us/HT204455 [Archive.org]

Unfortunately, some attacks are still possible and an adversary could disable this password so you should also follow this guide to prevent disabling the firmware password from anyone including Apple: https://support.apple.com/en-gb/guide/security/sec28382c9ca/web [Archive.org]

Enable Hibernation instead of sleep:

Again, this is to prevent some cold-boot and evil-maid attacks by powering down your RAM and cleaning the encryption key when you close the lid. You should always either hibernate or shut down. On macOS, the hibernate feature even has a special option to specifically clear the encryption key from memory when hibernating (while you might have to wait for the memory to decay on other Operating Systems). Once again there are no easy options to do this within the settings so instead, we will have to do this by running a few commands to enable hibernation:

Now when you close the lid of your MacBook, it should hibernate instead of sleep and mitigate attempts at performing cold-boot attacks.

In addition, you should also set up an automatic sleep (Settings > Energy) so that your MacBook will hibernate automatically if left unattended.

Disable unnecessary services:

Disable some unnecessary settings within the settings:

Prevent Apple OCSP calls:

These are the infamous “unblockable telemetry” calls from macOS Big Sur disclosed here: https://sneak.berlin/20201112/your-computer-isnt-yours/ [Archive.org]

You could block OCSP reporting by issuing the following command in Terminal:

But you should document yourself on the actual issue before acting. This page is a good place to start: https://blog.jacopo.io/en/post/apple-ocsp/ [Archive.org]

Up to you really. We would block it because we do not want any telemetry at all from my OS to the mothership without my specific consent. None.

Enable Full Disk encryption (Filevault):

You should enable full disk encryption on your Mac using Filevault according to this part of the guide: https://github.com/drduh/macOS-Security-and-Privacy-Guide#full-disk-encryption [Archive.org]

Be careful when enabling. Do not store the recovery key at Apple if prompted (should not be an issue since you should be offline at this stage). You do not want a third party to have your recovery key.

MAC Address Randomization:

Unfortunately, macOS does not offer a native convenient way of randomizing your MAC Address and so you will have to do this manually. This will be reset at each reboot, and you will have to re-do it each time to ensure you do not use your actual MAC Address when connecting to various Wi-Fis

You can do this by issuing the following commands in terminal (without the parentheses):

Setting up a safe Browser:

See Appendix G: Safe Browser on the Host OS

Windows Host OS:

As mentioned earlier, we do not recommend using your daily laptop for sensitive activities. Or at leastWedo not recommend using your in-place OS for these. Doing that might result in unwanted data leaks that could be used to de-anonymize you. If you have a dedicated laptop for this, you should reinstall a fresh clean OS. If you do not want to wipe your laptop and start over, you should consider the Tails route or proceed at your own risk.

I also recommend that you do the initial installation completely offline to avoid any data leak.

Installation:

You should follow Appendix A: Windows Installation

As a light introduction, consider watching https://www.youtube.com/watch?v=vNRics7tlqw [Invidious]

Enable MAC address randomization:

You should randomize your MAC address as explained earlier in this guide:

Go into Settings > Network & Internet > Wi-Fi > Enable Random hardware addresses

Alternatively, you could use this free piece of software: https://technitium.com/tmac/ [Archive.org]

Setting up a safe Browser:

See Appendix G: Safe Browser on the Host OS

Enable some additional privacy settings on your Host OS:

See Appendix B: Windows Additional Privacy Settings

Windows Host OS encryption:
If you intend to use system-wide plausible deniability:

Veracrypt344 is the software we will recommend for full-disk encryption, file encryption, and plausible deniability. It is a fork of the well-known but deprecated and unmaintained TrueCrypt. It can be used for:

It is to my knowledge the only (convenient and usable by anyone) free, open-source, and openly audited345 encryption software that also provides plausible deniability for widespread use and it works with Windows Home Edition.

Go ahead and download and install Veracrypt from: https://www.veracrypt.fr/en/Downloads.html [Archive.org]

After installation, please take a moment to review the following options that will help mitigate some attacks:

If you do not want to use encrypted memory (because performance might be an issue), you should at least enable hibernation instead of sleep. This will not clear the keys from memory (you are still vulnerable to cold boot attacks) but at least should mitigate them if your memory has enough time to decay.

More details later in Route A and B: Simple Encryption using Veracrypt (Windows tutorial).

If you do not intend to use system-wide plausible deniability:

For this case, we will recommend the use of BitLocker instead of Veracrypt for the full disk encryption. The reasoning is that BitLocker does not offer a plausible deniability possibility contrary to Veracrypt. A hard adversary has then no incentive in pursuing his “enhanced” interrogation if you reveal the passphrase.

Normally, you should have installed Windows Pro in this case and the BitLocker setup is quite straightforward.

Basically, you can follow the instructions here: https://support.microsoft.com/en-us/windows/turn-on-device-encryption-0c453637-bc88-5f74-5105-741561aae838 [Archive.org]

But here are the steps:

Unfortunately, this is not enough. With this setup, your Bitlocker key can just be stored as-is in the TPM chip of your computer. This is rather problematic as the key can be extracted in some cases with ease348349350351.

To mitigate this, you will have to enable a few more options as per the recommendations of Microsoft352:

Now when you reboot your computer, you should ideally be prompted for:

Enable Hibernation (optional):

Again, as explained earlier. You should never use the sleep/stand-by feature to mitigate some cold-boot and evil-maid attacks. Instead, you should Shut down or hibernate. You should therefore switch your laptop from sleeping to hibernating when closing the lid or when your laptop goes to sleep.

(Note that you cannot enable hibernation if you previously enabled RAM encryption within Veracrypt)

The reason is that Hibernation will actually shut down your laptop completely and clean the memory. Sleep on the other hand will leave the memory powered on (including your decryption key) and could leave your laptop vulnerable to cold-boot attacks.

By default, Windows 10/11 might not offer you this possibility so you should enable it by following this Microsoft tutorial: https://docs.microsoft.com/en-us/troubleshoot/windows-client/deployment/disable-and-re-enable-hibernation [Archive.org]

After that you should go into your power settings:

Deciding which sub-route you will take:

Now you will have to pick your next step between two options:

As you can see, Route C only offers two privacy advantages over the others, and it will only be of use against a soft lawful adversary. Remember https://en.wikipedia.org/wiki/Rubber-hose_cryptanalysis [Wikiless] [Archive.org].

Deciding which route you will take is up to you. Route A is a minimum.

Always be sure to check for new versions of Veracrypt frequently to ensure you benefit from the latest patches. Especially check this before applying large Windows updates that might break the Veracrypt bootloader and send you into a boot loop.

NOTE THAT BY DEFAULT VERACRYPT WILL ALWAYS PROPOSE A SYSTEM PASSWORD IN QWERTY (display the password as a test). This can cause issues if your boot input is using your laptop’s keyboard (AZERTY for example) as you will have set up your password in QWERTY and will input it at boot time in AZERTY. So, make sure you check when doing the test boot what keyboard layout your BIOS is using. You could fail to log in just because of the QWERTY/AZERTY mix-up. If your BIOS boots using AZERTY, you will need to type the password in QWERTY within Veracrypt.

Route A and B: Simple Encryption using Veracrypt (Windows tutorial)

Skip this step if you used BitLocker instead earlier.

You do not have to have an HDD for this method, and you do not need to disable Trim on this route. Trim leaks will only be of use to forensics in detecting the presence of a Hidden Volume but will not be of much use otherwise.

This route is rather straightforward and will just encrypt your current Operating System in place without losing any data. Be sure to read all the texts Veracrypt is showing you, so you have a full understanding of what is going on. Here are the steps:

There will be another section on creating encrypted file containers with Plausible Deniability on Windows.

Route B: Plausible Deniability Encryption with a Hidden OS (Windows only)

This is only supported on Windows.

This is only recommended on an HDD drive. This is not recommended on an SSD drive.

Your Hidden OS should not be activated (with an MS product key). Therefore, this route will recommend and guide you through a full clean installation that will wipe everything on your laptop.

Read the Veracrypt Documentation https://www.veracrypt.fr/en/VeraCrypt%20Hidden%20Operating%20System.html [Archive.org] (Process of Creation of Hidden Operating System part) and https://www.veracrypt.fr/en/Security%20Requirements%20for%20Hidden%20Volumes.html [Archive.org] (Security Requirements and Precautions Pertaining to Hidden Volumes).

This is how your system will look after this process is done:

image22
image22

(Illustration from Veracrypt Documentation, https://veracrypt.fr/en/VeraCrypt%20Hidden%20Operating%20System.html [Archive.org])

As you can see this process requires you to have two partitions on your hard drive from the start.

This process will do the following:

Mandatory if you have an SSD drive and you still want to do this against the recommendation: Disable SSD Trim in Windows357 (again this is NOT recommended at all as disabling Trim in itself is highly suspicious). Also as mentioned earlier, disabling Trim will reduce the lifetime of your SSD drive and will significantly impact its performance over time (your laptop will become slower and slower over several months of use until it becomes almost unusable, you will then have to clean the drive and re-install everything). But you must do it to prevent data leaks358 that could allow forensics to defeat your plausible deniability359360. The only way around this at the moment is to have a laptop with a classic HDD drive instead.

Step 1: Create a Windows 10/11 install USB key

See [Appendix C: Windows Installation Media Creation][306] and go with the USB key route.

Step 2: Boot the USB key and start the Windows 10/11 install process (Hidden OS)
Step 3: Privacy Settings (Hidden OS)

See Appendix B: Windows Additional Privacy Settings

Step 4: Veracrypt installation and encryption process start (Hidden OS)

Remember to read https://www.veracrypt.fr/en/VeraCrypt%20Hidden%20Operating%20System.html [Archive.org]

Do not connect this OS to your known Wi-Fi. You should download the Veracrypt installer from a different computer and copy the installer here using a USB key. Here are the steps:

Step 5: Reboot and boot the USB key and start the Windows 10/11 install process again (Decoy OS)

Now that the Hidden OS is fully installed, you will need to install a Decoy OS:

Step 6: Privacy settings (Decoy OS)

See Appendix B: Windows Additional Privacy Settings

Step 7: Veracrypt installation and encryption process start (Decoy OS)

Now you will encrypt the Decoy OS:

Step 8: Test your setup (Boot in Both)

Time to test your setup:

Step 9: Changing the decoy data on your Outer Volume safely

Before going to the next step, you should learn the way to mount your Outer Volume safely for writing content on it. This is also explained in this official Veracrypt Documentation https://www.veracrypt.fr/en/Protection%20of%20Hidden%20Volumes.html [Archive.org]

You should do this from a safe, trusted space.

Basically, you are going to mount your Outer Volume while also providing the Hidden Volume passphrase within the Mount Options to protect the Hidden Volume from being overwritten:

This operation will not actually mount the Hidden Volume and should prevent the creation of any forensic evidence that could lead to the discovery of the Hidden OS. However, while you are performing this operation, both passwords will be stored in your RAM. You could still be vulnerable to a Cold-Boot Attack. To mitigate this, be sure to have the option to encrypt your RAM as instructed before.

Step 10: Leave some forensics evidence of your Outer Volume (with the decoy Data) within your Decoy OS

We must make the Decoy OS as plausible as possible. We also want your adversary to underestimate your intelligence.

It is important to voluntarily leave some forensic evidence of your Decoy Content within your Decoy OS. This evidence will let forensic examiners see that you mounted your Outer Volume frequently to access its content.

Here are useful tips to leave some forensics evidence:

Do not put anything suspicious on the Decoy OS such as:

The intention is to make your adversary believe you are not as smart as they thought, to deter them from searching deeper.

Notes:

Remember that you will need valid excuses for this plausible deniability scenario to work:

Take some time to read again the “Possible Explanations for Existence of Two Veracrypt Partitions on Single Drive” of the Veracrypt documentation here https://www.veracrypt.fr/en/VeraCrypt%20Hidden%20Operating%20System.html [Archive.org]

Be careful:

Virtualbox on your Host OS:

Remember Appendix W: Virtualization.

This step and the following steps should be done from within the Host OS. This can either be your Host OS with simple encryption (Windows/Linux/macOS) or your Hidden OS with plausible deniability (Windows only).

In this route, you will make extensive use of the free Oracle Virtualbox362 software. This is a virtualization software in which you can create Virtual Machines that emulate a computer running a specific OS (if you want to use something else like Xen, Qemu, KVM, or VMWARE, feel free to do so but this part of the guide covers Virtualbox only for convenience).

So, you should be aware that Virtualbox is not the virtualization software with the best track record in terms of security. Some of the reported issues363 have not been completely fixed to date364. If you are using Linux, and you possess a bit more technical skill, you should consider using KVM instead by following the guide available at Whonix here https://www.whonix.org/wiki/KVM [Archive.org] and here https://www.whonix.org/wiki/KVM#Why_Use_KVM_Over_VirtualBox.3F [Archive.org]

Some steps should be taken in all cases:

All your sensitive activities will be done from within a guest Virtual Machine running Windows 10/11 Pro (not Home this time), Linux, or macOS.

This has a few advantages that will help you remain anonymous:

Pick your connectivity method:

There are seven possibilities within this route:

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image23

Tor only:

This is the preferred and most recommended solution.

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image24

With this solution, all your network goes through Tor, and it should be sufficient to guarantee your anonymity in most cases.

There is one main drawback tho: Some services block/ban Tor Exit nodes outright and will not allow account creations from those.

To mitigate this, you might have to consider the next option: VPN over Tor but consider some risks associated with it explained in the next section.

VPN/Proxy over Tor:

This solution can bring some benefits in some specific cases vs using Tor only where accessing the destination service would be impossible from a Tor Exit node. This is because many services will just outright ban, hinder, or block Tor Exit Nodes (see https://gitlab.torproject.org/legacy/trac/-/wikis/org/doc/ListOfServicesBlockingTor [Archive.org]).

This solution can be achieved in two ways:

As you can see in this illustration, if your cash (preferred)/Monero paid VPN/Proxy is compromised by an adversary (despite their privacy statement and no-logging policies), they will only find an anonymous cash/Monero paid VPN/Proxy account connecting to their services from a Tor Exit node.

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image25

If an adversary somehow manages to compromise the Tor network too, they will only reveal the IP of a random public Wi-Fi that is not tied to your identity.

If an adversary somehow compromises your VM OS (with malware or an exploit for instance), they will be trapped within the internal Network of Whonix and should be unable to reveal the IP of the public Wi-Fi.

This solution however has one main drawback to consider: Interference with Tor Stream Isolation365.

Stream isolation is a mitigation technique used to prevent some correlation attacks by having different Tor Circuits for each application. Here is an illustration to show what stream isolation is:

image26
image26

(Illustration from Marcelo Martins, https://stakey.club/en/decred-via-tor-network/ [Archive.org])

VPN/Proxy over Tor falls on the right-side366 meaning using a VPN/Proxy over Tor forces Tor to use one circuit for all activities instead of multiple circuits for each. This means that using a VPN/Proxy over Tor can reduce the effectiveness of Tor in some cases and should therefore be used only for some specific cases:

You should however consider not using this method when your aim is just to browse random various unauthenticated websites as you will not benefit from Stream Isolation and this could make correlation attacks easier over time for an adversary between each of your sessions (see Your Anonymized Tor/VPN traffic). If your goal however is to use the same identity at each session on the same authenticated services, the value of Stream isolation is lessened as you can be correlated through other means.

You should also know that Stream Isolation is not necessarily configured by default on Whonix Workstation. It is only pre-configured for some applications (including Tor Browser).

Also, note that Stream Isolation does not necessarily change all the nodes in your Tor circuit. It can sometimes only change one or two. In many cases, Stream Isolation (for instance within the Tor Browser) will only change the relay (middle) node and the exit node while keeping the same guard (entry) node.

More information at:

Tor over VPN:

You might be wondering: Well, what about using Tor over VPN instead of VPN over Tor? Well, we would not necessarily recommend it:

Note, if you are having issues accessing the Tor Network due to blocking/censorship, you could try using Tor Bridges. See Appendix X: Using Tor bridges in hostile environments.

It is also possible to consider VPN over Tor over VPN (User > VPN > Tor > VPN > Internet) using two cash/Monero paid VPNs instead. This means that you will connect the Host OS to a first VPN from your Public Wi-Fi, then Whonix will connect to Tor, and finally, your VM will connect to a second VPN over Tor over VPN (see https://www.whonix.org/wiki/Tunnels/Connecting_to_a_VPN_before_Tor [Archive.org]).

This will of course have a significant performance impact and might be quite slow, but Tor is necessary somewhere for achieving reasonable anonymity.

Achieving this technically is easy within this route, you need two separate anonymous VPN accounts and must connect to the first VPN from the Host OS and follow the route.

Conclusion: Only do this if you think using Tor alone is risky/impossible but VPNs are okay. Or just because you can and so why not. This method will not lower your security/privacy/anonymity.

VPN only:

This route will not be explained nor recommended.

If you can use VPNs then you should be able to add a Tor layer over it. And if you can use Tor, then you can add an anonymous VPN over Tor to get the preferred solution.

Just using a VPN or even a VPN over VPN makes no sense as those can be traced back to you over time. One of the VPN providers will know your real origin IP (even if it is in a safe public space) and even if you add one over it, the second one will still know you were using that other first VPN service. This will only slightly delay your de-anonymization. Yes, it is an added layer … but it is a persistent centralized added layer, and you can be de-anonymized over time. This is just chaining 3 ISPs that are all subject to lawful requests.

For more info, please see the following references:

In the context of this guide, Tor is required somewhere to achieve reasonable and safe anonymity and you should use it if you can.

No VPN/Tor:

If you cannot use VPN nor Tor where you are, you probably are in a very hostile environment where surveillance and control are extremely high.

Just do not, it is not worth it and too risky. You can be de-anonymized almost instantly by any motivated adversary that could get to your physical location in a matter of minutes.

Do not forget to check back on Adversaries (threats) and Appendix S: Check your network for surveillance/censorship using OONI.

If you have absolutely no other option and still want to do something, see Appendix P: Accessing the internet as safely as possible when Tor/VPN is not an option (at your own risk) and consider The Tails route instead.

Conclusion:

Connection Type Anonymity Ease of Access to online resources Tor Stream isolation Safer where Tor is suspicious/dangerous Speed Cost Recommended
Tor Alone Good Medium Possible No Medium Free Yes
Tor over VPN Good+ Medium Possible Yes Medium Around 50€/y If needed (Tor inaccessible)
Tor over VPN over Tor Best Medium Possible Yes Poor Around 50€/y Yes
VPN over Tor Good- Good No No Medium Around 50€/y If needed (convenience)
Self-Hosted VPS VPN/Proxy over Tor Good- Very Good No Yes Medium Around 50€/y If needed (convenience)
VPN/Proxy over Tor over VPN Good- Good No Yes Poor Around 100€/y If needed (convenience and Tor inaccessible)
VPN/Proxy Alone Bad Good N/A Yes Good Around 50€/y No.
No Tor and VPN Bad Unknown N/A No Good Around 100€ (Antenna) No.

Unfortunately, using Tor alone will raise the suspicion of many destinations’ platforms. You will face many hurdles (captchas, errors, difficulties signing up) if you only use Tor. In addition, using Tor where you are could put you in trouble just for that. But Tor is still the best solution for anonymity and must be somewhere for anonymity.

For more information, you can also see the discussions here that could help decide yourself:

Getting an anonymous VPN/Proxy:

Skip this step if you want to use Tor only.

See Appendix O: Getting an anonymous VPN/Proxy

Whonix:

Skip this step if you cannot use Tor.

This route will use Virtualization and Whonix367 as part of the anonymization process. Whonix is a Linux distribution composed of two Virtual Machines:

This guide will therefore propose two flavors of this route:

image27
image27
image28
image28

You will be able to decide which flavor to use based on my recommendations. We recommend the second one as explained before.

Whonix is well maintained and has extensive and incredibly detailed documentation.

A note on Virtualbox Snapshots:

Later, you will create and run several Virtual Machines within Virtualbox for your sensitive activities. Virtualbox provides a feature called “Snapshots”368 that allow for saving the state of a VM at any point in time. If for any reason later you want to go back to that state, you can restore that snapshot at any moment.

I strongly recommend that you do make use of this feature by creating a snapshot after the initial installation/update of each VM. This snapshot should be done before its use for any sensitive/anonymous activity.

This will allow you to turn your VMs into a kind of disposable “Live Operating Systems” (like Tails discussed earlier). Meaning that you will be able to erase all the traces of your activities within a VM by restoring a Snapshot to an earlier state. Of course, this will not be “as good” as Tails (where everything is stored in memory) as there might be traces of this activity left on your hard disk. Forensics studies have shown the ability to recover data from a reverted VM369. Fortunately, there will be ways to remove those traces after the deletion or reverting to an earlier snapshot. Such techniques will be discussed in the Some additional measures against forensics section of this guide.

Download Virtualbox and Whonix utilities:

You should download a few things within the host OS:

This will conclude the preparations and you should now be ready to start setting up the final environment that will protect your anonymity online.

Virtualbox Hardening recommendations:

For ideal security, you should follow the recommendations provided here for each Virtualbox Virtual Machine https://www.whonix.org/wiki/Virtualization_Platform_Security#VirtualBox_Hardening [Archive.org] :

Finally, also follow this recommendation to desync the clock you are your VM compared to your host OS https://www.whonix.org/wiki/Network_Time_Synchronization#Spoof_the_Initial_Virtual_Hardware_Clock_Offset [Archive.org]

This offset should be within a 60000-millisecond range and should be different for each VM and here are some examples (which can be later applied to any VM):

Also, consider applying these mitigations from VirtualBox to mitigate Spectre370/Meltdown371 vulnerabilities by running this command from the VirtualBox Program Directory. All of these are described here: https://www.whonix.org/wiki/Spectre_Meltdown [Archive.org] (be aware these can impact severely the performance of your VMs but should be done for best security).

Finally, consider the security advice from Virtualbox themselves here https://www.virtualbox.org/manual/ch13.html [Archive.org]

Tor over VPN:

Skip this step if you do not intend to use Tor over VPN and only intend to use Tor or cannot.

If you intend to use Tor over VPN for any reason. You first must configure a VPN service on your host OS.

Remember that in this case, we recommend having two VPN accounts. Both paid with cash/Monero (see Appendix O: Getting an anonymous VPN/Proxy). One will be used in the Host OS for the first VPN connection. The other could be used in the VM to achieve VPN over Tor over VPN (User > VPN > Tor > VPN).

If you intend to only use Tor over VPN, you only need one VPN account.

See Appendix R: Installing a VPN on your VM or Host OS for instructions.

Whonix Virtual Machines:

Skip this step if you cannot use Tor.

Remember at this stage that if you are having issues connecting to Tor due to censorship or blocking, you should consider connecting using Bridges as explained in this tutorial https://www.whonix.org/wiki/Bridges [Archive.org].

Important Note: You should also read these very good recommendations over there https://www.whonix.org/wiki/DoNot [Archive.org] as most of those principles will also apply to this guide. You should also read their general documentation here https://www.whonix.org/wiki/Documentation [Archive.org] which will also provide tons of advice like this guide.

Pick your guest workstation Virtual Machine:

Using Whonix/Linux will require more skills on your side as these are Linux distributions. You will also encounter more difficulties if you intend to use specific software that might be harder to use on Whonix/Linux. Setting up a VPN over Tor on Whonix will also be more complicated than on Windows as well.

If you can use Tor:

You can decide if you prefer to conduct your sensitive activities from the Whonix Workstation provided in the earlier section (highly recommended) or from a Custom VM that will use the Whonix Gateway like the Whonix Workstation (less secure but might be required depending on what you intend to do).

If you cannot use Tor:

If you cannot use Tor, you can use a Custom VM of your choice that will ideally use an anonymous VPN, if possible, to then connect to the Tor network. Or you could go with the risky route: See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Linux Virtual Machine (Whonix or Linux):

Skip this step if you cannot use Tor.

Just use the provided Whonix Workstation VM. It is the safest and most secure way to go on this route.

It is also the only VM that will provide Stream Isolation pre-configured for most apps by default372.

If you want additional software on the Workstation (such as another Browser), follow their guide here https://www.whonix.org/wiki/Install_Software [Archive.org]

Consider running Whonix in Live Mode if for extra malware protection, See https://www.whonix.org/wiki/Anti-Forensics_Precautions [Archive.org]

Do not forget to apply the VM hardening recommendations here: Virtualbox Hardening recommendations.

Consider using AppArmor on your Whonix Workstations by following this guide: https://www.whonix.org/wiki/AppArmor [Archive.org]

Linux (any distro):

Be careful, any customization you make to the non-Whonix guest VMs (keyboard layout, language, time zone, screen resolution, or other) could be used to fingerprint your VMs later. See https://www.whonix.org/wiki/VM_Fingerprinting [Archive.org]

If you can use Tor (natively or over a VPN):

Use the Linux Distro of your choice. We would recommend Ubuntu or Fedora for convenience but any other would work too. Be sure to not enable any telemetry.

Refer to this tutorial https://www.whonix.org/wiki/Other_Operating_Systems [Archive.org] for detailed instructions.

Consider hardening the VM as recommended in Hardening Linux.

If you cannot use Tor:

Use the Linux Distro of your choice. We would recommend Ubuntu or Fedora for convenience but any other would work too. Be sure to not enable any telemetry. You could go with the risky route: See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Choose a browser within the VM:

This time, we will recommend Brave browser.

See why here: Appendix V: What browser to use in your Guest VM/Disposable VM

See Appendix V1: Hardening your Browsers as well.

Windows 10/11 Virtual Machine:

Be careful, any customization you make to the non-Whonix guest VMs (keyboard layout, language, time zone, screen resolution, or other) could be used to fingerprint your VMs later. See https://www.whonix.org/wiki/VM_Fingerprinting [Archive.org]

Windows 10 and 11 ISO download:

Go with the Official Windows 10/11 Pro VM and harden it yourself: see [Appendix C: Windows Installation Media Creation][306] and go with the ISO route.

If you can use Tor (natively or over a VPN):

Refer to this tutorial https://www.whonix.org/wiki/Other_Operating_Systems [Archive.org] for detailed instructions.

Install:
Network Settings:

Every time you will power on this VM in the future, you should make sure to change its Ethernet Mac Address before each boot. You can do this in Virtualbox > Settings > Network > Advanced > Click the refresh button next to the MAC address. You can only do this while the VM is powered off.

If you cannot use Tor:

See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Install:
Network Settings:

Every time you will power on this VM in the future, you should make sure to change its Ethernet Mac Address before each boot. You can do this in Virtualbox > Settings > Network > Advanced > Click the refresh button next to the MAC address. You can only do this while the VM is powered off.

Choose a browser within the VM:

This time, we will recommend Brave browser.

See why here: Appendix V: What browser to use in your Guest VM/Disposable VM

See Appendix V1: Hardening your Browsers as well.

Additional Privacy settings in Windows 10/11:

See Appendix B: Windows Additional Privacy Settings

Android Virtual Machine:

Because sometimes you want to run mobile Apps anonymously too. You can also set up an Android VM for this purpose. As in other cases, ideally, this VM will also be sitting behind the Whonix Gateway for Tor network connectivity. But this can also be set up as VPN over Tor over VPN

If you can use Tor (natively or over a VPN):

Later in the VM settings during creation, go into Network and select Internal Network, Whonix.

Then on Android itself:

If you cannot use Tor:

Just use the tutorials as is and see Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Installation:

Two possibilities: AnBox or Android-x86

Personally, We would recommend AnBox over Android-x86 but it requires Linux

AnBox:

Basically follow the tutorial here for installing AnBox on the Whonix Workstation: https://www.whonix.org/wiki/Anbox [Archive.org] for running Android Applications within an AnBox VM.

Or follow the instructions here https://anbox.io/ to install on any other VM (Linux Only)

Android-x86:

Basically, follow the tutorial here: https://www.android-x86.org/documentation/virtualbox.html [Archive.org]

You are now done and can now install any Android app.

macOS Virtual Machine:

Yes, you can actually run macOS within Virtualbox (on Windows/Linux/macOS host systems) if you want to use macOS. You can run any version of macOS you want.

If you can use Tor (natively or over a VPN):

During the following tutorials, before starting the macOS VM, make sure you do put the macOS VMs on the Whonix Network.

Afterward, and during the install, you will need to input an IP address manually to connect through the Whonix Gateway.

Use these settings when prompted in the macOS installation process:

If you cannot use Tor:

Just use the tutorials as is and see Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Installation:

There are some drawbacks to running macOS on Virtual Machines. The main one is that they do not have a serial number (0 by default) and you will be unable to log in to any Apple-provided service (iCloud, iMessage…) without a genuine ID. You can set such IDs using this script: https://github.com/myspaghetti/macos-virtualbox [Archive.org] but keep in mind that randomly generated IDs will not work and using the ID of someone else will break their Terms of Services and could count as impersonation (and therefore could be illegal).

Note: We also ran in multiple issues with running these on AMD processors. This can be fixed so here is the configurationWeused which worked fine with Catalina, Big Sur and Monterey which will tell Virtualbox to emulate an Intel Processor instead:

Hardening macOS:

Refer to Hardening macOS.

Choose a browser within the VM:

This time, we will recommend Brave browser.

See why here: Appendix V: What browser to use in your Guest VM/Disposable VM

See Appendix V1: Hardening your Browsers as well.

KeepassXC:

You will need something to store your data (logins/passwords, identities, and TOTP373 information).

For this purpose, we strongly recommend KeePassXC because of its integrated TOTP feature. This is the ability to create entries for 2FA374 authentication with the authenticator feature.

Remember this should ideally be installed on your Guest VM and not on your Host OS. You should never do any sensitive activities from your Host OS.

Here are the tutorials:

Test that KeePassXC is working before going to the next step.

VPN client installation (cash/Monero paid):

If you decided to not use a cash-paid VPN and just want to use Tor, skip this step.

If you cannot use a VPN at all in a hostile environment, skip this step.

Otherwise, see Appendix R: Installing a VPN on your VM or Host OS to install a VPN client on your client VM.

This should conclude the Route and you should now be ready.

About VPN Client Data Mining/Leaks:

You might be asking yourself if those VPN clients are trustworthy not to leak any information about your local environment to the VPN provider when using them in the “VPN over Tor” context.

This is a valid concern but should be taken with a grain of salt.

Remember that all VPN activities are happening from a sandboxed VM on an internal network behind a Network Gateway (the Whonix Gateway). It does not matter much if the VPN client leaves some identifiers on your guest VM. The guest VM is still sandboxed and walled-off from the Host OS. The attack surface is small especially when using the reputable and recommended VPN providers within the guides (iVPN, Mullvad, Proton VPN, and maybe Safing.io).

At best, the VPN client would know your local IP (internal IP) and some randomized identifiers but should not be able to get anything from the Host OS. And in theory, the VPN client should not send any telemetry back to the VPN provider. If your VPN client does this or asks this, you should consider changing the provider.

(Optional) VM kill switch:

This step will allow you to configure your Host OS so that only the Whonix Gateway VM will have access to the internet. This will therefore prevent any “leak” from your Host OS while letting the Whonix Gateway establish the tor connectivity. The other VMs (Whonix Workstation or any other VM you installed behind it will not be affected)

There are three ways to do this:

The Lazy Way (not supported by Whonix but it will work if you are in a hurry, see further for the better way):

This way is not supported by the Whonix project375 but I will go ahead and give this option anyway. This is helpful to prevent your Host OS from leaking any information while you are using the Whonix VMs.

Note that this option as-is will only work on Wi-Fis without a captive portal (where you must enter some information to unlock access).

The illustration below shows the result of this step:

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Configuration of the Whonix Gateway VM:

For this to work, we will need to change some configurations on the Whonix Gateway VM. we will need to add a DHCP client to the Whonix Gateway to receive IP addresses from the network. To do those changes the Host OS will still have to have internet access allowed for now.

So here is how:

Configuration of the Host OS:

Now you must block internet access from your Host OS while still allowing the VM to connect. This will be done by connecting to Wi-Fi with the Host OS but without assigning itself an IP address. The VM will then use your Wi-fi association to get an IP address.

Windows Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

Linux Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

macOS Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

This way will not go against Whonix recommendations (as it will not expose the Whonix Gateway to the Host OS) and will have the advantage of allowing connections not only to open Wi-Fis but also to the ones with a Captive Portal where you need to enter some information to access the internet.

Yet this will still not be supported by the Whonix project, but it is fine as the main concern for the earlier Lazy Way is to have the Whonix Gateway VM exposed to the Host Network, and it will not be the case here.

This option will require an additional VM between the Host OS and the Whonix Gateway to act as a Network Bridge.

For this purpose, I will recommend the use of a lightweight Linux Distro. Any will do but the easiest will be an Ubuntu-based distro and I would recommend the lightweight XUbuntu as it will be extremely easy to configure this setup.

Why XUbuntu and not Ubuntu or KUbuntu? Because XUbuntu uses an XFCE desktop environment which is lightweight and this VM will only serve as a proxy and nothing else.

Of course, you can also achieve this with any other Linux distro if you so decide you do not like XUbuntu.

This is how it will look at the end:

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Installing XUbuntu VM:

XUbuntu was picked due the performance of XFCE.

Make sure you are connected to a safe Wi-Fi for this operation.

First, you will need to download the latest XUbuntu Stable release ISO from https://xubuntu.org/download/

When you are done with the download, it is time to create a new VM:

Configuring the Whonix Gateway VM:

By default, the Whonix Gateway has no DHCP client and will require one to get an IP from a shared network you configured earlier:

Configuration of the Host OS:

Now you must block internet access from your Host OS while still allowing the XUbuntu Bridge VM to connect. This will be done by connecting to Wi-Fi with the Host OS but without assigning itself a gateway address. The VM will then use your Wi-fi association to get an IP address.

If necessary, from the XUbuntu Bridge VM, you will be able to launch a Browser to enter information into any captive/registration portal on the Wi-Fi network.

Only the XUbuntu Bridge VM should be able to access the internet. The Host OS will be limited to local traffic only.

Windows Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

Linux Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

macOS Host OS:

The goal here is to associate with a Wi-Fi network without having an internet connection. You will achieve this by deleting the Gateway from the connection after you are connected:

The best way:

This way will not go against Whonix recommendations (as it will not expose the Whonix Gateway to the Host OS) and will have the advantage of allowing connections not only to open Wi-Fis but also to the ones with a Captive Portal where you need to enter some information to access the internet. Yet this will still not be supported by the Whonix project, but it is fine as the main concern for the earlier Lazy Way is to have the Whonix Gateway VM exposed to the Host Network, and it will not be the case here. This option is the best because the network will be completely disabled on the Host OS from booting up.

This option will require an additional VM between the Host OS and the Whonix Gateway to act as a Network Bridge and to connect to the Wi-Fi network. This option requires a working USB Wi-Fi Dongle that will be passed through to a bridge VM.

For this purpose, I will recommend the use of a lightweight Linux Distro. Any will do but the easiest will be an Ubuntu-based distro and I would recommend the lightweight XUbuntu as it will be extremely easy to configure this setup.

Why XUbuntu and not Ubuntu or KUbuntu? Because XUbuntu uses an XFCE desktop environment which is lightweight and this VM will only serve as a proxy and nothing else.

Of course, you can also achieve this with any other Linux distro if you so decide you do not like XUbuntu.

This is how it will look at the end:

image31
image31
Configuration of the Host OS:
Configuring the Whonix Gateway VM:

By default, the Whonix Gateway has no DHCP client and will require one to get an IP from a shared network you will configure later, on a Bridge VM:

Installing XUbuntu VM:

Make sure you are connected to a safe Wi-Fi for this operation.

First, you will need to download the latest XUbuntu Stable release ISO from https://xubuntu.org/download/

When you are done with the download, it is time to create a new VM:

At this stage, your Host OS should have no network at all and your XUbuntu VM should have a fully working Wi-Fi connection and this Wi-Fi connection will be shared to the Internal Network “XUbuntu Bridge”.

Additional configuration of the Whonix Gateway VM:

Now it is time to configure the Whonix Gateway VM to get access from the shared network from the bridge VM you just made on the earlier step:

At this stage, your Whonix Gateway VM should be getting internet access from the XUbuntu Bridge VM which in turn is getting internet access from the Wi-Fi Dongle and sharing it. Your Host OS should have no network connectivity at all.

All the VMs behind the Whonix Gateway should now work fine without additional configuration.

Final step:

Take a post-install VirtualBox snapshot of your VMs.

You are done and can now skip the rest to go to the Getting Online part.

The Qubes Route:

Note that the guide has been updated to Qubes OS 4.1

As they say on their website, Qubes OS is a reasonably secure, free, open-source, and security-oriented operating system for single-user desktop computing. Qubes OS leverages and extensively uses Xen-based virtualization to allow for the creation and management of isolated compartments called Qubes.

Qubes OS is not a Linux distribution376 but a Xen distribution. It is different from Linux distributions because it will make extensive use of Virtualization and Compartmentalization so that any app will run in a different VM (Qube). As a bonus, Qubes OS integrates Whonix by default and allows for increased privacy and anonymity. It is highly recommended that you document yourself over Qubes OS principles before going this route. Here are some recommended resources:

This OS is recommended by prominent figures such as Edward Snowden, PrivacyGuides.org.

Qubes is the best option in this guide for people who are more comfortable with Linux and tech in general. But it has some downsides such as the lack of OS-wide plausible deniability, its hardware requirements, and its hardware compatibility. While you can run this on 4GB of RAM as per their requirements [Archive.org], the recommended RAM is 16GB. We would recommend against using Qubes OS if you have less than 8GB of RAM. If you want a comfortable experience, you should have 16GB, if you want a particularly enjoyable experience, you should have 24GB or 32GB.

The reason for this RAM requirement is that each app will run in a different VM and each of those VM will require and allocate a certain amount of memory that will not be available for other apps. If you are running native Windows apps within Qubes OS Qubes, the ram overhead will be significant.

You should also check their hardware compatibility here https://www.qubes-os.org/hcl/ [Archive.org] before proceeding. Your mileage might vary, and you might experience several issues about hardware compatibility that you will have to troubleshoot and solve yourself.

I think that if you can afford it and are comfortable with the idea of using Linux, you should go with this route as it is probably the best one in terms of security and privacy. The only disadvantage of this route is that it does not provide a way to enable OS-wide plausible deniability https://en.wikipedia.org/wiki/Plausible_deniability [Wikiless], unlike the Whonix route.

Pick your connectivity method:

There are seven possibilities within this route:

image23
image23

Tor only:

This is the preferred and most recommended solution.

image32
image32

With this solution, all your network goes through Tor, and it should be sufficient to guarantee your anonymity in most cases.

There is one main drawback tho: Some services block/ban Tor Exit nodes outright and will not allow account creations from those.

To mitigate this, you might have to consider the next option: VPN over Tor but consider some risks associated with it explained in the next section.

VPN/Proxy over Tor:

This solution can bring some benefits in some specific cases vs using Tor only where accessing the destination service would be impossible from a Tor Exit node. This is because many services will just outright ban, hinder, or block Tor Exit Nodes (see https://gitlab.torproject.org/legacy/trac/-/wikis/org/doc/ListOfServicesBlockingTor [Archive.org]).

This solution can be achieved in two ways:

As you can see in this illustration, if your cash (preferred)/Monero paid VPN/Proxy is compromised by an adversary (despite their privacy statement and no-logging policies), they will only find an anonymous cash/Monero paid VPN account connecting to their services from a Tor Exit node.

image33
image33

If an adversary somehow manages to compromise the Tor network too, they will only reveal the IP of a random public Wi-Fi that is not tied to your identity.

If an adversary somehow compromises your VM OS (with malware or an exploit for instance), they will be trapped within the internal Network of Whonix and should be unable to reveal the IP of the public Wi-Fi.

This solution however has one main drawback to consider: Interference with Tor Stream Isolation377.

Stream isolation is a mitigation technique used to prevent some correlation attacks by having different Tor Circuits for each application. Here is an illustration to show what stream isolation is:

image26
image26

(Illustration from Marcelo Martins, https://stakey.club/en/decred-via-tor-network/ [Archive.org])

VPN/Proxy over Tor falls on the right-side378 meaning using a VPN/Proxy over Tor forces Tor to use one circuit for all activities instead of multiple circuits for each. This means that using a VPN/Proxy over Tor can reduce the effectiveness of Tor in some cases and should therefore be used only for some specific cases:

You should however consider not using this method when your aim is just to browse random various unauthenticated websites as you will not benefit from Stream Isolation and this could make correlation attacks easier for an adversary between each of your sessions (see Your Anonymized Tor/VPN traffic).

More information at:

Tor over VPN:

You might be wondering: Well, what about using Tor over VPN instead of VPN over Tor?

Note, if you’re having issues accessing the Tor Network due to blocking/censorship, you could try using Tor Bridges (see Tor Documentation https://2019.www.torproject.org/docs/bridges [Archive.org] and Whonix Documentation https://www.whonix.org/wiki/Bridges [Archive.org]).

It is also possible to consider VPN over Tor over VPN (User > VPN > Tor > VPN > Internet) using two cash/Monero paid VPNs instead. This means that you will connect the Host OS to a first VPN from your Public Wi-Fi, then Whonix will connect to Tor, and finally, your VM will connect to a second VPN over Tor over VPN (see https://www.whonix.org/wiki/Tunnels/Connecting_to_a_VPN_before_Tor [Archive.org]).

This will of course have a significant performance impact and might be quite slow, but Tor is necessary somewhere for achieving reasonable anonymity.

Achieving this technically is easy within this route, you need two separate anonymous VPN accounts and must connect to the first VPN from the Host OS and follow the route.

Conclusion: Only do this if you think using Tor alone is risky/impossible but VPNs are okay. Or just because you can and so why not. This method will not lower your security/privacy/anonymity.

VPN only:

This route will not be explained nor recommended.

If you can use VPNs then you should be able to add a Tor layer over it. And if you can use Tor, then you can add an anonymous VPN over Tor to get the preferred solution.

Just using a VPN or even a VPN over VPN makes no sense as those can be traced back to you over time. One of the VPN providers will know your real origin IP (even if it is in a safe public space) and even if you add one over it, the second one will still know you were using that other first VPN service. This will only slightly delay your de-anonymization. Yes, it is an added layer … but it is a persistent centralized added layer, and you can be de-anonymized over time. This is just chaining 3 ISPs that are all subject to lawful requests.

For more info, please see the following references:

In the context of this guide, Tor is required somewhere to achieve reasonable and safe anonymity and you should use it if you can.

No VPN/Tor:

If you cannot use VPN nor Tor where you are, you probably are in a very hostile environment where surveillance and control are extremely high.

Just do not, it is not worth it and too risky. You can be de-anonymized almost instantly by any motivated adversary that could get to your physical location in a matter of minutes.

Do not forget to check back on Adversaries (threats) and Appendix S: Check your network for surveillance/censorship using OONI.

If you have absolutely no other option and still want to do something, see Appendix P: Accessing the internet as safely as possible when Tor/VPN is not an option (at your own risk).

Conclusion:

Connection Type Anonymity Ease of Access to online resources Tor Stream isolation Safer where Tor is suspicious/dangerous Speed Cost Recommended
Tor Alone Good Medium Possible No Medium Free Yes
Tor over VPN Good+ Medium Possible Yes Medium Around 50€/y If needed (Tor inaccessible)
Tor over VPN over Tor Best Medium Possible Yes Poor Around 50€/y Yes
VPN over Tor Good- Good No No Medium Around 50€/y If needed (convenience)
Self-Hosted VPS VPN/Proxy over Tor Good- Very Good No No Medium Around 50€/y If needed (convenience)
VPN/Proxy over Tor over VPN Good- Good No Yes Poor Around 100€/y If needed (convenience and Tor inaccessible)
VPN/Proxy Alone Bad Good N/A Yes Good Around 50€/y No
No Tor and VPN Bad Unknown N/A No Good Around 100€ (Antenna) No. At your own risk.

Unfortunately, using Tor alone will raise the suspicion of many destinations’ platforms. You will face many hurdles (captchas, errors, difficulties signing up) if you only use Tor. In addition, using Tor where you are could put you in trouble just for that. But Tor remains the best solution for anonymity and must be somewhere for anonymity.

For more information, you can also see the discussions here that could help decide yourself:

Getting an anonymous VPN/Proxy:

Skip this step if you want to use Tor only or VPN is not an option.

See Appendix O: Getting an anonymous VPN/Proxy

Note about Plausible Deniability:

Qubes OS uses LUKS for full disk encryption and it is technically possible to achieve a form of deniability by using detached LUKS headers. This is not yet integrated into this guide but you will find an evolving tutorial on how to achieve this here: https://forum.qubes-os.org/t/qubes-os-installation-detached-encrypted-boot-and-header/6205 and some more background information within the Linux Host OS section (see Note about plausible deniability on Linux).

Installation:

You will follow the instructions from their own guide https://www.qubes-os.org/doc/installation-guide/ [Archive.org]:

(Secure Boot is not supported as per their FAQ: https://www.qubes-os.org/faq/#is-secure-boot-supported [Archive.org] so it should be disabled in the BIOS/UEFI settings.)

To be sure your Qubes ISO hasn’t been tampered with, you should get the Qubes master key fingerprint from multiple different sources. This guide can be used as one source.

The Qubes master signing key fingerprint should match 427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494.

Remember to read the guide to verifying signatures on the Qubes website: https://www.qubes-os.org/security/verifying-signatures/ [Archive.org].

Lid Closure Behavior:

Unfortunately, Qubes OS does not support hibernation379 which is an issue regarding cold-boot attacks. To mitigate those, I highly recommend that you configure Qubes OS to shut down on any power action (power button, lid closure). You can do set this from the XFCE Power Manager. Do not use the sleep features.

Anti Evil Maid (AEM):

Warning, this step only works with Intel CPUs, a legacy BIOS, TPM 1.2. If you do not meet those requirements, skip this step.

Anti Evil Maid is an implementation of a TPM-based static trusted boot with a primary goal to prevent Evil Maid attacks. Installing and using AEM requires attaching a USB drive directly to dom0. So the user must make a choice between protecting dom0 from a potentially malicious USB drive, and protecting the system from Evil Maid attacks. Note that AEM is only compatible with Intel CPUs and Legacy boot options.

The preference for mitigating any evil maid attack is to maintain physical control of your device at all times. If that is not possible, then this might be relevant to your threat model.

Before deciding to use this system, please read Appendix B4: Important notes about evil-maid and tampering

See the following links for more details and installation instructions:

Connect to a Public Wi-Fi:

Remember this should be done from a safe place (see Find some safe places with decent public Wi-Fi and Appendix Q: Using long-range Antenna to connect to Public Wi-Fis from a safe distance):

Upgrading Qubes OS from 4.0.x to 4.1.x (you should do it)

Personally, we wouldn’t do it in-place and do a fresh install.

But if you really want to, it’s technically possible by following this guide: https://www.qubes-os.org/doc/upgrade/4.1/ [Archive.org]

Updating Qubes OS:

After you are connected to a Wi-Fi you need to update Qubes OS and Whonix. You must keep Qubes OS always updated before conducting any sensitive activities. Especially your Browser VMs. Normally, Qubes OS will warn you about updates in the upper right corner with a gear icon. As this might take a while in this case due to using Tor, you can force the process by doing the following:

Upgrading Whonix from version 15 to version 16:

Again, you should really do this ASAP. We would use a fresh install but it’s technically possible to do it in-place, see https://www.whonix.org/wiki/Release_Upgrade_Whonix_15_to_Whonix_16 [Archive.org]

Follow the instructions on https://www.whonix.org/wiki/Qubes/Install [Archive.org]. If you’re running Qubes 4.1.x, this is already done for you.

Hardening Qubes OS:

Disclaimer: This section is under construction and will be worked on heavily in the next releases. This section is for more advanced users.

Application Sandboxing:

While Qubes OS is already sandboxing everything by design, it is also useful to consider sandboxing apps themselves using AppArmor or SELinux.

AppArmor:

“AppArmor is a Mandatory Access Control framework. When enabled, AppArmor confines programs according to a set of rules that specify what files a given program can access. This initiative-taking approach helps protect the system against both known and unknown vulnerabilities” (Debian.org).

Basically, AppArmor380 is an application sandboxing system. By default, it is not enabled but supported by Qubes OS.

SELinux:

SELinux381 is similar to AppArmor. The differences between SELinux and AppArmor are technical details into which we will not get.

Here is a good explanation of what it is: https://www.youtube.com/watch?v=_WOKRaM-HI4 [Invidious]

In this guide and the context of Qubes OS, it is important to mention it as it is the recommended method by Fedora which is one of the default systems on Qubes OS.

So, head out and read https://docs.fedoraproject.org/en-US/quick-docs/getting-started-with-selinux/ [Archive.org]

You could make use of SELinux on your Fedora Templates. But this is up to you. Again, this is for advanced users.

Setup the VPN ProxyVM:

Skip this step if you do not want to use a VPN and just use Tor only or if VPN is not an option either.

This tutorial should also work with any OpenVPN provider (Mullvad, IVPN, Safing.io, or Proton VPN for instance).

This is based on the tutorial provided by Qubes OS themselves (https://github.com/Qubes-Community/Contents/blob/master/docs/configuration/vpn.md [Archive.org]). If you are familiar with this process, you can follow their tutorial.

Alternatively, Mullvad also have a help article that guides you through setting up a Proxy VM https://mullvad.net/en/help/qubes-os-4-and-mullvad-vpn/ [Archive.org].

Create the ProxyVM:

Download the VPN configuration from your cash/Monero paid VPN provider:

If you can use Tor:

Using Tor Browser (be careful not to use any Clearnet Browser for this), download the necessary OpenVPN configuration files for Linux from your VPN provider.

This can be done by using the Qubes OS integrated Tor Browser by accessing the Applications icon (upper left corner) and selecting the Disposable Tor Browser application.

If you cannot use Tor:

Launch a browser from a DisposableVM and download the necessary OpenVPN configuration files for Linux from your VPN provider. See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option.

When you are done downloading the configuration files within the Disposable Browser (usually a zip file), copy them to your ProxyVM VPN Gateway machine (using right-click on the file and send to another AppVM).

Configure the ProxyVM:

Skip this step if you are not going to use a VPN

(This is the IP of the ProxyVM, this is not dynamic, and you might need to change it at reboot)

(This is the first DNS server of your VPN provider; it should not change)

(This is the second DNS server of your VPN provider; it should not change)

(These will block outbound traffic when the VPN is down, it is a kill switch, more information here https://linuxconfig.org/how-to-create-a-vpn-killswitch-using-iptables-on-linux [Archive.org] )

(These will allow DNS requests to your VPN provider DNS to resolve the name of the VPN servers in the OpenVPN configuration files)

(These will redirect all DNS requests from the ProxyVM to the VPN provider DNS servers)

VPN over Tor:

Set up a disposable Browser Qube for VPN over Tor use:

You should now have a Disposable Browser VM that works with your cash/Monero paid VPN over Tor.

Tor Over VPN:

Reconfigure your Whonix Gateway VM to use your ProxyVM as NetVM instead of sys-firewall:

Alternatively, you can also create any other type of disposable VM (but less secure than the Whonix one):

You should now have a Disposable Browser VM that works with Tor over a cash/Monero paid VPN.

Any other combination? (VPN over Tor over VPN for instance)

By now you should understand how easy it is to route traffic from one VM to the other with Qubes.

You can create several ProxyVMs for VPN accesses and keep the Whonix one for Tor. You just need to change the NetVM settings of the various VMs to change the layout.

You could have:

This would result in User > VPN > Tor > VPN > Internet (VPN over Tor over VPN). Experiment for yourself. Qubes OS is great for these things.

See: Appendix V: What browser to use in your Guest VM/Disposable VM

Fedora Disposable VM:

Within the Applications Menu (upper left), Select the Fedora-36 template:

If you want to use Brave: apply the instructions from https://brave.com/linux/ [Archive.org] and run the following commands:

You should also consider hardening your browser, see Appendix V1: Hardening your Browsers

Whonix Disposable VM:

Edit the Whonix Disposable VM template and follow instructions here https://www.whonix.org/wiki/Install_Software [Archive.org]

Additional browser precautions:

Setup an Android VM:

Because sometimes you want to run mobile Apps anonymously too. You can also set up an Android VM for this purpose. As in other cases, ideally, this VM will also be sitting behind the Whonix Gateway for Tor network connectivity. But this can also be set up as VPN over Tor over VPN.

Since the Android-x86 does not work “well” with Qubes OS (my own experience). We will instead recommend using AnBox (https://anbox.io/ [Archive.org]) which works “well enough” with Qubes OS. More information can also be found at https://www.whonix.org/wiki/Anbox [Archive.org]

If you can use Tor (natively or over a VPN):

Later in the Qubes settings during creation:

If you cannot use Tor:

Just use the tutorials as is. See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option.

Installation:

Basically, follow the tutorial here:

Now you will have to follow the instructions from here: https://github.com/anbox/anbox-modules [Archive.org]:

Now you will follow their other tutorial from here: https://github.com/anbox/anbox/blob/master/docs/install.md [Archive.org]:

This should pop up an Android interface. Sometimes it will crash, and you might have to run it twice to make it work.

If you want to install apps on this emulator:

That’s it, you should now have an Android Qube over Tor (or anything else) capable of running pretty much any App you can sideload with ADB. This is, for now, the easiest way to get Android emulation on Qubes OS.

KeePassXC:

You will need somewhere to store your data (logins/passwords, identities, and TOTP382 information).

For this purpose, KeePassXC is recommended because of its integrated TOTP feature. This is the ability to create entries for 2FA383 authentication with the authenticator feature.

In the context of Qubes OS you should store your sensitive information within the vault Qube:

You are done and can now skip the rest to go to the “Creating your anonymous online identities” part.

Tutorial for installing Windows based VMs on Qubes OS:

See their tutorial here: https://github.com/Qubes-Community/Contents/blob/master/docs/os/windows/windows-tools41.md [Archive.org]

Quick note: Correlation vs Attribution

Correlation is a relationship between two or more variables or attributes. How are attributions determined? During digital forensic and incident response (DFIR), analysts typically look for indicators of compromise (IoCs) following events that call them to act. These indicators usually consist of IP addresses, names, databases; all of which can prescribe a certain behavioral “tag” to an individual or group. This is called attribution. A principal in statistics is that “correlation does not infer causality”. What this means is that, while you may leave certain traces on certain areas of a device or network, that only shows presence of action, i.e., not explicitly your presence. It doesn’t show who you are, it only resolves that something occurred and someone has done something.

Attribution is required to prove fault or guilt, and is the prime reason why people using the Tor network to access the dark web have been compromised: they left traces that were shown to be connected to their real identities. Your IP can be — but is usually not — a large enough indicator to attribute guilt. This is shown in the infamous NotPetya cyber attacks against the U.S., which were later also released upon Ukraine. Though the White House never said it was Russia’s doing, they attributed the attack to Russia’s (GRU) which is a direct office housing the Russian deniable warfare384 cyber divisions, uncommonly referred to as “spy makers” in the intelligence community (IC).

What is the point, you may ask? Well, bluntly speaking, this a perfect example because NotPetya, which is now undoubtedly the work of Russian cyber operations against foreign countries and governments, has still never been formally attributed to Russia, only to a known group within Russia (colloquially dubbed Cozy Bear) which can not be confirmed nor denied given that it is highly compartmentalized within the structure of Russia’s military. And it’s also in part because of the efforts used to disguise itself as a common Ransomware, and because it routinely used the servers of hacked foreign assets not linked to Russia or to its internal networks.

It’s all to show you the lengths that state actors will go to. You may not be aware of it, but foreign governments use concealment techniques such as the ones discussed in the sections of this guide. They routinely use Tor, VPNs to conceal traffic; they use hacked devices and access to stolen equipment to perform cyber espionage every day and it makes attribution incredibly difficult, if not improbable, from a forensic examiner’s point of view. The problem of correlation is trivial, and you can solve it by simply using IP hiding tools such as a VPN and the Tor network, but still be connected to your IRL name and IP through data leaks or other factors. You can not easily be attributed to your activities if you carefully follow and adopt the given techniques and skills discussed below.

Creating your anonymous online identities:

Understanding the methods used to prevent anonymity and verify identity:

Captchas:

image34image35

(Illustrations by Randall Munroe, xkcd.com, licensed under CC BY-NC 2.5)

Captcha385 stands for “Completely Automated Public Turing test to tell Computers and Humans Apart” are Turing tests386 puzzles you need to complete before accessing a form/website. You will mostly encounter those provided by Google (reCAPTCHA service387) and Cloudflare (hCaptcha388). hCaptcha is used on 15% of the internet by their own metrics389.

They are designed to separate bots from humans but are also clearly used to deter anonymous and private users from accessing services.

If you often use VPNs or Tor, you will quickly encounter many captchas everywhere390. Quite often when using Tor, even if you succeed in solving all the puzzles (sometimes dozens in a row), you will still be denied after solving the puzzles.

See https://gitlab.torproject.org/legacy/trac/-/wikis/org/doc/ListOfServicesBlockingTor [Archive.org]

While most people think those puzzles are only about solving a little puzzle, it is important to understand that it is much more complex, and that modern Captchas uses advanced machine learning and risk analysis algorithms to check if you are human391:

It is also highly likely that those platforms could already reliably identify you based on the unique way you interact with those puzzles. This could work despite obfuscation of your IP address / Browser and clearing all cookies.

Watch for example this DEF CON 25 presentation: DEF CON 25 - Svea Eckert, Andreas Dewes - Dark Data [Invidious]

You will often experience several in a row (sometimes endlessly) and sometimes exceedingly difficult ones involving reading undecipherable characters or identifying various objects on endless pictures sets. You will also have more captchas if you use an ad-blocking system (uBlock for example) or if your account was flagged for any reason for using VPNs or Tor previously.

You will also have (in my experience) more Captchas (Google’s reCAPTCHA) if you do not use a Chromium-based browser. But this can be mitigated by using a Chromium-based browsers such as Brave. There is also a Browser extension called Buster that could help you those https://github.com/dessant/buster [Archive.org].

As for Cloudflare (hCaptcha), you could also use their Accessibility solution here (https://www.hcaptcha.com/accessibility [Archive.org]) which would allow you to sign-up (with your anonymous identity created later) and set a cookie within your Browser that would allow you to bypass their captchas. Another solution to mitigate hCaptcha would be to use their own solution called “Privacy Pass”394 https://privacypass.github.io/ [Archive.org] in the form of a Browser extension you could install in your VM Browser.

You should therefore deal with those carefully and force yourself to alter the way you are solving them (speed/movement/accuracy/…) to prevent “Captcha Fingerprinting”.

Fortunately, as far as we are aware, these are not yet officially/publicly used to de-anonymize users for third parties.

To not have those issues, you should consider using a VPN over Tor. And the best option to avoid those is likely to use a self-hosted VPN/Proxy over Tor on a cash/Monero paid VPS server.

Phone verification:

Phone verification is advertised by most platforms to verify you are human. But do not be fooled, the main reason for phone verification is not only to check if you are human but also to be able to de-anonymize you if needed.

Most platforms (including the privacy-oriented ones such as Signal/Telegram/Proton will require a phone number to register, and most countries now make it mandatory to submit a proof of ID to register395.

Fortunately, this guide explained earlier how to get a number for these cases: Getting an anonymous Phone number.

E-Mail verification:

E-Mail verification is what used to be enough but is not anymore in most cases. What is important to know is that open e-mail providers (disposable e-mail providers for instance) are flagged as much as open proxies (like Tor).

Most platforms will not allow you to register using an “anonymous” or disposable e-mail. As they will not allow you to register using an IP address from the Tor network.

The key thing to this is that it is becoming increasingly difficult to sign-up for a free e-mail account anywhere without providing (you guessed it) … a cell phone number. That same cell phone number can be used conveniently to track you down in most places.

It is possible that those services (Proton for instance) might require you to provide an e-mail address for registration. In that case, we would recommend you create an e-mail address from these providers:

Keep in mind that those do not provide a zero-access design (a zero-access design is where only you can access your e-mail - not even the service’s admins can read your messages). This means they can access your e-mail at rest in their database.

A note about Riseup:

RiseUp’s warrant canary has been renewed late, with their Twitter posting a cryptic message seeming to tell users not to trust them. Due to the suspicious situation, this guide can no longer recommend them.

Also see: https://forums.whonix.org/t/riseup-net-likely-compromised/3195

For the https://riseup.net [Tor Mirror] (It has come to my attention that the site now, unfortunately, requires an invitation from a current registered user)

Protecting your anonymous online identities e-mails using Aliasing services:

If you want to avoid communicating your anonymous e-mail addresses to various parties. We would strongly suggest considering using e-mail aliasing services such as:

These services will allow creating random aliases for your anonymous e-mail (on Proton for example) and could increase your general privacy if you do not want to disclose that e-mail for any purpose. They are both recommended by Privacyguides.org and Privacytools.io. I’m recommending them as well.

User details checking:

Obviously, Reddit does not do this (yet), but Facebook most likely does and will look for “suspicious” things in your details (which could include face recognition).

Some examples:

Proof of ID verification:

The deal-breaker in most cases. As far as we know, only Facebook and LinkedIn (outside of financial services) have requested such verifications which involve sending pictures of some form of identification (passport, national ID card, driver’s license …). The only way to do this would involve creating fake official documents (forgery) using some decent Photoshop skills and this might be illegal in most places.

Therefore, this is a line we are not going to help you cross within this guide. Some services are offering such services online, but we think they are bad actors and are overstepping their boundaries.

In many countries, only law enforcement, some specific processes (such as GDPR requests), and some well-regulated financial services may request proof of identification. So, the legality of asking for such documents is debatable and we beieve such platforms should not be allowed to require those.

In few countries (like Germany), this practice is illegal and online platforms such as Facebook or LinkedIn are legally bound to allow you to use a pseudonym and remain anonymous.

IP Filters:

As stated previously in this guide, many platforms will apply filters on the IPs of the users. Tor exit nodes are publicly listed, and VPN exit servers are “well known”. There are many commercial and free services providing the ability to block those IPs with ease (hi Cloudflare).

Many platforms’ operators and administrators do not want traffic from these IPs as they often drive a lot of unlawful/malicious/unprofitable traffic to their platforms. These platforms usually argue using one of the following points:

“Yet we still pay traffic for them so let us just deny them all instead.”

Fortunately, those systems are not perfect, and you will (still) be able to get around those restrictions by switching identities (in the case of Tor) and trying to access the website each time until you find an Exit Node that is not yet blacklisted.

Some platforms will allow you to log in with a Tor IP but not to sign up (See https://gitlab.torproject.org/legacy/trac/-/wikis/org/doc/ListOfServicesBlockingTor [Archive.org]). Those platforms will keep a convenient, permanent log of the IP which you used during sign-up - And some will keep such logs indefinitely, e.g., all the IPs which you have used to log in (hi Facebook).

The tolerance is much higher with VPNs as they are not considered “open proxies”, but that will not stop many platforms from making them hard to use by forcing increasingly difficult CAPTCHAs on most VPN users.

For this reason, this guide does recommend the use of VPN over Tor (and not Tor over VPN) in certain use cases. Remember that the best option to avoid those is to use a self-hosted VPN/Proxy over Tor on a cash/Monero paid VPS.

Browser and Device Fingerprinting:

Many platforms (like Google396) will check your browser for various capabilities and settings and block browsers they do not like. This is one of the reasons we recommend using Chromium-based browsers such as Brave Browser over Tor Browser within this VM.

Here are some of the things they check within recent browsers:

Most of the time, those fingerprints will, unfortunately, be unique or nearly unique to your browser/system. This means that even If you log out from a website and then log back in using a different username, your fingerprint might remain the same if you did not take precautionary measures. An adversary could then use such fingerprints to track you across multiple services even if you have no account on any of them and are using adblocking. These fingerprints could in turn be used to de-anonymize you if you keep the same fingerprint between services.

Here are services you can use to check your browser fingerprints:

Chances are you will find your browser fingerprint unique no matter what you do.

Human interaction:

Some platforms will add this as a bonus step and require you to have an actual human interaction with a customer care representative. Usually by e-mail but sometimes by chat/phone. They will want to verify that you exist by asking you to reply to an e-mail/chat/phone call.

It is annoying but quite easy to deal with in our case. We are not making bots. This guide is for humans making human accounts.

User Moderation:

Many platforms will delegate and rely on their users to moderate the others and their content. These are the “report” features that you will find on most platforms.

Getting reported thousands of times does not matter when you are Donald Trump or Kim Kardashian but if you as a sole “friendless” anonymous user gets reported even once, you might get suspended/flagged/banned instantly.

Behavioral Analysis:

See Your Digital Fingerprint, Footprint, and Online Behavior.

Financial transactions:

Simple and efficient, some platforms will require you to perform a financial transaction to verify your account sometimes under the pretext of verifying your age. This could be a credit card verification or an exceedingly small amount bank wire. Some will accept a donation in a main cryptocurrency like Bitcoin or Ethereum.

While this might seem innocent, this is obviously an ID verification and de-anonymization method. This is just indirectly relying on third-party financial KYC397 regulations.

This is for instance now the case on YouTube for some European Users398 but also used by services like Amazon that requires a valid payment method for creating an account.

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Sign-in with some platform:

“Why do this user-verification ourselves when we can just ask others to deal with it?”

You will notice this, and you probably already encountered this. Some apps/platforms will ask/require you to sign in with a well-known and well-used reputable platform instead of their own system (Sign-in with Google/Facebook/Apple/Twitter).

This option is often presented as the “default one”, hiding away the “Sign-in with e-mail and password” with clever Dark Patterns399 and unfortunately sometimes needed.

This method will delegate the verification process on those platforms instead of assuming that you will not be able to create an anonymous Google/Facebook/Apple/Twitter account with ease.

Fortunately, it is still possible to this day to create those.

Live Face recognition and biometrics (again):

This is a common method used on some Crypto trading platforms and some dating Apps.

Some platforms/apps will require you to take a live picture of yourself either doing something (a wink, holding an arm up …) or showing a custom piece of information (a handwritten text, a passport, or ID) within the picture. Sometimes the platform/app will require several pictures to increase their certainty.

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This guide will not cover this one (yet) as it is mainly used on financial platforms (that will be able to identify you with other means anyway) and some dating apps like Tinder400. Unfortunately, this method is now also sometimes being used on Facebook401 and Instagram as part of their verification methods (tho we did not face it yet so far).

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In some cases, these verifications must be done from your Smartphone and with an “in-app” camera to prevent you from sending a previously saved (edited) image.

Recently even platforms such as PornHub decided to implement similar measures in the future402.

This verification is extremely hard to defeat but possible. A method to possibly defeat those would be to use “deep fake” technology software such as the open-source FaceSwap https://github.com/deepfakes/faceswap [Archive.org] to generate the required verification pictures using a randomly computer-generated face that would be swapped over the picture of a complicit model (or a stock photo).

Unfortunately, some apps require direct access to a smartphone camera to process the verification. In that case, you will need to find a way to do such “face swaps” on the fly using a filter and another way to feed this into the camera used by the app. A possible approach would be similar to this impressive project https://github.com/iperov/DeepFaceLive [Archive.org].

Manual reviews:

These can be triggered by any of the above and just means someone (usually specialized employees) will review your profile manually and decide whether it is real or not based on their subjective opinion.

Some countries have even developed hotlines where you can report any subversive content403.

Pros: Usually that verdict is “final”, and you will probably avoid further issues if you are good.

Cons: Usually that verdict is “final”, and you will probably be banned without any appeal possibility if you are not good. Sometimes those reviews end up on the platform just ghosting you and cancel you without any reason whatsoever. Any appeal will be left unanswered, ignored, or will generate some random dark pattern bug when trying to appeal that specific identity (this happens on Instagram for instance where if your account gets “suspended” obviously by some manual review, trying to complete the appeal form will just throw an error and tell you to try again later (We have been trying this same appeal for that identity for the past 6 months at least).

Getting Online:

Now that you have a basic understanding of all the ways you can be de-anonymized, tracked, and verified. Let us get started at evading these while staying anonymous. Remember:

So what? Well instead of not trusting anyone or anything, we would advise to “Trust but verify”404 (or “Never trust, always verify” if you are more hardcore about it and want to apply Zero-Trust Security405) instead.

Do not start this process unless:

Remember to see Appendix N: Warning about smartphones and smart devices

Creating new identities:

This is the fun part where you will now create your identities from thin air. These identities do not exist but should be plausible and look “organic”. They should ideally have a story, a “legend” (yes this is the real term for this406).

What is a legend? Well, it is a full back-story for your character:

All these should be crafted carefully for every single identity, and you should be incredibly careful to stick to the details of each legend when using those identities. Nothing can leak that could lead to your real persona. Nothing could leak that could compromise the consistency of your legend. Everything should always be consistent.

Tools that can help with this:

Now is also the moment where you could finally consider getting an online phone number as explained in the Online Phone Number (less recommended) section.

We will help you bit by listing a few tips we learned while researching over the years (disclaimer: this is based on my individual experiences alone):

*Warning: https://generated.photos/face-generator requires JavaScript to function and does a lot of fingerprinting. Most of it is being sent to Microsoft Clarity. Even with uBlock installed and on safer level, Tor Browser wasn’t efficient at blocking the fingerprinting. This obviously does not work on Safest level. On our tests, only Brave with agressive fingerprinting/ad shields did not send analytics.

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Slight issue tho: MyHeritrage.com bans Tor Exit nodes so you might have again to consider VPN over Tor for this.

You could also achieve the same result without using MyHeritage and by doing it yourself using for example https://github.com/AliaksandrSiarohin/first-order-model [Archive.org] but this will require more manual operations (and requires an NVIDIA GPU). Other commercial products will soon be available such as: https://www.d-id.com/talkingheads/ [Archive.org] with examples here: https://www.youtube.com/channel/UCqyzLOHYamYX2tNXBNSHr1w/videos [Invidious].

Note: If you make several pictures of the same identity using some of the tools mentioned above, be sure to compare the similarities using the Microsoft Azure Face Verification tool at https://azure.microsoft.com/en-us/services/cognitive-services/face/#demo.

Here is also a good guide on this specific topic: https://gendersec.tacticaltech.org/wiki/index.php/Complete_manual#.22Real.22_names [Archive.org]

Note: If you are having trouble finding an exit node in the country of your choice you can force using specific countries for Exit Nodes (and therefore exit countries) on Tor by editing the torrc file on the Whonix Gateway or even the Tor Browser:

Once you are in the file, you can do the following:

Always use uppercase letters for any setting.

Please note that this is restricting Onion Routing could limit your Anonymity if you are too restrictive. You can see a visualized list of available Exit Nodes here: https://www.bigdatacloud.com/insights/tor-exit-nodes [Archive.org]

Here is the list of possibilities (this is a general list and many of those countries might not have Exit nodes at all): https://web.archive.org/web/https://b3rn3d.herokuapp.com/blog/2014/03/05/tor-country-codes/

Checking if your Tor Exit Node is terrible:

Skip this if you are using a VPN/Proxy over Tor (tho you can also do the same checks with a VPN exit node if you want).

Not all Tor Exit nodes are equal. This is mostly due to what type of “exit policy” their operator applies to them.

Some Tor Exit nodes are seen are more or less “clean” and will only show up in the Tor Exit nodes lists. Some other Tor Exit nodes are seen as “dirty” and will show up in dozens of various blocklists. So how do you know if you are on a clean one or a bad one? It is not that simple.

If you are using Tor Browser Bundle (not on Whonix Workstation, on Tails, or on the Host/Guest OS):

If you are using Tor Browser on the Whonix Workstation:

If you are not using Tor Browser on a guest non-whonix VM behind the Whonix Gateway:

The Real-Name System:

Unfortunately, not using your real identity is against the ToS (Terms of Services) of many services (especially those owned by Microsoft and Facebook). But don’t despair, as explained in the Requirements, it’s still legal in Germany where the courts have upheld up the legality of not using real names on online platforms (§13 VI of the German Telemedia Act of 2007413414). Fortunately, ToS cannot override laws (yet).

This does not mean that it is illegal in other places but that it might be a breach of their Terms of Services if you do not have the law on your side. Remember this guide only endorses this for German users residing in Germany.

On my side, we strongly condemn this type of real-name policy. See for instance this Wikipedia article giving some examples: https://en.wikipedia.org/wiki/Facebook_real-name_policy_controversy [Wikiless] [Archive.org]

Here are some more references about the German case for reference:

Alternatively, you could be an adult resident of any other country where you can confirm and verify the legality of this yourself. Again, this is not legal advice, and we are not lawyers. Do this at your own risk.

Other countries where this was ruled illegal:

Some platforms are bypassing this requirement altogether by requiring a valid payment method instead (see Financial transactions:). While this does not directly require a real name through their ToS, this has the same results as they usually only accept mainstream (not Monero/Cash) payment methods (such as Visa/MasterCard/Maestro or PayPal) which do require a real-name legally as part of their KYC415 regulations. The result is the same and even better than a simple real-name policy you could ignore in some countries such as Germany.

About paid services:

If you intend to use paid services, privilege those accepting cash payments or Monero payments which you can do directly and safely while keeping your anonymity.

If the service you intend to buy does not accept those but accepts Bitcoin (BTC), consider the following appendix: Appendix Z: Paying anonymously online with BTC (or any other cryptocurrency).

Overview:

This section will show you an overview of the current various requirements on some platforms:

The following overview does not mention the privacy practices of those platforms but only their requirements for registering an account. If you want to use privacy-aware tools and platforms, head on to https://privacyguides.org [Archive.org].

Legend:

Service Against ToS Requires Phone Requires E-Mail VPN Sign-up Tor Sign-up Captchas

ID or

Financial Checks

Facial Checks Manual Checks Overall difficulty
Amazon No No Yes Yes Yes No Yes* No Unclear N/A
Apple Yes* Yes Yes Yes Yes No No No No Medium
Binance Yes* No Yes Yes No Yes No No No Medium
Briar No No No Yes Yes No No No No Easy
Discord No No Yes Yes Yes Yes No No No Medium
Element No No No Yes Yes Yes No No No Easy
Facebook Yes* Yes Yes Maybe Maybe Yes Maybe Maybe Maybe Hard
GitHub No No Yes Yes Yes Yes No No No Easy
GitLab No No Yes Yes Yes Yes No No No Easy
Google No Likely Likely Yes Yes Yes Maybe No Maybe Medium
HackerNews No No No Yes Yes Yes No No No Easy
Instagram Unclear Likely Yes Yes Yes Yes No Maybe Maybe Medium
Jami No No No Yes No No No No No Easy
iVPN No No No Yes Yes No No No No Easy
Kraken Yes* No Yes Yes No No No No No Medium
LinkedIn Yes* Yes Yes Yes Yes Yes Maybe Maybe Maybe Hard
MailFence No No Yes Yes Maybe Yes No No No Medium
Medium No No Yes Yes Yes No No No No Easy
Microsoft Yes* Maybe Maybe Yes Yes Yes No No No Medium
Mullvad No No No Yes Yes No No No No Easy
Njalla No No No Yes Yes No No No No Easy
OnionShare No No No Yes Yes No No No No Easy
OnlyFans No No Yes Yes Yes Yes Yes (for full functionalities) No No Hard (for full functionalities)
Proton Mail No Maybe Likely Yes Yes Yes No No No Medium
Proton VPN No No Yes Yes Yes No No No No Medium
Reddit No No No Yes Yes No No No No Easy
Slashdot Yes* No No Yes Yes Yes No No No Medium
Telegram No Yes No Yes Yes No No No No Easy
Tutanota No No No Maybe No Yes No No No Hard
Twitch No No Yes Yes Yes Yes No No No Easy
Twitter No Yes Yes Yes Yes Yes No No Maybe Medium
WhatsApp Yes* Yes No Yes Yes No No No No Medium
4chan No No No No No Yes No No No Hard
Below you’ll find a list of “problematic services”. If they’re not below, it means there are no issues at all with anything (like Briar for example)

Amazon:

"1. Amazon Services, Amazon Software

A. Use of Amazon Services on a Product. To use certain Amazon Services on a Product, you must have your own Amazon.com account, be logged in to your account on the Product, and have a valid payment method associated with your account. "

While it does not technically require a real name. It does require a valid payment method. Unfortunately, it will not accept “cash” or “Monero” as a payment method. So instead, they are relying on financial KYC (where a real-name policy is pretty much enforced everywhere).

Because of this valid payment method requirement, we could not test this. While this is seemingly not against their ToS, it is not possible within the context of this guide unless you manage to obtain a valid KYC payment method anonymously which AFAIK is pretty much impossible or extremely difficult.

So, AFAIK, it is not possible to create an anonymous Amazon account.

Apple:

"IV. Your Use of the Service

A. Your Account

In order to use the Service, you must enter your Apple ID and password to authenticate your Account. You agree to provide accurate and complete information when you register with, and as you use, the Service (“Service Registration Data”), and you agree to update your Service Registration Data to keep it accurate and complete".

Note that this account will not allow you to set up an Apple mail account. For that, you will need an Apple device.

Binance:

Discord:

You might encounter more issues using the Web Client (Captchas). Especially with Tor Browser.

I suggest using the Discord Client app on a VM through Tor or ideally through VPN/Proxy over Tor to mitigate such issues.

Element:

Expect some Captchas during account creation on some homeservers.

Facebook:

"1. Who can use Facebook

When people stand behind their opinions and actions, our community is safer and more accountable. For this reason, you must:

But this clause of their ToS is illegal in Germany (see Requirements).

Facebook is one of the most aggressive platforms with identity verification and is pushing hard their “real name policy”. It is why this guide is only advised to German residents.

Over our tests tho we were able to pinpoint a few tips:

I also suspect strongly based on my test that the following points have an impact on your likelihood of being suspended over time:

If your account gets suspended, you will need to appeal the decision through a quite simple form that will require you to submit a “proof of ID”. However, that proof of ID verification system is more lenient than LinkedIn and will allow you to send various documents which require far less Photoshop skills.

It is also possible that they ask you to take a selfie video or picture-making certain gestures to prove your identity. If that is the case, we are afraid it is a dead-end for now unless you use a deepfake face swapping technique.

If you do file an appeal, you will have to wait for Facebook to review it (I do not know whether this is automatic or human) and you will have to wait and hope for them to unsuspend your account.

GitHub:

GitHub is straightforward and requires no phone number.

Be sure to go into Settings > E-Mail and make your e-mail private as well as block any push that would reveal your e-mail.

GitLab:

GitLab is straightforward and requires no phone number.

Google:

Proton is good … but to appear less suspicious, it is simply better to also have a mainstream Google Mail account.

As Proton, Google will also most likely require a phone number during sign-up as part of their verification process. However contrary to Proton, Google will store that phone number during the sign-up process and will also limit the number of accounts that can be created during the sign-up417418.

From my experience during my research, this count is limited to three accounts/phone numbers. If you are unlucky with your number (if it was previously used by another mobile user), it might be less.

You should therefore use again your online phone number OR your burner phone and pre-paid SIM card to create the account. Do not forget to use the identity details you made up earlier (birthdate). When the account is created, please do take some time to do the following:

Keep in mind that there are different algorithms in place to check for weird activity. If you receive any mail (on Proton) prompting about a Google Security Warning. Click it and click the button to say, “Yes it was me”. It helps.

Do not use that account for “sign-up with Google” anywhere unless necessary.

Be extremely careful if you decide to use the account for Google activities (such as Google Maps reviews or YouTube Comments) as those can easily trigger some checks (Negative reviews, Comments breaking Community Guidelines on YouTube).

If your account gets suspended 419 (this can happen on sign-up, after signing-up or after using it in some Google services), you can still get it unsuspended by submitting420 an appeal/verification (which will again require your Phone number and possibly an e-mail contact with Google support with the reason). Suspension of the account does not disable the e-mail forwarding, but the suspended account will be deleted after a while.

After suspension, if your Google account is restored, you should be fine.

If your account gets banned, you will have no appeal and the forwarding will be disabled. Your phone number will be flagged, and you will not be able to use it to sign-up on a different account. Be careful when using those to avoid losing them. They are precious.

It is also possible that Google will require an ID check through indirect financial KYC or ID picture check if you try to access/publish mature content on their platform421.

Instagram:

"You can’t impersonate others or provide inaccurate information. You do not have to disclose your identity on Instagram, but you must provide us with accurate and up-to-date information (including registration information). Also, you may not impersonate someone you are not, and you can’t create an account for someone else unless you have their express permission".

This one is a bit of an Oxymoron don’t you think? So, we are not sure whether it is allowed or not.

It is also possible that they ask you to take a selfie video or picture-making certain gestures to prove your identity (within the app or through an e-mail request). If that is the case, we are afraid it is a dead-end for now.

It is no secret that Instagram is part of Facebook however it is more lenient than Facebook when it comes to user verification. It is quite unlikely you will get suspended or banned after signing up. But it could help.

For instance, we noticed that you will face fewer issues creating a Facebook account if you already have a valid Instagram account. You should always create an Instagram account before trying Facebook.

Unfortunately, there are some limitations when using the web version of Instagram. For instance, you will not be able to enable Authenticator 2FA from the web for a reason we do not know.

After sign-up, do the following:

Jami:

Kraken:

LinkedIn:

“To use the Services, you agree that: (1) you must be the”Minimum Age" (described below) or older; (2) you will only have one LinkedIn account, which must be in your real name; and (3) you are not already restricted by LinkedIn from using the Services. Creating an account with false information is a violation of our terms, including accounts registered on behalf of others or persons under the age of sixteen. "

But this clause of their ToS is illegal in Germany (see Requirements).

LinkedIn is far less aggressive than twitter but will nonetheless require a valid e-mail (preferably again your Gmail) and a phone number in most cases (tho not always).

LinkedIn however is relying a lot on reports and user/customer moderation. You should not create a profile with an occupation inside a private corporation or a small startup company. The company employees are monitoring LinkedIn activity and receive notifications when new people join. They can then report your profile as fake, and your profile will then be suspended or banned pending appeal.

LinkedIn will then require you to go through a verification process that will, unfortunately, require you to send an ID proof (identity card, passport, driver’s license). This ID verification is processed by a company called Jumio422 that specializes in ID proofing. This is most likely a dead end as this would force you to develop some strong Photoshop skills.

Instead, you are far less likely to be reported if you just stay vague (say you are a student/intern/freelance) or pretend you work for a large public institution that is too large for anyone to care or check.

As with Twitter and Google, you should do the following after signing up:

MailFence:

Medium:

Signing-in does require an e-mail every time.

Microsoft:

"i. Creating an Account. You can create a Microsoft account by signing up online. You agree not to use any false, inaccurate, or misleading information when signing up for your Microsoft account".

But this clause of their ToS is illegal in Germany (see Requirements).

So yes, it is still possible to create an MS account without a phone number and using Tor or VPN, but you might have to cycle through a few exit nodes to achieve this.

After signing up you should set up 2FA authentication within the security options and using KeePassXC TOTP.

OnlyFans:

Unfortunately, you will be extremely limited with that account and to do anything you will need dot complete their verification process which requires a KYC type financial transaction check. So, not very useful.

Proton:

You obviously need an e-mail for your online identity and disposable e-mails are pretty much banned everywhere.

Proton is a free e-mail provider based in Switzerland that advocates security and privacy.

They are recommended by Privacyguides.org423. Their only apparent issue is that they do require (in most cases) a phone number or another e-mail address for registration (when you try to register from a VPN or Tor at least).

They claim they do not store/link the phone/e-mail associated with the registration but only store a hash that is not linked to the account424. If their claim is true and the hash is not linked to your account, and that you followed my guide about the phone number, you should be reasonably safe from tracking.

This e-mail account can be used for creating a Google/Gmail account.

Reddit:

Reddit is simple. All you need to register is a valid username and a password. Normally they do not even require an e-mail (you can skip the e-mail when registering, leaving it blank).

No issues whatsoever signing up over Tor or VPN besides the occasional Captchas.

Consider reading this reddit post: https://old.reddit.com/r/ShadowBan/comments/8a2gpk/an_unofficial_guide_on_how_to_avoid_being/ [Archive.org]

Slashdot:

"8. Registration; Use of Secure Areas and Passwords

Some areas of the Sites may require you to register with us. When and if you register, you agree to (a) provide accurate, current, and complete information about yourself as prompted by our registration form (including your e-mail address) and (b) to maintain and update your information (including your e-mail address) to keep it accurate, current, and complete. You acknowledge that should any information provided by you be found to be untrue, inaccurate, not current, or incomplete, we reserve the right to terminate this Agreement with you and your current or future use of the Sites (or any portion thereof)".

Telegram:

Telegram is quite straightforward, and you can download their portable Windows app to sign-up and log in.

It will require a phone number (that can only be used once) and nothing else.

In most cases, we had no issues whether it was over Tor or VPN, but we had a few cases where our telegram account was just banned for violating terms of services (not sure which one?). This again despite not using them for anything.

They provide an appeal process through e-mail, but we had no success with getting any answer.

Their appeal process is just sending an e-mail to recover@telegram.org [Archive.org] stating your phone number and issue and hope they answer.

After signing up you should do the following:

Tutanota:

Twitter:

Twitter is extremely aggressive in preventing anonymity on its network. You should sign-up using e-mail and password (not phone) and not using “Sign-in with Google”. Use your Gmail as the e-mail address.

More than likely, your account will be suspended immediately during the sign-up process and will require you to complete a series of automated tests to unlock. This will include a series of captchas, confirmation of your e-mail and Twitter handle, or other information. In some cases, it will also require your phone number.

In some cases, despite you selecting a text verification, the Twitter verification system will call the phone no matter what. In that case, you will have to pick up and hear the verification code. We suspect this is another method of preventing automated systems and malicious users from selling text receiving services over the internet.

Twitter will store all this information and link it to your account including your IP, e-mail, and phone number. You will not be able that phone number to create a different account.

Once the account is restored, you should take some time to do the following:

After about a week, you should check Twitter again and the chances are quite high that it will be suspended again for “suspicious activity” or “violating community guidelines” despite you not using it at all (not even a single tweet/follow/like/retweet or DM) but this time by another system. We call this the “Double-tap”.

This time you will need to submit an appeal using a form425, provide a good reason and wait for the appeal to be processed by Twitter. During that process, you may receive an e-mail (on Proton) asking you to reply to a customer service ticket to prove that you do have access to your e-mail and that it is you. This will be directed toward your Gmail address but will arrive on your Proton.

Do not reply from Proton as this will raise suspicions, you must sign in to Gmail (unfortunately) and compose a new mail from there copy-pasting the E-Mail, Subject, and Content from Proton. As well as a reply confirming you have access to that e-mail.

After a few days, your account should get unsuspended “for good”. No issues after that but keep in mind they can still ban your account for any reason if you violate the community guidelines. The phone number and e-mail will then be flagged, and you will have no other option but to get a new identity with a new number to sign-up again. Do not use this account for trolling.

Twitch:

Note that you will not be able to enable 2FA on Twitch using only e-mail. This feature requires a phone number to enable.

WhatsApp:

Registration. You must register for our Services using accurate information, provide your current mobile phone number, and, if you change it, update your mobile phone number using our in-app change number feature. You agree to receive text messages and phone calls (from us or our third-party providers) with codes to register for our Services”.

4chan:

4chan is 4chan … This guide will not explain 4chan to you. They block Tor exit nodes and known VPN IP ranges.

You are going to have to find a separate way to post there using at least seven proxies426 that are not known by 4chan blocking system (hint: Anonymous VPS using Monero is probably your best option).

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Crypto Wallets:

Use any crypto wallet app within the Windows Virtual Machine. But be careful not to transfer anything toward an Exchange or a known Wallet. Crypto is in most cases NOT anonymous and can be traced back to you when you buy/sell any (remember the Your Cryptocurrencies transactions section).

If you really want to use Crypto, use Monero which is the only one with reasonable privacy/anonymity.

Ideally, you should find a way to buy/sell crypto with cash from an unknown person.

What about those mobile-only apps (WhatsApp/Signal)?

There are only three ways of securely using those anonymously (that we would recommend). Using a VPN on your phone is not one of those ways. All of those are, unfortunately, “tedious” to say the least.

There is no way to reliably set a decent multi-layered connectivity approach easily on an Android phone (it is not even possible on IOS as far as we know). By reliable, we mean being sure that the smartphone will not leak anything such as geolocation or anything else from booting up to shutting down.

Anything else:

You should use the same logic and security for any other platform.

It should work in most cases with most platforms. The hardest platform to use with full anonymity is Facebook.

This will obviously not work with banks and most financial platforms (such as PayPal or Crypto Exchanges) requiring actual real official and existing identification. This guide will not help you there as this would be illegal in most places.

How to share files privately and/or chat anonymously:

There are plenty of messaging apps everywhere. Some have excellent UI and UX and terrible Security/Privacy. Some have excellent Security/Privacy but terrible UI and UX. It is not easy to pick the ones that you should use for sensitive activities. So, this section will help you do that.

Before going further, there are also some key basic concepts you should understand:

End-to-end Encryption:

End-to-end Encryption427 (aka e2ee) is a rather simple concept. It just means only you and your destination know each-others public encryption keys and no one in between that would be eavesdropping would be able to decrypt the communication.

However, the term is often used differently depending on the provider:

For these reasons, it is always important to check the claims of various apps. Open-Source apps should always be preferred to verify what kind of encryption they are using and if their claims are true. If not open source, such apps should have an openly available independent (made by a reputable third party) report confirming their claims.

Roll your own crypto:

See the Bad Cryptography section at the start of this guide.

Always be cautious of apps rolling their own crypto until it has been reviewed by many in the crypto community (or even better published and peer-reviewed academically). Again, this is harder to verify with closed-source proprietary apps.

It is not that rolling your own crypto is bad in essence, it is that good cryptography needs real peer-reviewing, auditing, testing… And since you are probably not a cryptanalyst (and we are not either), chances are high we are not competent to assess the cryptography of some apps.

Forward Secrecy:

Forward Secrecy428 (FS aka PFS for Perfect Forward Secrecy) is a property of the key agreement protocol of some of those messaging apps and is a companion feature of e2ee. This happens before you establish communication with the destination. The “Forward” refers to the future in time and means that every time you establish a new e2ee communication, a new set of keys will be generated for that specific session. The goal of forward secrecy is to maintain the secrecy of past communications (sessions) even if the current one is compromised. If an adversary manages to get hold of your current e2ee keys, that adversary will then be limited to the content of the single session and will not be able to easily decrypt past ones.

This has some user experience drawbacks like for instance, a new device could not be able to conveniently access the remotely stored chat history without additional steps.

So, in short, Forward Secrecy protects past sessions against future compromises of keys or passwords.

More on this topic on this YouTube video: https://www.youtube.com/watch?v=zSQtyW_ywZc [Invidious]

Some providers and apps claiming to offer e2ee do not offer FS/PFS sometimes for usability reasons (group messaging for instance is more complex with PFS). It is therefore important to prefer open-source apps providing forward secrecy to those that do not.

Zero-Access Encryption at rest:

Zero-Access Encryption429 at rest is used when you store data at some provider (let us say your chat history or chat backups) but this history or backup is encrypted on your side and cannot be read or decrypted by the provider hosting it.

Zero-Access encryption is an added feature/companion to e2ee but is applied mainly to data at rest and not communications.

Examples of this issue would be iMessage and WhatsApp, see the Your Cloud backups/sync services at the start of this guide.

So again, it is best to prefer Apps/Providers that do offer Zero-Access Encryption at rest and cannot read/access any of your data/metadata even at rest and not only limited to communications.

Such a feature would have prevented important hacks such as the Cambridge Analytica scandal430 if it were implemented.

Metadata Protection:

Remember the Your Metadata including your Geo-Location section. End-to-end Encryption is one thing, but it does not necessarily protect your metadata.

For Instance, WhatsApp might not know what you are saying but they might know who you are talking to, how long and when you have been talking to someone, who else is in groups with you, and if you transferred data with them (such as large files).

End-to-end Encryption does not in itself protect an eavesdropper from harvesting your metadata.

This data can also be protected/obfuscated by some protocols to make metadata harvesting substantially harder for eavesdroppers. This is the case for instance with the Signal Protocol which does offer some added protection with features like:

Other Apps like Briar or OnionShare will protect metadata by using the Tor Network as a shield and storing everything locally on-device. Nothing is stored remotely, and all communications are either direct using proximity wi-fi/Bluetooth or remotely through the Tor network.

Most apps however and especially closed-source proprietary commercial apps will collect and retain your metadata for various purposes. And such metadata alone is enough to figure out a lot of things about your communications.

Again, it is important to prefer open-source apps with privacy in mind and various methods in place to protect not only the content of communications but all the associated metadata.

Open-Source:

Finally, Open-Source apps should always be preferred because they allow third parties to check actual capabilities and weaknesses vs claims of marketing departments. Open-Source does not mean the app should be free or non-commercial. It just means transparency.

Comparison:

App0 e2ee1 Roll Your Own Crypto

Perfect

Forward Secrecy

Zero-Access Encryption at-rest5 Metadata Protection (obfuscation, encryption…) Open-Source Default Privacy Settings Native Anonymous Sign-up (no e-mail or phone) Possible through Tor Privacy and Security Track Record *** De-centralized Additional notes

Berty

(avoid)

Yes No Yes Yes Yes Yes 13 Good Yes Yes Good Yes (peer to peer) Not sufficiently reviewed by this project, cannot recommend
Briar (preferred) Yes No 1 Yes Yes Yes (strong) Yes Good Yes Natively3 Good Yes (peer to peer)

Cwtch

(preferred)

Yes No Yes Yes Yes (strong) Yes Good Yes Natively Good Yes (peer to peer)

Discord

(avoid)

No Closed-source7 No No No No Bad E-Mail Required Virtualization Bad No
Element / Matrix.org (preferred) Yes (opt-in) No Yes Yes Poor2 Yes Good Yes Via Proxy3 or Virtualization Good Partial (federated servers)
Facebook Messenger (avoid) Partial (Only 1to1 / opt-in) Closed-source7 Yes No No No Bad E-Mail and Phone required Virtualization Bad No
OnionShare (preferred) Yes No TBD8 TBD8 Yes (strong) Yes Good Yes Natively Good Yes (peer to peer)
Apple Messages (aka iMessage) Yes Closed-source7 No Partial No No Good Apple device Required Maybe Virtualization using real Apple device ID Bad No
IRC Yes (OTR plugins) No No No No Yes Bad Yes Via Proxy3 or Virtualization Good No

Jami

(preferred)

Yes No3 Yes Yes Partial Yes Good Yes Via Proxy3 or Virtualization9 Good Partial Tor breaks some features
KakaoTalk (avoid) Yes Closed-source7 No4 No No No Bad No (but possible) Virtualization Bad No
Keybase Yes No Partial (exploding message) No No Yes Good E-Mail Required No
Kik (avoid) No Closed-source7 No No No No Bad No (but possible) Virtualization Bad No
Line (avoid) Partial (opt-in) Closed-source7 No No No No Bad No (but possible) Virtualization Bad No
Pidgin with OTR (avoid) Yes (OTR5) No Yes No No Yes Bad Yes Via Proxy3 or Virtualization Bad6 No
Tox (avoid) Yes No No No No Yes Good Yes Via Proxy3 or Virtualization Medium7 Yes Known cryptographic weaknesses14

Session

(Preferred only on iOS)

Yes No No Yes Yes Yes Good Yes Via Proxy3 or Virtualization10 Good Yes Lacks PFS, deniability
Signal Yes No Yes Yes Yes (moderate) Yes Good Phone Required Virtualization Good No Requires burner or anonymous VOIP number for anonymous usage
Skype (avoid) Partial (Only 1to1 / opt-in) Closed-source7 No No No No Bad No (but possible) Virtualization Bad No
SnapChat (avoid) No Closed-source7 No No No No Bad No (but possible) Virtualization Bad No Deleted/expired messages are easily recoverable15,16
Teams (avoid) Yes Closed-source7 No No No No Bad No (but possible) Virtualization Bad No
Telegram Partial (Only 1to1 / opt-in) Yes (MTProto8) Partial (secret chats only) Yes No Partial5 Medium (e2ee off by default) Phone Required Via Proxy3 or Virtualization Medium9 No
Viber (avoid) Partial (Only 1to1) Closed-source7 Yes No No No Bad No (but possible) Virtualization Bad No
WeChat (avoid) No Closed-source7 No No No No Bad No Virtualization Bad No
WhatsApp (avoid) Yes Closed-source7 Yes No No No Bad Phone Required Virtualization Bad No
Wickr Me Partial (Only 1to1) No Yes No Yes (moderate) No Good Yes Virtualization Good No
Gajim (XMPP) (preferred) Yes No Yes No No Yes Good Yes Via Proxy3 or Virtualization Good Partial
Zoom (avoid10) Disputed11 No TBD8 No No No Bad E-Mail Required Virtualization Bad12 No Malware risk17
Molly Yes No Yes Yes Yes (moderate) Yes Good Phone Required Virtualization Good No Requires phone number. Security hardened fork of Signal client. Security may be delayed for up to a week

  1. Briar Documentation, Bramble Transport Protocol version 4 https://code.briarproject.org/briar/briar-spec/blob/master/protocols/BTP.md [Archive.org]↩︎

  2. Serpentsec, Matrix https://web.archive.org/web/https://serpentsec.1337.cx/matrix↩︎

  3. Wikipedia, GnuTLS, https://en.wikipedia.org/wiki/GnuTLS [Wikiless] [Archive.org]↩︎

  4. KTH ROYAL INSTITUTE OF TECHNOLOGYSCHOOL OF ELECTRICAL ENGINEERING, A Security and Privacy Audit of KakaoTalk’s End-to-End Encryption www.diva-portal.org/smash/get/diva2:1046438/FULLTEXT01.pdf [Archive.org]↩︎

  5. Wikipedia, OTR https://en.wikipedia.org/wiki/Off-the-Record_Messaging [Wikiless] [Archive.org]↩︎

  6. Pidgin Security Advisories, https://www.pidgin.im/about/security/advisories/ [Archive.org]↩︎

  7. Whonix Forum, Tox Integration https://forums.whonix.org/t/tox-qtox-whonix-integration/1219 [Archive.org]↩︎

  8. Telegram Documentation, MTProto Mobile Protocol https://core.telegram.org/mtproto [Archive.org]↩︎

  9. Wikipedia, Telegram Security Breaches, https://en.wikipedia.org/wiki/Telegram_(software)#Security_breaches [Wikiless] [Archive.org]↩︎

  10. TechCrunch, Maybe we shouldn’t use Zoom after all, https://techcrunch.com/2020/03/31/zoom-at-your-own-risk/ [Archive.org]↩︎

  11. The Incercept, Zoom Meetings Aren’t End-to-End Encrypted, Despite Misleading Marketing https://theintercept.com/2020/03/31/zoom-meeting-encryption/ [Tor Mirror] [Archive.org]↩︎

  12. Serpentsec, Secure Messaging: Choosing a chat app https://web.archive.org/web/https://serpentsec.1337.cx/secure-messaging-choosing-a-chat-app↩︎

  13. Berty, Development, https://berty.tech↩︎

  14. Tox Handshake Vulnerable to KCI, https://github.com/TokTok/c-toxcore/issues/426↩︎

  15. The Guardian, Deleted Snapchat photos recovered ‘within days’ by forensics company, https://www.theguardian.com/technology/2013/may/09/snapchat-photos-not-deleted↩︎

  16. The Guardian, Snapchat’s expired snaps are not deleted, just hidden, https://web.archive.org/web/20131115224243/https://www.theguardian.com/media-network/partner-zone-infosecurity/snapchat-photos-not-deleted-hidden↩︎

  17. The Guardian, ‘Zoom is malware’: why experts worry about the video conferencing platform, https://www.theguardian.com/technology/2020/apr/02/zoom-technology-security-coronavirus-video-conferencing↩︎

Legend:

  1. The mention “preferred” or “avoid” refers to the use of those apps for sensitive communications. This is just my opinion, and you can make your own using the resources above and others. Remember “Trust but verify”.

  2. e2ee refers to “end-to-end encryption”

  3. Additional steps might be needed for securing Tor Connectivity

  4. Their ability and willingness to fight for privacy and not cooperate with various adversaries

  5. Only the client apps are open-source, not the server-side apps

  6. This means the data is fully encrypted at rest (and not only during transit) and unreadable by any third party without a key you only know (including backups)

  7. Unverifiable because it is proprietary closed source.

  8. To Be Determined, unknown at the time of this writing

  9. Jami will require you to enable DHTProxy in their options to work and it will be limited to text only.

  10. Session also uses their own Onion Routing solution called LokiNet

Some apps like Threema and Wire were excluded from this comparison due to not being free and not accepting anonymous cash methods such as Cash/Monero.

Conclusion:

Remember: Appendix B1: Checklist of things to verify before sharing information.

We will recommend these options in that order (as also recommend by Privacyguides.org434435 except for Session and Cwtch):

** Note that these options (Briar, Cwtch, and OnionShare) do not support multi-devices yet. Your information is strictly stored on the device/OS where you are setting it up. Do not use those on a non-persistent OS unless you want ephemeral use.

Any safe options for mobile devices? Yes, but these are not endorsed/recommended except Briar on Android. Remember also that this guide discourages the use of smartphones for sensitive activities in general.

Note that all the non-native Tor options must be used over Tor for safety (from Tails or a guest OS running behind the Whonix Gateway such as the Whonix Workstation or an Android-x86 VM).

WhileWedo not recommend most of the messaging platforms for the various reasons outlined above (phone number and e-mail requirements), this does not mean it is not possible to use them anonymously if you know what you are doing. You can use even Facebook Messenger anonymously by taking the necessary precautions outlined in this guide (virtualization behind a Tor Gateway on a non-persistent OS).

The ones that are preferred are recommended due to their stance on privacy, their default settings, their crypto choices but also because they allow convenient anonymous sign-up without going through the many hassles of having a phone number/e-mail verification method and are open source. Those should be privileged in most cases.

You can also consult the following external resources for more comparisons (we do not necessarily endorse their opinions):

We do not endorse or recommend some mainstream platforms for anonymity including the much-praised Signal which to this date still requires a phone number to register and contact others. In the context of this guide, we strongly recommend against using Signal if possible. The same recommendation applies to popular forks of Signal such as Molly (https://molly.im[Archive.org])

How to share files publicly but anonymously:

Warning: before sharing anything publicly, make sure your files are curated of any information that could compromise your identity. See Appendix B1: Checklist of things to verify before sharing information.

Consider the following platforms:

Consider the use of IPFS436:

Redacting Documents/Pictures/Videos/Audio safely:

You might want to self-publish some information safely and anonymously in the form of writing, pictures, videos, …

For all these purposes here are a few recommendations:

While the commercial alternatives are feature-rich, they are also proprietary closed-source and often have various issues such as:

It is possible to use commercial software for making sensitive documents, but you should be extra careful with all the options in the various Apps (commercial or free) to prevent any data leak from revealing information about you.

Here is a comparative table of recommended/included software compiled from various sources (PrivacyGuides.org, Whonix, Tails, Prism-Break.org, and me). Keep in mind my recommendation considers the context of this guide with only sporadic online presence on a need basis.

Type Whonix Prism-Break.org PrivacyGuides.org Tails This guide
Offline Document Editing LibreOffice N/A LibreOffice* LibreOffice

LibreOffice,

Notepad++

Online Document Editing (collaboration) N/A Cryptpad.fr

Cryptpad.fr,

Etherpad.org,

Privatebin.net

N/A

Cryptpad.fr,

Etherpad.org,

Privatebin.net

Pictures Editing Flameshot (L) N/A N/A GIMP GIMP
Audio Editing Audacity N/A N/A Audacity Audacity
Video Editing Flowblade (L) N/A N/A N/A

Flowblade (L)

Olive (?)

OpenShot (?)

ShotCut (?)

Screen Recorder Vokoscreen N/A N/A N/A Vokoscreen
Media Player VLC N/A N/A VLC VLC
PDF Viewer Ristretto (L) N/A N/A N/A Browser
PDF Redaction PDF-Redact Tools (L) N/A N/A PDF-Redact Tools (L)

LibreOffice,

PDF-Redact Tools (L)

Legend: * Not recommended but mentioned. N/A = Not Included or absence of recommendation for that software type. (L)= Linux Only but can maybe be used on Windows/macOS through other means (HomeBrew, Virtualization, Cygwin). (?)= Not tested but open-source and could be considered.

In all cases, we strongly recommend only using such applications from within a VM or Tails to prevent as much leaking as possible. If you do not, you will have to sanitize those documents carefully before publishing (See Removing Metadata from Files/Documents/Pictures).

Communicating sensitive information to various known organizations:

You might be interested in communicating information to some organization such as the press anonymously.

If you must do so, you should take some steps because you cannot trust any organization to protect your anonymity437. See Appendix B1: Checklist of things to verify before sharing information.

For this, we strongly recommend the use of SecureDrop438 (https://securedrop.org/ [Archive.org]) which is an open-source project from the Freedom of the Press Foundation.

If not SecureDrop is not available, you could consider any other means of communication, but you should privilege those that are encrypted end to end. Do not ever do this from your real identity but only from a secure environment using an anonymous identity.

Without SecureDrop you could consider:

What you should avoid:

If you intend to break your anonymity to protect your safety:

Maintenance tasks:

Backing up your work securely:

Do not ever upload encrypted file containers with plausible deniability (hidden containers within them) to most cloud services (iCloud, Google Drive, OneDrive, Dropbox) without safety precautions. This is because most cloud services keep backups/versioning of your files, and such backups/versioning of your encrypted containers can be used for differential analysis to prove the existence of a hidden container.

Instead, this guide will recommend other methods of backing up your stuff safely.

Offline Backups:

These backups can be done on an external hard drive or a USB key. Here are the various possibilities.

Selected Files Backups:

Requirements:

For these back-ups, you will need a USB key or an external hard drive with enough storage capacity to store the files you want to back up.

Veracrypt:

For this purpose, we will recommend the use of Veracrypt on all platforms (Linux/Windows/macOS) for convenience, security, and portability.

Normal File containers:

The process is fairly simple and all you will need is to follow Veracrypt tutorial here: https://www.veracrypt.fr/en/Beginner%27s%20Tutorial.html [Archive.org]

In this container, you can then store sensitive data manually and or use any backup utility you want to backup files from the OS to that container.

You can then store this container anywhere safely.

Hidden File containers with plausible deniability:

The process is also fairly simple and similar to the earlier tutorial except for this time you will use the Veracrypt wizard to create a Hidden Veracrypt Volume instead of a Standard Veracrypt Volume.

You can create a Hidden volume within an existing Standard Volume or just use the wizard to create a new one.

Let us say you want a container of 8GB, the Wizard will first create an “outer volume” where you will be able to store decoy information when prompted. Some decoy files (somewhat sensible, plausible but not what you want to hide) should be stored in the decoy volume.

Then Veracrypt will ask you to create a smaller hidden container (for instance 2GB or 4GB) within the outer volume where you can store your actual hidden files.

When you select the file for mounting in Veracrypt, depending on which password you provide, it will mount the Outer decoy volume or the Hidden volume.

You can then mount your hidden volume and use it to store sensitive files normally.

Be careful when mounting the Outer decoy volume to update its content. You should protect the hidden volume from being overwritten when doing this as working in the decoy volume could overwrite data in the hidden volume.

To do this, when mounting the Decoy Volume, select Mount Options and Check the “Protect hidden volume” option and provide the hidden volume password on the same screen. Then mount the decoy volume. This will protect the hidden volume from being overwritten when changing the decoy files. This is also explained here in Veracrypt documentation: https://www.veracrypt.fr/en/Protection%20of%20Hidden%20Volumes.html [Archive.org]

Be extremely cautious with these file containers:

Full Disk/System Backups:

TLDR version: Just use Clonezilla as it worked reliably and consistently with all my tests on all operating systems except for Macs where you should probably use native utilities (Time Machine/Disk utility instead) to avoid compatibility issues and since you are using Native macOS encryption. When using Windows, do not back up a partition containing a hidden OS in case you use Plausible Deniability (as explained before, this backup could allow an adversary to prove the existence of the hidden OS by comparing the last backup to the current system where data will have changed and defeat plausible deniability, use file containers instead).

You will have two options here:

We made extensive testing using live backups utilities (Macrium Reflect, EaseUS Todo Reflect, Déjà Dup…) and personally we do not think it is worth it. Instead, we would recommend that you periodically back up your system with a simple Clonezilla image. It is much easier to perform, much easier to restore, and usually works reliably without issues in all cases. And contrary to many beliefs, it is not that slow with most backups taking about an hour depending on the speed of your destination media.

For backing up single files while you work, we recommend using file containers or encrypted media directly and manually as explained in the earlier section.

Requirements:

You will need a separate external drive with at least the same or more free space available than your source disk. If your laptop has a 250GB disk. You will need at least 250GB of free disk space for the full image backup. Sometimes this will be reduced significantly with compression by the backup utility but as a safety rule, you should have at least the same or more space on your backup drive.

Some general warnings and considerations:

Linux:

Ubuntu (or any other distro of choice):

We will recommend the use of the open-source Clonezilla utility for convenience and reliability but there are many other native Linux utilities and methods you could use for this purpose.

So, you should follow the steps in Appendix E: Clonezilla

QubesOS:

Qubes OS recommends using their own utility for backups as documented here https://www.qubes-os.org/doc/backup-restore/ [Archive.org]. But it is just a hassle and provides limited added value unless you just want to back up a single Qube. So instead, we are also recommending just making a full image with Clonezilla which will remove all the hassle and bring you back a working system in a few simple steps.

So, you should follow the steps in Appendix E: Clonezilla

Windows:

We will only recommend the use of the open-source and free Clonezilla utility for this purpose. There are commercial utilities that offer the same functionality, but we do not see any advantage in using any of them vs Clonezilla.

Some warnings:

Follow the steps in Appendix E: Clonezilla

macOS:

we would recommend just using the native Time Machine backup with encryption (and a strong passphrase that could be the same as your OS) as per the guides provided at Apple: https://support.apple.com/en-ie/guide/mac-help/mh21241/mac [Archive.org] and https://support.apple.com/en-ie/guide/mac-help/mh11421/11.0/mac/11.0 [Archive.org].

So, plug in an external drive and it should prompt you to use it as a Time Machine backup.

You should however consider formatting this drive as exFAT so that it is also usable by other OSes conveniently (Windows/Linux) without added software using this guide: https://support.apple.com/en-ie/guide/disk-utility/dskutl1010/mac [Archive.org]

It is just simpler and will work online while you work. You will be able to recover your data on any other Mac from the recovery options and you will be also able to use this disk for backing up other devices.

It is possible to also use Clonezilla to clone your Mac Hard Drive, but it could bring hardware compatibility issues and probably will not add much in terms of security. So, for macOS, We are not specifically recommending Clonezilla.

Online Backups:

Files:

This is a tricky one. The problem is that it depends on your threat model.

Obviously do not ever do/access those backups from unsecured/unsafe devices but only from the secure environments, you picked before.

Self-hosting:

Self-hosting (using Nextcloud for instance) is also a possibility provided you do have an anonymous hosting

Please see Appendix A1: Recommended VPS hosting providers.

Please also consider Appendix B2: Monero Disclaimer.

Cloud-hosting:

For smaller files, consider:

We are currently not aware of any online storage/hosting platform accepting cash payments unlike providers mentioned before.

If you do intend to store sensitive data on “mainstream platforms” (Dropbox, Google Drive, OneDrive…), remember not to ever store plausible deniability containers on those and remember to encrypt and check (for metadata…) anything locally before uploading there. Either with software like Veracrypt or with a software like Cryptomator (https://cryptomator.org/). Do not ever upload non-encrypted files on those platforms and repeating myself, only access them from a secure shielded VM.

Information:

If you just want to save information (text), we will recommend the use of secure and private pastebins440. Mostly we will stick to the ones recommended by PrivacyGuides.org (https://www.privacyguides.org/productivity/#paste-services [Archive.org] ) :

On these providers, you can just create a password-protected pad with the information you want to store.

Just create a pad, protect it with a password and write your info in it. Remember the address of the pad.

Synchronizing your files between devices Online:

To that, the answer is very simple and a clear consensus for everyone: https://syncthing.net/ [Archive.org]

Just use SyncThing, it is the safest and most secure way to synchronize between devices, it is free and open-source, and it can easily be used in a portable way without install from a container that needs syncing.

Covering your tracks:

Understanding HDD vs SSD:

image41
image41

If you intend to wipe your whole HDD laptop, the process is rather straightforward. The data is written at a precise location on a magnetic (hard) platter (why it is called a hard drive) and your OS knows precisely where it is on the platter, where to delete it, and where to overwrite it for secure deletion using simple processes (like just overwriting that location over and over until no traces are left).

On the other hand, if you are using an SSD drive, the process is not as simple as the drive uses several internal mechanisms to extend its lifespan and performance. Three of those processes are of particular interest when it comes to us in this guide. SSD drives are divided themselves into two main categories:

Here are examples of the most common formats:

image42
image42

All of these are sold as internal and external drives within enclosures.

The methods and utilities to manage/wipe them will vary depending on the type of drive you are using. So, it is important you know which one you have inside your laptop.

On most recent laptops, chances are high that it will be one of the middle options (M.2 SATA or M.2 NVMe).

Wear-Leveling.

These drives use a technique called wear leveling441. At a high level, wear leveling works as follows. The space on every disk is divided into blocks that are themselves divided into pages, like the chapters in a book are made of pages. When a file is written to disk, it is assigned to a certain set of pages and blocks. If you wanted to overwrite the file in an HDD, then all you would have to do is tell the disk to overwrite those blocks. But in SSDs and USB drives, erasing and re-writing the same block can wear it out. Each block can only be erased and rewritten a limited number of times before that block just will not work anymore (the same way if you keep writing and erasing with a pencil and paper, eventually the paper might rip and be useless). To counteract this, SSDs and USB drives will try to make sure that the number of times each block has been erased and rewritten is about the same so that the drive will last as long as possible (thus the term wear leveling). As a side effect, sometimes instead of erasing and writing the block, a file was originally stored on, the drive will instead leave that block alone, mark it as invalid, and just write the modified file to a different block. This is like leaving the chapter in the book unchanged, writing the modified file on a different page, and then just updating the book’s table of contents to point to the new location. All of this occurs at a very low level in the electronics of the disk, so the operating system does not even realize it has happened. This means, however, that even if you try to overwrite a file, there is no guarantee the drive will actually overwrite it, and that’s why secure deletion with SSDs is so much harder.

Wear-leveling alone can therefore be a disadvantage for security and an advantage for adversaries such as forensics examiners. This feature makes classic “secure deletion” counter-productive and useless and is why this feature was removed on some Operating Systems like macOS (as from version 10.11 El Capitan) where you could enable it before on the Recycle Bin.

Most of those old secure deletion utilities were written with HDD in mind and have no control over wear-leveling and are completely pointless when using an SSD. Avoid them on an SSD drive.

Trim Operations:

So, what now? Well here comes the Trim442 operation. When you delete data on your SSD, your OS should support what is called a Trim operation command and could (should) issue this Trim command to the SSD drive periodically (daily, weekly, monthly…). This Trim command will then let know the SSD drive controller that there are pages within blocks containing data that are now free to be really deleted without deleting anything itself.

Trim should be enabled by default on all modern Operating Systems detecting an SSD drive covered in this guide (macOS, Windows 10/11, Ubuntu, Qubes OS 4.1.x …).

If Trim operations are not done regularly (or at all), then the data is never deleted pro-actively and at some point, all the blocks and pages will be occupied by data. Your OS will not see this and will just see free space as you delete files, but your SSD controller will not (this is called Write Amplification443). This will then force the SSD controller to erase those pages and blocks on the fly which will reduce the write performance. This is because while your OS/SSD can write data to any free page in any bock, erasure is only possible on entire blocks, therefore, forcing your SSD to perform many operations to write new data. Overwriting is just not possible. This will defeat the wear-leveling system and cause performance degradation of your SSD over time. Every time you delete a file on an SSD, your OS should issue a Trim command along with the deletion to let the SSD controller know the pages containing the file data are now free for deletion.

So, Trim itself does not delete any data but just marks it for deletion. Data deleted without using Trim (if Trim has been disabled/blocked/delayed for instance) will still be deleted at some point by the SSD garbage collection or if you want to overwrite what the OS sees at free space. But it might stick around for a bit longer than if you use Trim.

Here is an illustration from Wikipedia showing how it works on an SSD drive:

image43
image43

As you can see in the above illustration, data (from a file) will be written to the four first pages of Block X. Later new data will be written to the remaining pages and the data from the first files will be marked as invalid (for instance by a Trim operation when deleting a file). As explained on https://en.wikipedia.org/wiki/Trim_(computing) [Wikiless] [Archive.org]; the erase operation can only be done on entire blocks (and not on single pages).

In addition to marking files for deletion (on reputable SSD drives), Trim usually makes those unreadable using a method called “Deterministic Read After Trim” or “Deterministic Zeroes After Trim”. This means that if an adversary tries to read data from a trimmed page/block and somehow manages to disable garbage collection, the controller will not return any meaningful data.

Trim is your ally and should always be enabled when using an SSD drive and should offer sufficient reasonable protection. And this is also the reason you should not use Veracrypt Plausible deniability on a Trim enabled SSD as this feature is incompatible with Trim444.

Garbage Collection:

Garbage collection445 is an internal process running within your SSD drive that looks for data marked for erasure. This process is done by the SSD controller, and you have no control over it. If you go back to the illustration above, you will see that Garbage collection is the last step and will notice that some pages are marked for deletion in a specific block, then copy the valid pages (not marked for deletion) to a different free destination block and then will be able to erase the source block entirely.

Garbage collection in itself does NOT require Trim to function, but it will be much faster and more efficient if Trim is performed. Garbage collection is one of the processes that will actually erase data from your SSD drive permanently.

Conclusion:

So, the fact is that it is very unlikely446447 and difficult for a forensic examiner to be able to recover data from a Trimmed SSD but it is not completely impossible either448449450 if they are fast enough and have access to extensive equipment, skills, and motivation451.

Within the context of this guide which also uses full disk encryption. Deletion and Trim should be reasonably secure enough on any SSD drive and will be recommended as the standard method of deletion.

How to securely wipe your whole Laptop/Drives if you want to erase everything:

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So, you want to be sure. To achieve 100% secure deletion on an SSD drive, you will need to use specific SSD techniques (If you are using an HDD drive, skip this part and go to your OS of choice):

For maximum overkill paranoia security, Sanitize Block Erase option should be preferred but Secure Erase is probably more than enough when considering your drive is already encrypted. Unfortunately, are no free easy (bootable with a graphical menu) all-in-one tools available and you will be left with either going with drive manufacturers provided tools, the free manual hdparm453 , and nvme-cli454 utilities or going with a commercial tool such as PartedMagic.

This guide will therefore recommend the use of the free utilities hdparm and nvme-cli using a Live System Rescue system.

If you can afford it, just buy Parted Magic for 11$ which provides an easy-to-use graphical tool for wiping SSD drives using the option of your choice455456.

Note: Again, before proceeding, you should check your BIOS as some will offer a built-in tool to securely erase your drive (ATA/NVMe Secure Erase or ATA/NVMe Sanitize). If this is available, you should use that, and the following steps will not be necessary. Check this before going ahead to avoid the hassle, see Appendix M: BIOS/UEFI options to wipe disks in various Brands).

Linux (all versions including Qubes OS):

System/Internal SSD:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

External SSD:

First please see Appendix K: Considerations for using external SSD drives

Trim should be sufficient in most cases and you could just use the blkdiscard command to force an entire device trim as explained here: https://wiki.archlinux.org/index.php/Solid_state_drive#Trim_an_entire_device [Archive.org]

If your USB controller and USB SSD disk support Trim and ATA/NVMe secure erase, you could wipe them cautiously using hdparm using the same method as the System Disk above except you will not install Linux on it obviously. Keep in mind tho that this is not recommended (see Considerations above).

If it does not support Trim and/or ATA secure erase, you could (not securely) wipe the drive normally (without passes like an HDD) and re-encrypt it completely using your utility of choice (LUKS or Veracrypt for instance). The full disk decryption and re-encryption process will overwrite the entirety of the SSD disk and should ensure a secure wipe.

Alternatively, you could also (not securely) wipe the disk normally and then fill it completely with pseudorandom data which should also ensure secure deletion (this can be done with BleachBit https://www.bleachbit.org/download/linux [Archive.org] or from the command line using secure-delete using this tutorial https://superuser.com/questions/19326/how-to-wipe-free-disk-space-in-linux [Archive.org]).

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Internal/System HDD:

External/Secondary HDD and Thumb Drives:

I recommend using dd or shred for this purpose.

Windows:

Unfortunately, you will not be able to wipe your Host OS using the Microsoft built-in tools within the settings. This is because your bootloader was modified with Veracrypt and will make the operation fail. In addition, this method would not be effective with an SSD drive.

System/Internal SSD:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

External SSD:

First please see Appendix K: Considerations for using external SSD drives

Use the manufacturer-provided tools if possible. Those tools should provide support for safe secure erase or sanitize over USB and are available for most brands: See Appendix J: Manufacturer tools for Wiping HDD and SSD drives.

If you are not sure about the Trim support on your USB disk, (not securely) wipe it normally (simple quick format will do) and then encrypt the disk again using Veracrypt or Bitlocker. The full disk decryption and re-encryption process will overwrite the entirety of the SSD disk and should ensure a secure wipe.

Alternatively, you could also (not securely) wipe the disk normally and then fill it completely with pseudorandom data which should also ensure secure deletion (this can be done with BleachBit or PrivaZer free space erase options). See Extra Tools Cleaning.

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Internal/System HDD:

External/Secondary HDD and Thumb Drives:

macOS:

System/Internal SSD:

Unfortunately, the macOS Recovery disk utility will not be able to perform a secure erase of your SSD drive as stated in Apple documentation https://support.apple.com/en-gb/guide/disk-utility/dskutl14079/mac [Archive.org].

In most cases, if your disk was encrypted with Filevault and you just perform a normal erase, it should be “enough” according to them. It is not according to me, so you have no option besides re-installing macOS again and re-encrypt it with Filevault again after re-installing. This should perform a “crypto erase” by overwriting your earlier install and encryption. This method will be quite slow, unfortunately.

If you want to do a faster secure erase (or have no time to perform a re-install and re-encryption), you can try using the method described in Appendix D: Using System Rescue to securely wipe an SSD drive (This will not work on M1 Macs). Be careful tho as this will also erase your recovery partition which is needed to reinstall macOS.

External SSD:

First please see Appendix K: Considerations for using external SSD drives

If your USB controller and USB SSD disk support Trim and ATA secure erase, and if Trim is enabled on the disk by macOS, you can just wipe the whole disk normally and data should not be recoverable on recent disks.

If you are not sure about Trim support or want more certainty, you can (not securely) wipe it using macOS disk utility before fully re-encrypting them again using these two tutorials from Apple:

The full disk re-encryption process will overwrite the entirety of the SSD disk and should ensure a secure wipe.

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

External HDD and Thumb Drives:

Follow this tutorial: https://support.apple.com/guide/disk-utility/erase-and-reformat-a-storage-device-dskutl14079/mac [Archive.org] and use the secure erase option from Disk Utility which should work fine on HDD and Thumb drives.

How to securely delete specific files/folders/data on your HDD/SSD and Thumb drives:

The same principles from the earlier chapters apply to this one. The same issues arise too.

With an HDD drive, you can securely delete files by just deleting them and then apply one or more “passes” to overwrite the data in question. This can be done with many utilities on all OSes.

With an SSD drive, however, again everything becomes a bit complicated because you are never sure anything is really deleted due to wear leveling, reliance on the Trim operation, and garbage collection of the drive. An adversary that has the decryption key of your SSD (whether it is LUKS, Filevault 2, Veracrypt, or Bitlocker) could unlock your drive and then attempt a recovery using classic recovery utilities457 and could succeed if the data were not trimmed properly. But this is again highly unlikely.

Since the Trim operation is not continuous on most recent hard drives but scheduled, simply forcing a Trim operation should be enough. But again, the only way to be 100% sure a file is securely deleted from your unlocked encrypted SSD is to again overwrite all the free space after deletion of the files in question or to decrypt/re-encrypt the drive. But this is overkill and not necessary. A simple disk-wide Trim should be sufficient.

Remember tho that no matter the deletion method you use for any file on any medium (HDD drive, SSD, USB Thumb drive). It will probably leave other traces (logs, indexing, shellbags …) within your system and those traces will also need to be cleaned. Also, remember that your drives should be fully encrypted and so this is most likely an extra measure. More on that later in the Some additional measures against forensics section.

Windows:

Remember you cannot use Trim at all if you are using Plausible Deniability on an SSD drive against all recommendations.

System/Internal SSD drive:

At this stage, and just delete the file permanently (empty the recycle bin) and trim/garbage collection will do the rest. This should be sufficient.

If you do not want to wait for the periodic Trim (set to Weekly by default in Windows 10/11), you could also force a disk-wide Trim using the Windows native Optimize tool (see Appendix H: Windows Cleaning Tools).

If data were deleted by some utility (for instance by Virtualbox when reverting a snapshot), you could also issue a disk-wide Trim to clean anything remaining using the same Optimize tool.

Just open Windows Explorer, Right Click on your System Drive and click Properties. Select Tools. Click Optimize and then Optimize again to force a Trim. You are done. That is probably enough in my opinion.

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If you want more security and do not trust the Trim operation, then you will have no option but to either:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Internal/External HDD or a USB Thumb Drive:

Please refer to Appendix H: Windows Cleaning Tools and pick a utility before going ahead.

The process is quite simple depending on the tool you picked from the Appendix:

In the case of USB thumb drives, consider wiping free space using one of the above utilities after file deletion or wiping them completely using Eraser / KillDisk as instructed previously.

External SSD drive:

First please see Appendix K: Considerations for using external SSD drives

If Trim is supported and enabled by Windows for your external SSD drive. There should be no issue in securely deleting data normally just with normal delete commands. Additionally, you could also force a Trim using the Windows native Optimize tool (see Appendix H: Windows Cleaning Tools):

Just open Windows Explorer, Right Click on your System Drive and click Properties. Select Tools. Click Optimize and then Optimize again to force a Trim. You are done. That is probably enough in my opinion.

If Trim is not supported or you are not sure, you might have to ensure secure data deletion by:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Linux (non-Qubes OS):

System/Internal SSD drive:

Just permanently delete the file (and empty recycle bin) and it should be unrecoverable due to Trim operations and garbage collection.

If you do not want to wait for the periodic Trim (set to Weekly by default in Ubuntu), you could also force a disk-wide Trim by running fstrim --all from a terminal. This will issue an immediate trim and should ensure sufficient security. This utility is part of the util-linux package on Debian/Ubuntu and should be installed by default on Fedora.

If you want more security and do not trust the Trim operation, then you will have no option but to either:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Internal/External HDD drive or a Thumb Drive:

External SSD drive:

First please see Appendix K: Considerations for using external SSD drives

If Trim is supported and enabled by your Linux Distribution for your external SSD drive. There should be no issue in securely deleting data normally and just issue an fstrim --all from the terminal to trim the drive. This utility is part of the “util-linux” package on Debian/Ubuntu and should be installed by default on Fedora.

If Trim is not supported or you want to be sure, you might have to ensure secure data deletion by filling up the entire free space of the disk using a utility such as:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Linux (Qubes OS):

System/Internal SSD drive:

As with other Linux distros, normal deletion and trim should be sufficient on most SSD drives. So just permanently delete the file (and empty any recycle bin) and it should be unrecoverable due to periodic Trim operations and garbage collection.

Please follow this documentation to Trim within Qubes OS: https://github.com/Qubes-Community/Contents/blob/master/docs/configuration/disk-trim.md [Archive.org]

As with other Linux Systems, if you want more security and do not trust the Trim operation then you will have no option but to either:

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

Internal/External HDD drive or a Thumb Drive:

Use the same method as Linux from a Qube connected to that specific USB device

External SSD drive:

First please see Appendix K: Considerations for using external SSD drives

If Trim is supported and enabled by your Linux Distribution for your external SSD drive. There should be no issue in securely deleting data normally and just issue a “fstrim –all” from the terminal to trim the drive. Refer to this Documentation (https://github.com/Qubes-Community/Contents/blob/master/docs/configuration/disk-trim.md [Archive.org]) to enable trim on a drive.

If Trim is not supported or you want to be sure, you might have to ensure secure data deletion by filling up the entire free space of the disk using a utility from a Qube connected to the USB device in question:

Repeat these steps on any other partition if there are separate partitions on the same SSD drive before deleting the files.

Repeat these steps on any other partition if there are separate partitions on the same SSD drive.

Keep in mind all these options need to be applied on the entire physical drive and not on a specific partition/volume. If you do not, wear-leveling mechanisms might prevent this from working properly.

macOS:

System/Internal SSD drive:

Just permanently delete the file (and empty recycle bin) and it should be unrecoverable due to trim operations and garbage collection.

"Does Apple File System support TRIM operations?

Yes. TRIM operations are issued asynchronously from when files are deleted or free space is reclaimed, which ensures that these operations are performed only after metadata changes are persisted to stable storage".

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System/Internal, External HDD drive or a Thumb Drive:

Unfortunately, Apple has removed the secure erase options from the trash bin even for HDD drives459. So, you are left with using other tools:

In the case of USB thumb drives, consider wiping them completely using Disk Utility as instructed previously.

External SSD drive:

First please see Appendix K: Considerations for using external SSD drives

If Trim is supported and enabled by macOS for your external SSD drive. There should be no issue in securely deleting data.

If Trim is not supported, you might have to ensure secure data deletion by:

Some additional measures against forensics:

Note that the same SSD issue discussed in the earlier section will arise here. You can never really be 100% sure your SSD data is deleted when you ask it to do so unless you wipe the whole drive using specific methods above.

We are not aware of any 100% reliable method to delete single files selectively and securely on SSD drives unless overwriting ALL the free space (which might reduce the lifespan of your SSD) after Deletion + Trim of these files. Without doing that, you will have to trust the SSD Trim operation which in my opinion is enough. It is reasonable and again very unlikely that forensics will be able to restore your files after a Deletion with Trim.

In addition, most of these measures here should not be needed since your whole drive should be encrypted and therefore your data should not be accessible for forensic analysis through SSD/HDD examination anyway. So, these are just “bonus measures” for weak/unskilled adversaries.

Consider also reading this documentation if you’re going with Whonix https://www.whonix.org/wiki/Anti-Forensics_Precautions [Archive.org] as well as their general hardening tutorial for all platforms here https://www.whonix.org/wiki/System_Hardening_Checklist [Archive.org]

Removing Metadata from Files/Documents/Pictures:

Pictures and videos:

On Windows, macOS, and Linux we would recommend ExifTool (https://exiftool.org/ [Archive.org]) and/or ExifCleaner (https://exifcleaner.com/ [Archive.org]) that allows viewing and/or removing those properties.

ExifTool is natively available on Tails and Whonix Workstation.

ExifCleaner:

Just install it from https://exifcleaner.com/ [Archive.org], run and drag and drop the files into the GUI.

ExifTool:

It is actually simple, just install exiftool and run:

Remember that ExifTool is natively available on Tails and Whonix Workstation.

Windows Native tool:

Here is a tutorial to remove metadata from a Picture using OS provided tools: https://www.purevpn.com/internet-privacy/how-to-remove-metadata-from-photos [Archive.org]

Cloaking/Obfuscating to prevent picture recognition:

Consider the use of Fawkes https://sandlab.cs.uchicago.edu/fawkes/ [Archive.org] (https://github.com/Shawn-Shan/fawkes [Archive.org]) to cloak the images from picture recognition tech on various platforms.

Or if you want online versions, consider:

PDF Documents:

PDFParanoia (Linux/Windows/macOS/QubesOS):

Consider using https://github.com/kanzure/pdfparanoia [Archive.org] which will remove metadata and watermarks on any PDF.

ExifCleaner (Linux/Windows/macOS/QubesOS):

Just install it from https://exifcleaner.com/ [Archive.org], run and drag and drop the files into the GUI.

ExifTool (Linux/Windows/macOS/QubesOS):

It is actually simple, just install exiftool and run:

MS Office Documents:

First, here is a tutorial to remove metadata from Office documents: https://support.microsoft.com/en-us/office/remove-hidden-data-and-personal-information-by-inspecting-documents-presentations-or-workbooks-356b7b5d-77af-44fe-a07f-9aa4d085966f [Archive.org]. Make sure however that you do use the latest version of Office with the latest security updates.

Alternatively, on Windows, macOS, Qubes OS, and Linux we would recommend ExifTool (https://exiftool.org/ [Archive.org]) and/or ExifCleaner (https://exifcleaner.com/ [Archive.org]) that allows viewing and/or removing those properties

ExifCleaner:

Just install it from https://exifcleaner.com/ [Archive.org], run and drag and drop the files into the GUI.

ExifTool:

It is actually simple, just install exiftool and run:

LibreOffice Documents:

In addition, on Windows, macOS, Qubes OS, and Linux we would recommend ExifTool (https://exiftool.org/ [Archive.org]) and/or ExifCleaner (https://exifcleaner.com/ [Archive.org]) that allows viewing and/or removing additional properties

ExifCleaner:

Just install it from https://exifcleaner.com/ [Archive.org], run and drag and drop the files into the GUI.

ExifTool:

It is actually simple, jut install exiftool and run:

All-in-one Tool:

Another option good tool to remove metadata from various documents is the open-source mat2 recommended by privacyguides.org460 (https://0xacab.org/jvoisin/mat2 [Archive.org]) which you can use on Linux quite easily. I never managed to make it work properly within Windows due to various dependencies issues despite the provided instructions. It is however very straightforward to install and use on Linux.

So, we would suggest creating a small Debian VM within Virtualbox (behind your Whonix Gateway) which you can then use from your other VMs to analyze various files from a convenient web interface. For this see Appendix L: Creating a mat2-web guest VM for removing metadata from files

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Mat2 is also pre-installed on the Whonix Workstation VM461 and available on Tails by default462.

Tails:

Tails is great for this; you have nothing to worry about even if you use an SSD drive. Shut it down and it is all gone as soon as the memory decays.

Whonix:

Note that it’s possible to run Whonix in Live mode leaving no traces when you shut down the VMs, consider reading their documentation here https://www.whonix.org/wiki/VM_Live_Mode [Archive.org] and here https://www.whonix.org/wiki/Warning#Whonix_.E2.84.A2_Persistence_vs_Live_vs_Amnesic [Archive.org].

macOS:

Guest OS:

Revert to an earlier snapshot on Virtualbox (or any other VM software you are using) and perform a Trim command on your Mac using Disk Utility by executing a first-aid on the Host OS again as explained at the end of the next section.

Host OS:

Most of the info from this section can also be found at this nice guide https://github.com/drduh/macOS-Security-and-Privacy-Guide [Archive.org]

Quarantine Database (used by Gatekeeper and XProtect):

macOS (up to and including Big Sur) keeps a Quarantine SQL Database of all the files you ever downloaded from a Browser. This database is located at ~/Library/Preferences/com.apple.LaunchServices.QuarantineEventsV2.

You can query it yourself by running the following command from terminal: sqlite3 ~/Library/Preferences/com.apple.LaunchServices.QuarantineEventsV2 "select * from LSQuarantineEvent"

This is a goldmine for forensics, and you should disable this:

Lastly, you can also disable Gatekeeper altogether by issuing the following command in the terminal463:

Refer to this section of this guide for further information https://github.com/drduh/macOS-Security-and-Privacy-Guide#gatekeeper-and-xprotect [Archive.org]

In addition to this convenient database, each saved file will also carry detailed file system HFS+/APFS attributes showing for instance when it was downloaded, with what, and from where.

You can view these just by opening a terminal and typing mdls filename and xattr -l filename on any downloaded file from any browser.

To remove such attributes, you will have to do it manually from the terminal:

(Note that Apple has removed the convenient xattr –c option that would just remove all attributes at once so you will have to do this for each attribute on each file)

These attributes and entries will stick even if you clear your browser history, and this is obviously bad for privacy (right?), and we are not aware of any convenient tool that will deal with those at the moment.

Fortunately, there are some mitigations for avoiding this issue in the first place as these attributes and entries are set by the browsers. So, we tested various browsers (On macOS Catalina, Big Sur, and Monterey), and here are the results as of the date of this guide:

Browser Quarantine DB Entry Quarantine File Attribute Origin File Attribute
Safari (Normal) Yes Yes Yes
Safari (Private Window) No No No
Firefox (Normal) Yes Yes Yes
Firefox (Private Window) No No No
Chrome (Normal) Yes Yes Yes
Chrome (Private Window) Partial (timestamp only) No No
Brave (Normal) Partial (timestamp only) No No
Brave (Private Window) Partial (timestamp only) No No
Brave (Tor Window) Partial (timestamp only) No No
Tor Browser No No No

As you can see for yourself the easiest mitigation is to just use Private Windows. These do not write those origin/quarantine attributes and do not store the entries in the QuarantineEventsV2 database.

Clearing the QuarantineEventsV2 is easy as explained above. Removing the attributes takes some work. Brave is the only tested browser that will not store those attributes by default in normal operations.

Various Artifacts:

In addition, macOS keeps various logs of mounted devices, connected devices, known networks, analytics, documents revisions…

See this section of this guide for guidance on where to find and how to delete such artifacts: https://github.com/drduh/macOS-Security-and-Privacy-Guide#metadata-and-artifacts [Archive.org]

Many of those can be deleted using various commercial third-party tools but we would personally recommend using the free and well-known Onyx which you can find here: https://www.titanium-software.fr/en/onyx.html [Archive.org]. Unfortunately, it is closed-source, but it is notarized, signed, and has been trusted for many years.

Force a Trim operation after cleaning:
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Linux (Qubes OS):

Please consider their guidelines https://github.com/Qubes-Community/Contents/blob/master/docs/security/security-guidelines.md [Archive.org]

If you are using Whonix on Qubes OS, please consider following some of their guides:

Linux (non-Qubes):

Guest OS:

Revert to an earlier snapshot of the Guest VM on Virtualbox (or any other VM software you are using) and perform a trim command on your laptop using fstrim --all. This utility is part of the util-linux package on Debian/Ubuntu and should be installed by default on Fedora. Then switch to the next section.

Host OS:

Normally you should not have traces to clean within the Host OS since you are doing everything from a VM if you follow this guide.

Nevertheless, you might want to clean some logs. Consider having a look this convenient (but unfortunately unmaintained) tool: https://github.com/sundowndev/covermyass [Archive.org]

After cleaning up, make sure you have the fstrim utility installed (should be by default on Fedora) and part of the util-linux package on Debian/Ubuntu. Then just run fstrim --all on the Host OS. This should be sufficient on SSD drives as explained earlier.

Consider the use of Linux Kernel Guard as an added measure https://www.whonix.org/wiki/Linux_Kernel_Runtime_Guard_LKRG [Archive.org]

Windows:

Guest OS:

Revert to an earlier snapshot on Virtualbox (or any other VM software you are using) and perform a trim command on your Windows using the Optimize as explained at the end of the next section

Host OS:

Now that you had a bunch of activities with your VMs or Host OS, you should take a moment to cover your tracks. Most of these steps should not be undertaken on the Decoy OS in case of the use of plausible deniability. This is because you want to keep decoy/plausible traces of sensible but not secret activities available for your adversary. If everything is clean, then you might raise suspicion.

Diagnostic Data and Telemetry:

First, let us get rid of any diagnostic data that could still be there:

Then let us re-randomize the MAC addresses of your Virtual Machines and the Bluetooth Address of your Host OS.

Event logs:

Windows Event logs will keep many various pieces of information that could contain traces of your activities such as the devices that were mounted (including Veracrypt NTFS volumes for instance464), your network connections, app crash information, and various errors. It is always best to clean those up regularly. Do not do this on the Decoy OS.

Veracrypt History:

By default, Veracrypt saves a history of recently mounted volumes and files. You should make sure Veracrypt never saves History. Again, do not do this on the Decoy OS if you are using plausible deniability for the OS. We need to keep the history of mounting the decoy Volume as part of the plausible deniability:

Now you should clean the history within any app that you used including Browser history, Cookies, Saved Passwords, Sessions, and Form History.

Browser History:
Wi-Fi History:

Now it is time to clear the history of the Wi-Fi you connect to. Unfortunately, Windows keeps storing a list of past Networks in the registry even if you “forgot” those in the Wi-Fi settings. As far as we know, no utilities clean those yet (BleachBit or PrivaZer for instance) so you will have to do it the manual way:

Shellbags:

As explained earlier, Shellbags are basically histories of accessed volumes/files on your computer. Remember that shellbags are exceptionally useful sources of information for forensics465 and you need to clean those. Especially if you mounted any “hidden volume” anywhere. Again, you should not do this on the Decoy OS:

Extra Tools Cleaning:

After cleaning those earlier traces, you should also use third-party utilities that can be used to clean various traces. These include the traces of the files/folders you deleted.

Please refer to Appendix H: Windows Cleaning Tools before continuing.

PrivaZer:

Here are the steps for PrivaZer:

BleachBit:

Here are the steps for BleachBit:

Force a Trim with Windows Optimize (for SSD drives):

With this Native Windows 10/11 utility, you can just trigger a Trim on your SSD which should be more than enough to securely clean all deleted files that somehow would have escaped Trim when deleting them.

Just open Windows Explorer, Right Click on your System Drive and click Properties. Select Tools. Click Optimize and Defragment. You are done as this will not defragment but only optimize. Meaning it will initiate a Trim operation (https://en.wikipedia.org/wiki/Trim_(computing) [Wikiless] [Archive.org]).

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Removing some traces of your identities on search engines and various platforms:

Chances are your actions (such as posts on various platforms, your profiles) will be indexed (and cached) by many search engines.

Contrary to widespread belief, it is possible to have some but not all this information removed by following some steps. While this might not remove the information on the websites themselves, it will make it harder for people to find it using search engines:

You can check some useful information about how to and get delete various accounts on these websites:

When you are done with this part, you should now handle search engines and while you may not be able to have the information deleted, you can ask them to update/remove outdated information which could then remove some cached information.

Google:

Unfortunately, this will require you to have a Google account to request the update/removal (however this can be done with any Google account from anyone). There is no way around this except waiting.

Go to their “Remove outdated content from Google Search” page here: https://search.google.com/search-console/remove-outdated-content [Archive.org] and submit a request accordingly.

If your profile/username was deleted/changed, they should re-index the content and update accordingly, and remove these traces.

These requests might take several days to process. Be patient.

Bing:

Unfortunately, this will require you to have a Microsoft account to request the update/removal (however this can be done with any Microsoft account from any identity). There is no way around this except waiting.

Go to their “Content Removal” page here: https://www.bing.com/webmasters/tools/contentremoval [Archive.org] and submit a request accordingly.

If your profile/username was deleted/changed, they should re-index the content and update accordingly, and remove these traces.

This might take several days to process. Be patient.

DuckDuckGo:

DuckDuckGo does not store a cached version of pages468 and will instead forward you to a Google/Bing cached version if available.

In addition, DuckDuckGo source most of their searches from Bing (and not Google)469 and therefore removing the content from Bing should in time have it removed it from DuckDuckGo too.

Yandex:

Unfortunately, this will require you to have a Yandex account to request removals (however this can be done with any Yandex account from any identity). There is no way around this except waiting.

Once have your Yandex account, head to the Yandex Webmaster tools https://webmaster.yandex.com [Archive.org] and then select Tools and Delete URL https://webmaster.yandex.com/tools/del-url/ [Archive.org]

There you could input the URL that does not exist anymore if you had them deleted.

This will only work with pages that have been deleted and therefore will not work with removing the cache of existing records. For that unfortunately there is no tool available to force a cache update, but you can still try their feedback tool:

Search for the page that was changed (where your profile was deleted/changed) and click the arrow next to the result. Select Complain. And submit a complaint about the page not matching the search result. Hopefully, this will force Yandex to re-crawl the page and re-index it after some time. This could take days or weeks.

Qwant:

As far as we know, there is no readily available tool to force this, and you will have to wait for the results to get updated if there is any. If you know a way, please report this to us through the GitHub issues.

Yes, Yahoo Search still exists but as per their help page https://help.yahoo.com/kb/SLN4530.html [Archive.org], there is no way to remove information or refresh information besides waiting. This could take 6 to 8 weeks.

Baidu:

As far asWeknow, there is no readily available tool to force this unless you control the website (and do it through their webmaster tools). Therefore, you will have to wait for the results to get updated if there is any. If you know a way, please report this to me through the GitHub issues.

Wikipedia:

As far asWeknow, there is no way to remove information from Wikipedia articles themselves but if you just want to remove traces of your username from it (as a user that contributed), you can do so by following these steps: https://en.wikipedia.org/wiki/Wikipedia:Courtesy_vanishing [Wikiless] [Archive.org]

This will not remove any information about your online identities that could appear in other articles but only your own identity on Wikipedia as a user.

Archive.today:

Some information can sometimes be removed on demand (sensitive information for example) as you can see many examples here: https://blog.archive.today/archive

This is done through their “ask” page here: https://blog.archive.today/ask

Internet Archive:

You can remove pages from internet archives but only if you own the website in question and contact them about it. Most likely you will not be able to remove archives from say “Reddit posts” or anything alike. But you could still ask and see what they answer.

As per their help page https://help.archive.org/hc/en-us/articles/360004651732-Using-The-Wayback-Machine

"How can we exclude or remove my site’s pages from the Wayback Machine?

You can send an e-mail request for us to review to info@archive.org with the URL (web address) in the text of your message".

Others:

Have a look at those websites:

Some low-tech old-school tricks:

Hidden communications in plain sight:

You must keep in mind that using all those security measures (encryption, plausible deniability, VPN, tor, secure operating systems …) can make you suspicious just by using them. Using could be the equivalent of stating openly “I something to hide” to an observer which could then motivate some adversaries to investigate/survey you further.

So, there are other ways you could exchange or send messages online to others in case of need without disclosing your identity or establishing direct communication with them. These have been in use by various organizations for decades and can be of help if you do not want to attract attention by using secure tech while still communicating some sensitive information without attracting attention.

A commonly used technique that combines the idea of a Dead Drop470 and Secure Communication Obfuscation471 through Steganography472 and/or Kleptography473 and has many names such as Koalang474 or “Talking Around” or even “Social Steganography”. This technique is very old and still widely used nowadays by teenagers to bypass parental control. It is hiding in plain sight.

Here is one example if you want to let someone know something is wrong and they should go dark? That they should immediately wipe all their data, get rid of their burner phones and sensitive information?

What if you want to let someone you trust (friends, family, lawyers, journalists …) know that you are in trouble, and they should look out for you?

All this without revealing the identity of the person you are sending the message to nor disclosing the content of that message to any third party and without raising suspicions and without using any of the secure methods mentioned above.

Well, you could just use any online public platform for this (Instagram, Twitter, Reddit, any forum, YouTube …) by using in-context (of the chosen platform/media) agreed upon (between you and your contact) coded messages that only your contact would understand.

This could be a set of specific emojis or a specifically worded mundane comment. Or even just a like on a specific post from a known influencer you usually watch and like. While this would look completely normal to anyone, this could mean a lot to a knowledgeable reader who could then take appropriate agreed-upon actions. You could also hide the message using Steganography using for instance https://stegcloak.surge.sh/.

You do not even have to go that far. A simple “Last seen” time on a specific account could be enough to trigger a message agreed upon. If your interlocutor sees that this account was online. It could mean there is an issue.

How to spot if someone has been searching your stuff:

There are some old tricks that you can use to spot if people have been messing with your stuff while you were away.

One trick for instance is quite simple and just requires a wire/cable. Simply lay objects on your desk/night table or in your drawers following a straight line. You can use a simple USB cable as a tool to align them.

Make a line with your cable and place objects along the line. When you are back, just check those places and check if the objects are still placed along the line. This allows you not to remember precisely where your things were without taking pictures.

Fortunately, modern technology has made this even simpler. If you suspect someone might be looking through your stuff while you are away, you can just take a picture of the area with your phone before leaving. When you are back, just compare the areas with your pictures and everything should be exactly where you left it. If anything moved, then someone was there.

It will be extremely hard and time-consuming for an adversary to search through your stuff and then replace it exactly as you left it with complete precision.

What if it is a printed document or book and you want to know if someone read it? Even simpler. Just carefully make a note within the document with a pencil. And then erase it with any pencil eraser as if you wanted to correct it. The trick is to carefully leave the eraser traces/residues on the area you erased/pencil written areas and close the document. You could also take a picture of the residues before closing the document.

Most likely if someone went through your document to read it and re-placed it carefully, this residue will fall off or be moved significantly. It is a simple old-school trick that could tell you someone searched a document you had.

Some last OPSEC thoughts:

Wait, what is OPSEC? Well, OPSEC means Operations Security475. The basic definition is: “OPSEC is the process of protecting individual pieces of data that could be grouped together to give the bigger picture.”

The important step here, and probably the easiest one, is a lesson you can take from the movie Fight Club: the first rule is that you do not talk about Fight Club. This applies to many aspects of your online operational security or OPSEC. Taking your time to go through this guide will reward you with the tools and knowledge to embrace a fuller, more secure experience on the internet. Rest assured that this guide will reveal things to you that will frustrate your enemy. You will learn how to protect your operating systems and lockdown your critical information and ensure mission success. But the one thing you must adhere to is this rule of thumb - do not talk about operation details. The biggest adversarial threat to you is OSINT (discussed below and throughout the document). The enemy will gather information on you based on what they observe about you and your activities online and in real life.

Adversaries take many forms. To some, they are actors of a foreign government, while to others they may be simply a rival company’s employee looking to find disgruntled workers to target for further pressuring. To most, the general task of OPSEC is that this is your ship - you must not do anything or say anything to sink your own ship. Simply expressing your frustration with your boss or your work conditions or your equipment, might be enough to generate not only a behavior profile but also a vector of attack. A disgruntled employee, in this example, is what generally provides enough information to warrant pressuring of that employee for further information and possibly even extortion, blackmail, or worse. Failure to implement basic OPSEC can lead to failure at various points. It can lead to serious injury or even death if your threat model is a determined attacker, foreign actor, and so on.

You must live by the simple rule that “loose lips sink ships” - but also that they are usually your lips which will do the sinking. OPSEC is often just applying common sense and being cautious about your activities including in the physical world:

Digital and Online OPSEC

Physical and IRL OPSEC

It is recommended that you learn about the common ways people mess up OPSEC https://dan-kir.github.io/2022/05/26/OPSEC-notes.html [Archive.org]. Whatever you do, take OPSEC seriously, and Don’t Fuck It Up!

FINAL OPSEC DISCLAIMER: KEEP YOUR ANONYMOUS IDENTITIES COMPLETELY SANDBOXED FROM YOUR NORMAL ENVIRONMENT AND REAL IDENTITY. DO NOT SHARE ANYTHING BETWEEN THE ANONYMOUS ENVIRONMENTS AND THE REAL IDENTITY ENVIRONMENT. KEEP THEM COMPLETELY COMPARTMENTALIZED ON EVERY LEVEL. MOST OPSEC FAILURES ARE DUE TO USERS ACCIDENTALLY LEAKING INFORMATION RATHER THAN TECHNICAL FAILURES.

What to do if you detected tampering or searching ?

If you think you got burned:

If you have some time:

If you have no time:

Keep in mind that many countries have specific laws to compel you to reveal your passwords that could override your “right to remain silent”. See this Wikipedia article: https://en.wikipedia.org/wiki/Key_disclosure_law [Wikiless] [Archive.org] and this other visual resource with law references https://www.gp-digital.org/world-map-of-encryption/ [Archive.org].

A small final editorial note:

After reading this whole guide, we hope you will have gained some additional beneficial insight about privacy and anonymity. It is clear now, in my humble opinion, that the world we live in has only a few safe harbors remaining where one could have a reasonable expectation of privacy and even less so anonymity. Many will often say that 1984 by George Orwell was not meant to be an instruction book. Yet today this guide and its many references should, we hope, reveal to you how far down we are in the rabbit hole.

You should also know that most of the digital information described in length in this guide can be forged or tampered with by a motivated adversary for any purpose. Even if you do manage to keep secrets from prying eyes, anyone can fabricate anything to fit their narrative:

You should not hesitate to question this type of information from any source in this age of disinformation.

“A lie can travel halfway around the world while the truth is putting on its shoes”476

Please keep thinking for yourself, use critical thinking, and keep an open mind. “Sapere Aude” (Dare to know!).

“In the end the Party would announce that two and two made five, and you would have to believe it” – George Orwell, 1984, Book One, Chapter Seven.

Consider helping others (see Helping others staying anonymous)

Donations:

This project has no funding or sponsoring, and donations are more than welcome.

See: https://anonymousplanet.org/donations.html

(Please do verify the checksum and GPG signature of this file for authenticity, this is explained in the README of the repository if you do not know how to do that).

Helping others staying anonymous:

If you want to give a hand to users facing censorship and oppression, please consider helping them by helping the Tor Network. You can do so in several ways:

If you want a bit more challenge, you can also run a Tor Exit node anonymously using the recommended VPS providers above.

For this, see https://blog.torproject.org/tips-running-exit-node [Archive.org]

This project for instance is running several Tor Exit nodes using donations to fund. You can see them here: https://metrics.torproject.org/rs.html#search/family:970814F267BF3DE9DFF2A0F8D4019F80C68AEE26

Acknowledgments:

Appendix A: Windows Installation

This is the Windows 10/11 installation process that should be valid for any Windows 10/11 install within this guide.

Windows 10 (See below for Windows 11)

Installation:

DO NOT CONNECT WINDOWS TO ANY NETWORK DURING THE INSTALLATION PROCESS (This will allow us to create a Local Account and not use a Microsoft account and it will also prevent any telemetry from being sent out during the install process).

Privacy Settings:

Windows 11

Installation:

DO NOT CONNECT WINDOWS TO ANY NETWORK DURING THE INSTALLATION PROCESS (This will allow us to create a Local Account and not use a Microsoft account and it will also prevent any telemetry from being sent out during the install process).

Privacy Settings:

Appendix B: Windows Additional Privacy Settings

As written earlier in this guide and as noted by PrivacyGuides.org477, Windows 10/11 is a privacy nightmare. And disabling everything during and after the installation using the settings available to you is not enough. The amount of telemetry data collected by Microsoft is staggering and could defeat your attempts at keeping secrets. You will need to download and use a couple of utilities to (hopefully) force Windows 10/11 into not sending data back to Microsoft.

Here are the steps in detail:

These measures added to the settings during installation should be hopefully sufficient to prevent Microsoft from snooping on your OS.

You will need to update and re-run those utilities frequently and after any Windows major update as they tend to silently re-enable telemetry using those updates.

As a bonus, it could be interesting to also consider Hardening your Windows Host OS somewhat. See https://github.com/beerisgood/windows10_hardening [Archive.org] (This is a security guide, not a privacy guide. If you use this guide, do not enable Hyper-V as it does not play well with Virtualbox, and do not enable features that were specifically disabled for privacy reasons earlier. Such as SmartScreen, cloud protection…)

Appendix C: Windows Installation Media Creation (Windows 10) or Download (Windows 11)

Windows 10

These are the steps to create a Windows 10 (21H1) Installation Media using this tool and instructions:

https://www.microsoft.com/en-us/software-download/windows10 [Archive.org]

Windows 11

Appendix D: Using System Rescue to securely wipe an SSD drive.

These instructions are valid for all Operating Systems:

Appendix E: Clonezilla

Each backup could take a while depending on the speed of your laptop and the speed of your external drive. In my experience, expect about 1 hour per backup depending on the drive size and the write speed of your backup media (my tests were done backing up 256GB SSDs on a USB 3.0 7200rpm HDD).

Appendix F: Diskpart

Diskpart is a Windows utility that can be used to perform various operations on your hard drive. In this case, You will use Diskpart to show the Disk ID but also change it if necessary.

This could be needed if you restore a backup on a new HDD/SSD that has an ID that differs from the one backed up and Windows could refuse to boot.

Diskpart can be run from any Windows environment using a command prompt. This includes recovery disks created by utilities such as Macrium Reflect, any Windows Installation media, EaseUS Todo Free rescue disks.

Appendix G: Safe Browser on the Host OS

If you can use Tor:

This guide will only recommend using Tor Browser within the host OS because it has the best protection by default. The only other acceptable option in my opinion would be to use Brave Browser with a Tor tab but keep in mind that Brave themselves recommend the use of Tor Browser if you feel your safety depends on being anonymous [Archive.org]: “If your personal safety depends on remaining anonymous, we highly recommend using Tor Browser instead of Brave Tor windows.”.

This Browser on the host OS will only be used to download various utilities and will never be used for actual sensitive activities.

Refer to Appendix Y: Installing and using desktop Tor Browser.

If you are experiencing issues connecting to Tor due to Censorship or Blocking, you might consider using Tor bridges as explained here: https://bridges.torproject.org/ [Archive.org]

Use this browser for all the next steps within the host OS unless instructed otherwise.

If you cannot use Tor:

Because it is too dangerous/risky/suspicious. We would recommend as a last resort using Firefox, or Brave only using Private Windows for now.

See Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option before continuing.

Only do this from a different safe public Wi-Fi every time (See Find some safe places with decent public Wi-Fi) and using a long-range connection (See Appendix Q: Using long-range Antenna to connect to Public Wi-Fis from a safe distance:).

Clean all the data from the browser after each use.

Use this method for all the next steps within the host OS unless instructed otherwise.

Appendix H: Windows Cleaning Tools

In this guide we will recommend two-third native tools and two third-party tools:

This tool will clean up a bunch of things natively. It is not enough, and we instead recommend using the third-party tools below to clean more stuff. PrivaZer for instance will use the disk cleanup utility directly itself and BleachBit will use its own mechanisms.

For security, this tool is particularly useful on SSD drives at this “Optimize” function will in fact force a Disk wide Trim operation to occur. This will most likely be more than enough to make sure any deleted data that was not trimmed before for any reason will be this time. Deleted data with Trim is very unlikely to be recovered as explained before in this guide.

I prefer PrivaZer because it has more customization and smarter features, but we would understand if you do not trust them and prefer open-source software in which case we would recommend BleachBit which offers a bit less customization but similar functionalities.

Both these tools can be used for cleaning many things such as:

Both these utilities can delete files and can overwrite the free space after deletion to improve secure deletion even on SSD drives. Remember this can reduce the lifespan of your SSD drives a bit.

Appendix I: Using ShredOS to securely wipe an HDD drive:

Several utilities are recommended (like the old unmaintained DBAN480 or System Rescue CD (https://www.system-rescue.org/ [Archive.org])) for this but we will recommend the use of ShredOS.

Feel free to go with DBAN instead if you want (using this tutorial: https://www.lifewire.com/how-to-erase-a-hard-drive-using-dban-2619148 [Archive.org]), the process is basically the same but will not work out of the box with UEFI laptops.

If you want to go with System-Rescue, just head to their website and follow the instructions.

Windows:

Linux:

Appendix J: Manufacturer tools for Wiping HDD and SSD drives:

Always check your laptop BIOS/UEFI for native utilities first.

Be sure to use the right wipe mode for the right disk. Wipe and Passes are for HDD drives. There are specific options for SSD drives (such as ATA Secure Erase or Sanitize).

Unfortunately, most of these tools are Windows only.

Tools that provide a boot disk for wiping from boot:

Tools that provide only support from running OS (for external drives).

Appendix K: Considerations for using external SSD drives

I do not recommend using external SSDs due to the uncertainty about their support for Trim, ATA Secure Erase, and Sanitize options through USB controllers. Instead, we recommend using external HDD disks which can be cleaned/wiped safely and securely without hassle (albeit much slower than SSD drives).

Please do not buy or use gimmicky self-encrypting devices such as these: https://syscall.eu/blog/2018/03/12/aigo_part1/ [Archive.org]

Some might be very efficient481 but many are gimmicky gadgets.

If you want to use an external SSD drive for sensitive storage:

So how to check if your external USB SSD supports Trim and other ATA/NVMe operations from your Host OS?

Windows:

Trim Support:

It is possible Windows will detect your external SSD properly and enable Trim by default. Check if Optimize Works using the Windows Native disk utility as explained in the internal SSD section of Windows.

ATA/NVMe Operations (Secure Erase/Sanitize):

Use the manufacturer-provided tools to check and perform these operations … It is pretty much the only way to be sure it is not only supported but actually works. Some utilities can tell you whether it is supported or not like CrystalDiskInfo [Archive.org] but will not actually check if it is working. See Appendix J: Manufacturer tools for Wiping HDD and SSD drives.

If it does not work. Just decrypt and re-encrypt the whole drive or fill up the free space as instructed in the guide. There is no other way AFAIK. Besides booting up a System Rescue Linux CD and see the next section.

Linux:

Trim Support:

Follow this good tutorial: https://www.glump.net/howto/desktop/enable-trim-on-an-external-ssd-on-linux [Archive.org]

ATA/NVMe Operations (Secure Erase/Sanitize):

It is not “recommended”. Please read the disclaimers here https://ata.wiki.kernel.org/index.php/ATA_Secure_Erase [Archive.org] and here https://wiki.archlinux.org/index.php/Solid_state_drive/Memory_cell_clearing [Archive.org]

But this seems to be based on anecdotal experiences. So, if you are sure your external SSD supports Trim (see vendor documentation). You could just try at your own risk to use nvme-cli or hdparm to issue secure erases.

See also this tutorial https://code.mendhak.com/securely-wipe-ssd/ [Archive.org]

Your mileage may vary. Use at your own risk.

macOS:

Trim Support:

According to Apple Documentation482, Trim is supported on APFS (asynchronously) and HFS+ (through period trim or first-aid).

So, if it is supported (and enabled on your external SSD), you should be able to issue a Trim on a non-APFS drive using Disk Utility and First Aid which should issue a Trim.

If your disk supports it but it is not enabled in macOS. You could try issuing a “sudo trimforce enable” command from the Terminal and see if it enables Trim on your external SSD. And then again check the first aid command if it is not APFS (see this Tutorial for info https://www.lifewire.com/enable-trim-for-ssd-in-os-x-yosemite-2260789 [Archive.org])

If it does not work, we are not aware of any reliable method to enable TRIM besides the commercial utility Trim Enabler here https://cindori.org/trimenabler/ [Archive.org] which claims support for external drives.

ATA/NVMe Operations (Secure Erase/Sanitize):

We are not aware of any method of doing so reliably and safely on macOS. So, you will have to try one of these options:

Appendix L: Creating a mat2-web guest VM for removing metadata from files

Download the latest Debian testing amd64 netinst ISO from https://www.debian.org/CD/netinst/ [Archive.org]

(Get testing to get the latest mat2 release, stable is a few versions back)

This is very lightweight, and we recommend doing it from a VM (VM inside a VM) to benefit from Whonix Tor Gateway. While it is possible to put this VM directly behind a Whonix Gateway, Whonix will not easily allow communications between VMs on its network by default. You could also just leave it on Clearnet during the install process and then leave it on the Host-Only network later, or install it from a VM within a VM then move it to host OS for Host-Only usage like we show below:

  1. Create a new machine with any name like Mat2.
  2. Select Linux for the Type.
  3. Select Debian (64-bit) as the Version.
  4. Leave the default options and click Create.
  5. Select the VM and click Settings.
  6. Select System and disable the Floppy disk on the Motherboard tab.
  7. Select the Processor tab and enable PAE/NX.
  8. Select Audio and disable Audio.
  9. Select USB and disable the USB controller.
  10. Select Storage and select the CD drive to mount the Debian Netinst ISO.
  11. Select Network and Attach to NAT.
  12. Launch the VM.
  13. Select Install (not Graphical install).
  14. Select Language, Location, and Keyboard layout as you wish.
  15. Wait for the network to configure (automatic DHCP). This takes a few seconds.
  16. Pick a name like Mat2.
  17. Leave the domain empty.
  18. Set a root password as you wish (preferably a good one).
  19. Create a new user and password as you wish (preferably a good one).
  20. Select the Time Zone of your choice.
  21. Select Guided - Use the entire disk.
  22. Select the only disk available (/dev/sda in our case).
  23. Select All files in one partition.
  24. Confirm and write changes to the disk.
  25. Select No to scan any other CD or DVD.
  26. Select any region and any mirror of your choice and leave proxy blank.
  27. Select No to take part in any survey.
  28. Select only System Standard Utilities. Uncheck everything else using space.
  29. Select Yes to install GRUB bootloader.
  30. Select /dev/sda and continue.
  31. Complete the install and reboot.
  32. Log in with your user or root. You should never use root directly as a best security practice but in this case, it is okay.
  33. Update your install by running apt upgrade. It should be upgraded since it is a net install, but we’re double checking.
  34. Install the necessary packages for mat2 by running apt install ffmpeg uwsgi python3-pip uwsgi-plugin-python3 lib35rsvg2-dev git mat2 apache2 libapache2-mod-proxy-uwsgi.
  35. Go to the /var/www directory by running cd /var/www/.
  36. Clone mat2-web from the mat2-web repository by issuing git clone https://0xacab.org/jvoisin/mat2-web.git.
  37. Create a directory for uploads by running mkdir ./mat2-web/uploads/.
  38. Give permissions to Apache2 to read the files by running chown -R www-data:www-data ./mat2-web.
  39. Enable apache2 uwsgi proxy by running /usr/sbin/a2enmod proxy_uwsgi.
  40. Upgrade pip by running python3 -m pip install pip --upgrade.
  41. Install these Python modules by running python3 -m pip install flasgger pyyaml flask-restful flask cerberus flask-cors jinja2.
  42. Move to the config directory of mat2 by running cd /var/www/mat2-web/config/.
  43. Copy the apache2 config file to /etc by running cp apache2.config /etc/apache2/sites-enabled/apache2.conf.
  44. Remove the default config file by running rm /etc/apache2/sites-enabled/000-default.conf.
  45. Edit the apache2 config file provided by mat2-web by running nano /etc/apache2/sites-enabled/apache2.conf.
  46. Remove the first line Listen 80 by typing Ctrl+K to cut the line.
  47. Change the uwsgi path from /var/www/mat2-web/mat2-web.sock to /run/uwsgi/uwsgi.sock and type Ctrl+X to exit, followed by Y then Enter.
  48. Copy the uwsgi config file to /etc by running cp uwsgi.config /etc/uwsgi/apps-enabled/uwsgi.ini.
  49. Edit the uwsgi config file by typing nano /etc/uwsgi/apps-enabled/uwsgi.ini and change uid and guid to nobody and nogroup respectively. Save and exit with Ctrl+X, followed by Y, then Enter.
  50. Run chown -R 777 /var/www/mat2-web to change ownership to mat2-web.
  51. Restart uwsgi by running systemctl restart uwsgi. There should be no errors.
  52. Restart apache2 by running systemctl restart apache2. There should be no errors.
  53. Now navigate to Settings > Network > Attached to and select Host-only Adapter. Click OK to save.
  54. Reboot the VM via Machine > Reset. Confirm the reset.
  55. Log into the VM as the user from Step 19 and type ip a. Note the IP address it was assigned under link/ether, the one that has 192.168.*.*.
  56. From the VM Host OS, open a Browser and navigate to the IP of your Debian VM. It will be something like: http://192.168.1.55.
  57. You should now see a Mat2-Web website running smoothly.
  58. Shutdown the Mat2 guest VM by running shutdown -h now to halt the machine.
  59. Take a snapshot of the VM within Virtualbox while the guest VM is shutdown.

Restart the Mat2 VM* and you are ready to use Mat2-web to remove metadata from most files!

After use, shut down the VM and revert to the snapshot to remove traces of the uploaded files. This VM does not require any internet access unless you want to update it, in which case, you need to place it back on the NAT network and do the next steps.

For updates of Debian, start the VM and run apt update followed by apt upgrade.

For updates of mat2-web, type cd /var/www/mat2-web and run git pull.

After updates, shutdown, change to the Host-only Adapter, take a new snapshot, remove the earlier one.

You are done.

Now you can just start this small Mat2 VM when needed. Browse to it from your Guest VM and use the interface to remove any metadata from most files. After each use of this VM, you should revert to the Snapshot to erase all traces.

Do not ever expose this VM to any network unless temporarily for updates. This web interface is not suitable for any direct external access.

Appendix M: BIOS/UEFI options to wipe disks in various Brands

Here are some links on how to securely wipe your drive (HDD/SSD) from the BIOS for various brands:

Appendix N: Warning about smartphones and smart devices

When conducting sensitive activities, remember that:

Additionally, if using a smartphone as a burner, know that they send a lot of diagnostics by default. Enough to potentially identify you based on your device usage patterns (a technique known as biometric profiling). You should avoid using your burner unless absolutely necessary, to minimize the information that can be collected and used to identify you.

Lastly, you should also consider this useful sheet from the NSA about Smartphone security: https://web.archive.org/web/20210728204533/https://s3.documentcloud.org/documents/21018353/nsa-mobile-device-best-practices.pdf.

Note: Please do not consider commercial gimmicky all-in devices for anonymity. The only way to achieve proper OPSEC is by doing it yourself. See those examples to see why it is not a clever idea:

You should never rely on an external commercial service to ensure your first line of anonymity. But you will see that paid services can still be used later from an already anonymous identity if bought anonymously while observing good operational security.

Appendix O: Getting an anonymous VPN/Proxy

If you follow our advice, you will also need a VPN subscription but this time you will need an anonymous one that cannot be tied to you by the financial system. Meaning you will need to buy a VPN subscription with cash or a reasonably private cryptocurrency (for example Monero). You will later be able to use this VPN to connect to various services anonymously but never directly from your IP. This VPN can never be used in any other non-anonymous context without jeopardzing your anonymity.

There are, two viable options:

Cash/Monero-Paid VPN:

There are three VPN companies recommended by PrivacyGuides.org (https://www.privacyguides.org/vpn/ [Archive.org]) that accept cash payments: Mullvad, iVPN, and Proton VPN.

Here are their logging policies:

In addition, we will also mention a newcomer to watch: Safing SPN https://safing.io/ [Archive.org]) which (while still in the alpha stage at the time of this writing) which also accepts cash and has a very distinct new concept for a VPN which provides benefits similar to Tor Stream isolation with their “SPN”). Note that Safing SPN is not available on macOS at the moment. This possibility is “provisional” and at your own risk, but we think was worth mentioning.

Personally, for now, we would recommend Mullvad due to personal experience.

We would not recommend Proton VPN as much because they do require an e-mail for registration unlike Mullvad, iVPN, and Safing. Proton also has a tendency to require phone number verification for users who register over Tor.

How does this work?

For extra-security consider:

Do not in any circumstance use this new VPN account unless instructed or connect to that new VPN account using your known connections. This VPN will only be used later in a secure way as we do not trust VPN providers’ “no-logging policies”. This VPN provider should ideally never know your real origin IP (your home/work one for instance).

Self-hosted VPN/Proxy on a Monero/Cash-paid VPS (for users more familiar with Linux):

The other alternative is setting up your own VPN/Proxy using a VPS (Virtual Private Server) on a hosting platform that accepts Monero (recommended).

This will offer some advantages as the chances of your IP being block-listed somewhere are lower than known VPN providers.

This does also offer some disadvantages as Monero is not perfect as explained earlier in this guide and some global adversaries could maybe still track you. You will need to get Monero from an Exchange using the normal financial system and then pick a hosting (list here https://www.getmonero.org/community/merchants/#exchanges [Archive.org]) or from a local reseller using cash from https://localmonero.co.

Do not in any circumstance use this new VPS/VPN/Proxy using your known connections. Only access it through Tor using Whonix Workstation for instance (this is explained later). This VPN will only be used later within a Virtual Machin over the Tor Network in a secure way as we do not trust VPN providers’ “no-logging policies”. This VPN provider should never know your real origin IP.

Please see Appendix A1: Recommended VPS hosting providers

VPN VPS:

There are plenty of tutorials on how to do this like this one https://proprivacy.com/vpn/guides/create-your-own-vpn-server [Archive.org]

Socks Proxy VPS:

This is also an option obviously if you prefer to skip the VPN part.

It is probably the easiest thing to set up since you will just use the SSH connection you have to your VPS and no further configuration should be required besides setting the browser of your guest VM to use the proxy in question.

Here are a few tutorials on how to do this very quickly:

Here is my basic tutorial:

Linux/macOS:

Here are the steps:

Explanation of arguments:

Windows:

Here are the steps:

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Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

USE EXTREME CAUTION: THIS IS HIGHLY RISKY.

There might be worst-case situations where using Tor and VPNs are not possible due to extensive active censorship or blocking. Even when using Tor Bridges (see Appendix X: Using Tor bridges in hostile environments)

Now, there might also be situations where simply using Tor or a VPN alone could be suspicious and could be dangerous for your safety. If this is the case, you could be in a very hostile environment where surveillance and control are high.

But you still want to do something anonymously without disclosing/leaking any information.

In that case, my last resort recommendation is to connect safely from a distance to a Public Wi-Fi (See Find some safe places with decent public Wi-Fi) using your laptop and Tails “unsafe browser”. See https://tails.boum.org/contribute/design/Unsafe_Browser/ [Archive.org].

If Tor usage alone is suspicious or risky, you should NOT allow Tails to try establishing a Tor connection at start-up by doing the following:

We would strongly recommend the use of a long-range “Yagi” type directional Antenna with a suitable USB Wi-Fi Adapter. At least this will allow you to connect to public Wi-Fis from a “safe distance” but keep in mind that triangulation by a motivated adversary is still possible with the right equipment. So, this option should not be used during an extended period (minutes at best). See Appendix Q: Using long-range Antenna to connect to Public Wi-Fis from a safe distance.

Using Tails should prevent local data leaks (such as MAC addresses or telemetry) and allow you to use a Browser to get what you want (utilities, VPN account) before leaving that place as fast as possible.

You could also use the other routes (Whonix and Qubes OS without using Tor/VPN) instead of Tails in such hostile environments if you want data persistence but this might be riskier. We would not risk it personally unless there was absolutely no other option. If you go for this option, you will only do sensitive activities from a reversible/disposable VM in all cases. Never from the Host OS.

If you resort to this, please keep your online time as short as possible (minutes and not hours).

Be safe and extremely cautious. This is entirely at your own risk.

Consider reading this older but still relevant guide https://archive.flossmanuals.net/bypassing-censorship/index.html [Archive.org]

Appendix Q: Using long-range Antenna to connect to Public Wi-Fis from a safe distance:

It is possible to access/connect to remote distant Public Wi-Fis from a distance using a cheap directional Antenna that looks like this:

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These antennas are widely available on various online shops for a cheap price (Amazon, AliExpress, Banggood …). The only issue is that they are not discrete, and you might have to find a way to hide it (for instance in a Poster cardboard container in a Backpack). Or in a large enough Bag. Optionally (but riskier) you could even consider using it from your home if you have a nice Window view to various places where some Public Wi-Fi is available.

Such antennas need to be combined with specific USB adapters that have an external Antenna plug and sufficiently high power to use them.

We would recommend the AWUS036 series in the Alfa brand of adapters (see https://www.alfa.com.tw/ [Archive.org]). But you could also go with some other brands if you want such as the TP-Link TL-WN722 (see https://www.tp-link.com/us/home-networking/usb-adapter/tl-wn722n/ [Archive.org]).

See this post for a comparison of various adapters: https://www.wirelesshack.org/best-kali-linux-compatible-usb-adapter-dongles.html [Archive.org] (Usually those antennas are used by Penetration Testers to probe Wi-Fis from a distance and are often discussed within the scope of the Kali Linux distribution).

The process is simple:

Do not forget tho that this will only delay a motivated adversary. Your signal can be triangulated easily by a motivated adversary in a matter of minutes once they reach the physical location of the Wi-Fi you’re connecting to (for instance using a device such as AirCheck https://www.youtube.com/watch?v=8FV2QZ1BPnw [Invidious], also see their other products here https://www.netally.com/products/ [Archive.org]). These products can easily be deployed on mobile units (in a Car for instance) and pinpoint your location in a matter of minutes.

Ideally, this should “not be an issue” since this guide provides multiple ways of hiding your origin IP using VPNs and Tor. But if you are in a situation where VPN and Tor are not an option, then this could be your only security.

Appendix R: Installing a VPN on your VM or Host OS

Download the VPN client installer of your cash paid VPN service and install it on Host OS (Tor over VPN, VPN over Tor over VPN) or the VM of your choice (VPN over Tor):

Important note: Tor does not support UDP, and you should use TCP instead with the VPN client in the Tor over VPN cases (on the VMs).

In all cases, you should set the VPN to start from boot and enable the “kill switch” if you can. This is an extra step since this guide proposes solutions that all fall back on the Tor network in case of VPN failure.

Here are some guides provided by the recommended VPN providers in this guide:

Appendix S: Check your network for surveillance/censorship using OONI

So, what is OONI? OONI stands for Open Observatory of Network Interference and is a sub-project of the Tor Project490.

First OONI will allow you to check online for surveillance/censorship in your country just by looking at their Explorer that features test results from other people. This can be done here: https://explorer.ooni.org/

But these tests are limited and could not apply to your personal situation. If that is the case, you could consider running the OONI Probe yourself and running the tests yourself.

The problem is that your network providers will be able to see those tests and your attempts at connecting to various services if the network is monitored. The other issue is that there are solutions to prevent OONI from working properly491.

While this might not be important in a normal environment, this could put you at risk in a hostile environment. So, running these tests can be risky.

If you are in such a hostile environment where you suspect network activity is actively monitored and the simple fact of trying to access some resources can put you at risk, you should take some precautions before even attempting this:

The probe can be found here: https://ooni.org/install/ [Archive.org] for various platforms (iOS, Android, Windows, macOS, and Linux).

Appendix T: Checking files for malware

Integrity (if available):

Usually, integrity checks492 are done using hashes of files (usually stored within checksum files). Older files could use CRC493, more recently MD5494 but those present several weaknesses (CRC, MD5 495 that make them unreliable for file integrity checks (which does not mean they are not still widely used in other contexts).

This is because they do not prevent Collision496 well enough and could allow an adversary to create a similar but malicious file that would still produce in the same CRC or MD5 hash despite having different content.

For this reason, it is usually recommended to use SHA-based 497 hashes and the most used is probably the SHA-2498 based SHA-256 for verifying file integrity. SHA is much more resistant to collisions499 than CRC and MD5. And collisions with SHA-256 or SHA-512 are rare and hard to compute for an adversary.

If a SHA-256 checksum is available from the source of the file, you should not hesitate to use it to confirm the integrity of the file. Note that SHA-1 is not recommended, but is better than not having a hash to compare.

This checksum should itself be authenticated/trusted and should be available from an authenticated/trusted source (obviously you should not trust a file just because it has a checksum attached to it alone).

In the case of this guide, the SHA-256 checksums are available for each file including the PDFs but are also authenticated using a GPG signature allowing you to verify the authenticity of the checksum. This will bring us to the next section about authenticity.

So how to check checksums? (In this case SHA-256 but you could change to SHA-512

Remember that checksums are just checksums. Having a matching checksum does not mean the file is safe.

Authenticity (if available):

Integrity is one thing. Authenticity is another thing. This is a process where you can verify some information is authentic and from the expected source. This is usually done by signing information (using GPG501 for instance) using public-key cryptography502.

Signing can serve both purposes and allow you to check for both integrity and authenticity.

If available, you should always verify the signatures of files to confirm their authenticity.

In essence:

For some other tutorials, please see:

All these guides should also apply to any other file with any other key.

Security (checking for actual malware):

Every check should ideally happen in sandboxed/hardened Virtual Machines. This is to mitigate the possibilities for malware to access your Host computer.

Anti-Virus Software:

You might be asking yourself, what about Anti-Virus solutions? Well, no … these are not perfect solutions against many modern malware and viruses using polymorphic code503. But it does not mean they cannot help against less sophisticated and known attacks. It depends on how to use them as AV software can become an attack vector in itself.

Again, this is all a matter of threat modeling. Can AV software help you against the NSA? Probably not. Can it help you against less resourceful adversaries using known malware? Probably.

Some will just argue against them broadly like Whonix504 but this topic is being discussed and disputed even at Whonix505 by other members of their community.

Contrary to popular myths perpetuating the idea that only Windows is subject to malware and that detection tools are useless on Linux and macOS:

My take on the matter is on the pragmatic side. There is still room for some AV software for some selective and limited use. But it depends on which one and how you use them:

“When you submit Samples to the Services, if you submit Samples to the Services, You will collect all of the information in the Sample itself and information about the act of submitting it”.

So, remember that any document you submit to them will be kept, shared, and used commercially including the content. So, you should not do that with sensitive information and rely on various local AV scanners (that do not send samples online).

So, if you are in doubt:

For instance, this guide’s PDF files were submitted to VirusTotal because it is meant to be public knowledge and we see no valid argument against it. It does not guarantee the absence of malware, but it does not hurt to add this check.

Manual Reviews:

You can also try to check various files for malware using various tools. This can be done as an extra measure and is especially useful with documents rather than apps and various executables.

These methods require more tinkering but can be useful if you want to go the extra length.

PDF files:

Again, regarding the PDFs of this guide and as explained in the README of my repository, you could check for anomalies using PDFID which you can download at https://blog.didierstevens.com/programs/pdf-tools/ [Archive.org]:


/JS 0 #This indicates the presence of Javascript

/JavaScript 0 #This indicates the presence of Javascript

/AA 0 #This indicates the presence of automatic action on opening

/OpenAction 0 #This indicates the presence of automatic action on opening

/AcroForm 0 #This indicates the presence of AcroForm which could contain JavaScript

/JBIG2Decode 0 #This indicates the use of JBIG2 compression which could be used for obfuscating content

/RichMedia 0 #This indicates the presence of rich media within the PDF such as Flash

/Launch 0 #This counts the launch actions

/EmbeddedFile 0 #This indicates there are embedded files within the PDF

/XFA 0 #This indicates the presence of XML Forms within the PDF

Now, what if you think the PDF is still suspicious? Fear not … there are more things you can do to ensure it is not malicious:

Other types of files:

Here are some various resources for this purpose where you will find what tool to use for what type:

Even with all those resources, keep in mind you might still get advanced malware if those are not detected by those various tools. Be careful and remember to handle these files within isolated Virtual Machines, if possible, to limit the attack surface and vectors.

Appendix U: How to bypass (some) local restrictions on supervised computers

There might be situations where the only device you have at your disposal is not really yours such as:

The situation might look desperate, but it is not necessarily the case as there are some safe ways to bypass these depending on how well your adversaries did their job securing your computer.

Portable Apps:

There are plenty of methods you could use to bypass those restrictions locally. One of them would be to use portable apps520. Those apps do not require installation on your system and can be run from a USB key or anywhere else.

But this is not a method we would recommend.

This is because those portable apps will not necessarily hide themselves (or be able to hide themselves) from the usage reports and forensic examination. This method is just too risky and will probably arise issues if noticed if you are in such a hostile environment.

Even the most basic controls (supervision or parental) will send out detailed app usage to your adversary.

Bootable Live Systems:

This method is the one we would recommend in those cases.

It is relatively easy for your adversary to prevent this by setting up firmware BIOS/UEFI (see Bios/UEFI/Firmware Settings of your laptop) controls but usually most adversaries will overlook this possibility which requires more technical knowledge than just relying on Software.

This method could even decrease suspicion and increase your plausible deniability as your adversaries think they have things under control and that everything appears normal in their reports.

This method only depends on one security feature (that they probably did not turn on in most cases): Boot Security.

Boot Security is divided into several types:

Secure Boot is relatively easy to bypass as there are plenty of Live Systems that are now Secure Boot compliant (meaning they are signed) and will be allowed by your laptop.

The BIOS/UEFI password on the other hand is much harder to bypass without risks. In that case, you are left with two options:

Again, this feature is usually overlooked by most unskilled/lazy adversaries and in my experience left disabled.

This is your best chance into bypassing local controls without traces.

The reason is that most of the controls are within your main Operating System software and only monitor what happens within the Operating System. Those measures will not be able to monitor what happened at the Hardware/Firmware level before the Operating System loads.

Precautions:

While you might be able to bypass local restrictions easily using a Live System such as Tails, remember that your network might also be monitored for unusual activities.

Unusual network activities showing up from a computer at the same time your computer is seemingly powered off might raise suspicions.

If you are to resort to this, you should never do so from a monitored/known network but only from a safe different network. Ideally a safe public wi-fi (See Find some safe places with decent public Wi-Fi).

Do not use a live system on a Software supervised/monitored device on a known network.

Refer to the Tails route to achieve this. See The Tails route and Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option sections.

Appendix V: What browser to use in your Guest VM/Disposable VM

Temporary Important Warning: Please see Microarchitectural Side-channel Deanonymization Attacks: for all browsers except Tor Browser.

There are 6 possibilities of browser to use on your guest/disposable VM:

Here is a comparison table of one fingerprinting test of various browsers with their native settings (but Javascript enabled for usability, except for Tor Safest mode).

Disclaimer: these tests while nice are not conclusive of the real fingerprinting resistance. But they can help compare browsers between each other.

Browser

https://coveryourtracks.eff.org/

Fingerprinting Test with real Ad

Safari (Normal)* Fail (Unique)
Safari (Private Window) * Fail (Unique)
Edge (Normal)** Fail (Unique)
Edge (Private Window) ** Fail (Unique)
Firefox (Normal) Fail (Unique)
Firefox (Private Window) Fail (Unique)
Chrome (Normal) Fail (Unique)
Chrome (Private Window) Fail (Unique)
Brave (Normal) Passed (Randomized)
Brave (Private Window) Passed (Randomized)
Brave (Tor Window) Passed (Randomized)
Tor Browser (Normal mode) Partial
Tor Browser (Safer mode) Partial
Tor Browser (Safest mode) Unknown (Result did not load)

Another useful resource to be considered for comparing browsers is: https://privacytests.org/ [Archive.org]

Brave:

This is my recommended/preferred choice for a Browser within your guest VMs. This is not my recommended choice for a Browser within your Host OS where we strictly recommend Tor Browser as they recommend it themselves521.

Why Brave despite the controversies522?

Ungoogled-Chromium:

This browser is considered a security liability due to their systemic lagging on security patches529.

It is strongly advised not to use Ungoogled-Chromium.

Edge:

This is for Windows users only. Edge is a solid choice too.

Cons:

Safari:

The macOS default browser.

Pros:

Cons:

Overall, we would not recommend using Safari on a macOS VM but instead, go for another Browser such as Brave or Firefox.

Firefox:

And of course, lastly, you could go with Firefox,

Pros:

Cons:

Security (especially sandboxing) of Firefox is arguably weaker than Chromium-based browsers534.

Tor Browser:

If you are extra paranoid and want to use Tor Browser and have “Tor over VPN over Tor”, you could go with Tor Browser within the VM as well. This is completely pointless/useless.

We would not recommend this option. It is just silly.

Appendix V1: Hardening your Browsers:

In this section, we’ll discuss hardening your browsers. This has a heavy focus on the difference between Tracking Reduction and Tracking Evasion, and the pros and cons of either. First, let’s define what they are as described by Rohan Kumar:

Browsers that provide Tracking Reduction are to be used for a more casual Threat Model whereas Tracking Evasion is more complex. But both need to be explored. Tracking Reduction focuses on browsing with less tracking. It involves things like content-blocking, firewalls, opt-outs, flipping telemetry buttons, etc. If you’re this far into the guide, you likely have a very good understanding of this already. Tracking Evasion, however, involves techniques like using the portable Tor Browser Bundle to anonymize your footprint and online identity, avoiding identifiable extensions, and using randomized keystroke delays. It’s more about minimizing your online footprint, to give you a less fingerprintable browsing environment and internet usage.

A brief mention of this is necessary in determining operation needs for both. You need a certain level of understanding in both to achieve good standards and develop better browsing habits. This can and will overall provide you with a more viable solution to public trackers, government organizations looking to trace/track your browsing habits back to you, even just trolls attempting to doxx you.

The following are the recommended safest routes for each browser according to the current versions of their respective software and the ability each one has to become more secure. In the guide we will provide both Tracking Reduction & Evasion and it will not require you to write even a single line of code.

Brave:

Addons to consider on Brave if you want additional protections:

That’s it and you should be pretty much covered. For full paranoia, you can also just “Block Scripts” to disable Javascript. Note that even disabling Javascript might not protect you fully535.

Ungoogled-Chromium:

This browser is considered a security liability due to their systemic lagging on security patches536.

It is strongly advised not to use Ungoogled-Chromium.

Edge:

Windows only:

Enable Application Guard for Edge (only on Host OS, not possible within a VirtualBox VM):

Skip if this is a VM

That’s about it for Edge but you are also free to add extensions from the Chrome Store such as:

Safari:

macOS Only:

Consider Appendix A5: Additional browser precautions with JavaScript enabled

That’s about it. Unfortunately, you will not be able to add extensions as those will require you to sign in into the App Store which you cannot do from a macOS VM. Again, we would not recommend sticking to Safari in a macOS VM but instead switching to Brave or Firefox.

Firefox:

Normal settings:

Advanced settings:

Consider Arkenfox/user.js, a heavily maintained and very easy to use browser config which uses a “user.js” to set all the privacy settings and disk avoidance values. Below we recommend that if you are not setting the Arkenfox config, at least setting the about:config values below. Arkenfox applies many others but these are the bare minimum for your protection while browsing. Remember: doing nothing and using a browser with its defaults will already be leaking many identifiable and trackable characteristics which are unique to you. See Browser and Device Fingerprinting for more details on why default settings in browsers are unsafe.

Those settings are explained on the following resources in order of recommendation if you want more details about what each setting does:

  1. https://wiki.archlinux.org/title/Firefox/Privacy [Archive.org] (most recommended)

  2. https://proprivacy.com/privacy-service/guides/firefox-privacy-security-guide [Archive.org]

Here are most of the steps combined from the sources above (some have been omitted due to the extensions recommended later below):

Addons to install/consider:

Bonus resources:

Here are also two recent guides to harden Firefox:

Appendix W: Virtualization

So, you might ask yourself, what is Virtualization537?

Basically, it is like the Inception movie with computers. You have emulated software computers called Virtual Machines running on a physical computer. And you can even have Virtual Machines running within Virtual machines if you want to (but this will require a more powerful laptop in some cases).

Here is a little basic illustration of what Virtualization is:

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Each Virtual Machine is a sandbox. Remember the reasons for using them are to prevent the following risks:

Nested virtualization risks

There is an inherently larger attack surface when nesting virtualization.

Here’s some host information that can be leaked through the Virtual Machine:

See https://www.malwarebytes.com/blog/news/2014/02/a-look-at-malware-with-virtual-machine-detection for more techniques used by malware to detect virtualization. These techniques are mostly prevented by appending some settings to your VM config file (.vmx). https://blog.talosintelligence.com/2009/10/how-does-malware-know-difference.html

Appendix X: Using Tor bridges in hostile environments

In some environments, your ISPs might be trying to prevent you from accessing Tor. Or accessing Tor openly might be a safety risk.

In those cases, it might be necessary to use Tor bridges to connect to the Tor network (see Tor Documentation https://2019.www.torproject.org/docs/bridges [Archive.org] and Whonix Documentation https://www.whonix.org/wiki/Bridges [Archive.org]). Optionally, if you are able, you should (seriously!) consider running a bridge https://blog.torproject.org/run-tor-bridges-defend-open-internet/ [Archive.org] yourself, as this would greatly help reduce the amount of censorship in the world.

Bridges are special Tor entry nodes that are not listed on the Tor public directory. Some of those are running on people running the Snowflake Browser extension538 while others are running on various servers around the world. Most of those bridges are running some type of obfuscation method called obfs4539.

Only available for Desktop Tor users: Recently, the Tor Project has made it incredibly simple to access Bridges with Connection Assist, and it is now automatically done in hostile or censored regions. Simply open the Tor Browser and the connection will be configured based on your needs on any hostile network. Previously, we had a list of options below this paragraph which were necessary to enable and configure bridges, but now that this is done automatically using moat. [Archive.org]

Here is the definition from the Tor Browser Manual540: “obfs4 makes Tor traffic look random and prevents censors from finding bridges by Internet scanning. obfs4 bridges are less likely to be blocked than its predecessor, obfs3 bridges”.

Some of those are called “Meek” bridges and are using a technique called “Domain Fronting” where your Tor client (Tails, Tor Browser, Whonix Gateway) will connect to a common CDN used by other services. To a censor, it would appear you are connecting to a normal website such as Microsoft.com. See https://gitlab.torproject.org/legacy/trac/-/wikis/doc/meek for more information.

As per their definition from their manual: “meek transports make it look like you are browsing a major web site instead of using Tor. meek-azure makes it look like you are using a Microsoft web site”. Snowflake bridges make it appear like your connections are phone calls to random internet users. This is a type of “domain fronting” 541. See “domain fronting” from the link in the previous paragraph for a detailed explanation of these types of secret “bridges”.

Lastly, there are also bridges called Snowflake bridges that rely on users running the snowflake extension in their browser to become themselves entry nodes. See https://snowflake.torproject.org/ [Archive.org].

First, you should proceed with the following checklist to make sure you cannot circumvent Tor Blocking (double-check) and try to use Tor Bridges (https://bridges.torproject.org/ [Archive.org]):

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(Illustration from Tor Browser Bridge Configuration)

If none of those build-in methods are working, you could try getting a manual bridge either from:

This website obviously could be blocked/monitored too so you could instead (if you have the ability) ask someone to do this for you if you have a trusted contact and some e2e encrypted messaging app.

Finally, you could also request a bridge request by e-mail to bridges@torproject.org with the subject empty and the body being: “get transport obfs4” or “get transport meek”. There is some limitation with this method tho as it is only available from a Gmail e-mail address or Riseup.

Hopefully, these bridges should be enough to get you connected even in a hostile environment.

If not, consider Appendix P: Accessing the internet as safely as possible when Tor and VPNs are not an option

Appendix Y: Installing and using desktop Tor Browser

Installation:

This is valid for Windows, Linux, and macOS.

Usage and Precautions:

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image56
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image57
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We would recommend the “Safest” level by default. The “Safer” level should be enabled if you think you need access to a website not working without JavaScript. The Safest mode will most likely break many websites that rely actively on JavaScript.

If you are extra paranoid, use the “Safest” level by default and consider downgrading to Safer is the website is unusable because of Javascript blocking.

Optional and not recommended by the Tor Project: If you are not using the “Safest” level, we will diverge from some but agree with others (for instance the Tails project and others542) and will actually recommend some modifications of the default Tor Browser in the addition of two extensions:

Let’s keep in mind that even 3 letters agencies recommend blocking ads for their internal users in order to improve security543.

If you did not go for the above personal and not officially recommended options, the Safer level should still be used with some extra precautions while using some websites: see Appendix A5: Additional browser precautions with JavaScript enabled.

Now, you are really done, and you can now surf the web anonymously from your desktop device.

Appendix Z: Online anonymous payments using cryptocurrencies

There are many services that you might want to use (VPS hosting, mail hosting, domain names…) but require payment of some kind.

As mentioned before in this guide multiple times, we strongly recommend the use of services accepting cash (that you could send anonymously through the postal services) or Monero which you can buy and use directly and safely.

Bitcoin and other “mainstream cryptocurrencies” are not anonymous at all (Remember Your Cryptocurrencies transactions) and you should never ever purchase, for example, Bitcoin from an exchange and then use these directly for purchasing services anonymously. This will not work, and the transaction can be traced easily.

Using Bitcoin anonymously option:

Despite this, it is possible to safely anonymize Bitcoin through the use of non-custodial collaborative transactions and privacy-preserving spending tools. This is possible with a protocol called ZeroLink and an implementation called Whirlpool which as two clients that utilize it and provide the necessary spending tools, detailed below. So, you might be wondering how? Well, it is actually pretty simple:

  1. Purchase Bitcoin at a non-KYC exchange (such as one found on https://kycnot.me/)

  2. Create a wallet with Samourai Wallet (Android) or Sparrow Wallet (Desktop). Both of these use the Whirlpool protocol to gain the user forward-facing on-chain privacy on Bitcoin.

  3. Deposit coins into the wallet and follow the relevant instructions (Samourai, Sparrow) to remove their historic links.

  4. Funds should only be spent from the Postmix account, as that is the account with the coins that have gained anonymity through Whirlpool.

Using Monero anonymously option:

  1. Purchase Monero at a non-KYC exchange (such as one found on https://kycnot.me/)

  2. Create a Monero wallet on one of your anonymized VMs (for example, on the Whonix Workstation which includes a Monero GUI wallet natively or using the Monero GUI wallet from https://www.getmonero.org/downloads/ on other OSes)

  3. Transfer your Monero from the wallet from which you bought it to the wallet on your VM. We cannot stress enough how import it is to have two separate wallets for this process, even for handling Monero.

  4. On the same VM (for instance again the Whonix Workstation), create a Bitcoin Wallet (again this is provided natively within the Whonix Workstation)

  5. From an anonymized browser (such as Tor Browser), use a non-KYC (Know Your Customer) service swapping service (see Appendix A8: Crypto Swapping Services without Registration and KYC) and convert your Monero to BTC and transfer those to the BTC Wallet you have on your anonymized VM

  6. You should now have an anonymized Bitcoin wallet that can be used for purchasing services that do not accept Monero.

You should never access this wallet from a non-anonymized environment. Always use well-thought OPSEC with your BTC transactions. Remember those can be traced back to you.

The origin of those BTC cannot be traced back to your real identity due to the use of Monero unless Monero is broken or if you consolidate outputs from spending at separate merchants. It is recommended to use privacy preserving wallets in the Bitcoin section. Please do read Appendix B2: Monero Disclaimer.

Regarding Zcash: this section previously included use of Zcash but it has been removed in light of newer, more accurate information.

Warning about special tumbling, mixing, coinjoining privacy wallets and services: Wikiless Archive.org

Centralized “private” tumblers, mixers and coinjoiners are not recommended since they do not provide anonymity in a way that truly unlinks an output from its history. Here are some references about this issue:

Mixing BTC in this way should prevent any chain analysis on future transactions. This will not however hide any past transactions or the fact you purchased BTC from a KYC exchange. Instead we recommend to use Bitcoin wallets that utilize Whirlpool or Monero (preferred).

When converting from BTC to Monero:

Now, as part of any process above, if you want to convert BTC back to Monero, we recommend not using a swapping service but instead recommend using the new Monero Atomic Swap Tool: https://unstoppableswap.net/. This will prevent unnecessary fees and intermediates when using a commercial swapping service. The website is self-explanatory with detailed instructions for all OSes.

Appendix A1: Recommended VPS hosting providers

We will only recommend providers that accept Monero as payment and here is my personal shortlist:

Also consider these lists:

Lastly, you could pick one (at your own risk) from the list here that does accept Monero: https://www.getmonero.org/community/merchants/#hosting [Archive.org]

Please do read Appendix B2: Monero Disclaimer.

If the service does not accept Monero but does accept BTC, consider the following appendix: Appendix Z: Paying anonymously online with BTC.

Appendix A2: Guidelines for passwords and passphrases

My opinion (and the one of many544545546547548549) is that passphrases are generally better than passwords. So instead of thinking of better passwords, forget them altogether and use passphrases instead (when possible). Or just use a password manager with very long passwords (such as KeePassXC, the preferred password manager in this guide).

The well-known shown-below XKCD https://xkcd.com/936/ [Archive.org] is still valid despite some people disputing it (See https://www.explainxkcd.com/wiki/index.php/936:_Password_Strength [Archive.org]). Yes, it is quite old now and is a little bit outdated and might be misinterpreted. But generally, it is still valid and a good argument for using passphrases instead of passwords.

image58
image58

(Illustration by Randall Munroe, xkcd.com, licensed under CC BY-NC 2.5)

Here are some recommendations (based on Wikipedia550):

Here is a nice website showing you some examples and guidelines: https://www.useapassphrase.com/

Watch this insightful video by Computerphile: https://www.youtube.com/watch?v=3NjQ9b3pgIg [Invidious]

Use a different one for each service/device if possible. Do not make it easy for an adversary to access all your information because you used the same passphrase everywhere.

You might ask how? Simple: use a password manager such as the recommended KeePassXC. Only remember the passphrase to unlock the database and then store everything else in the KeePassXC database. Within KeePassXC you can then create extremely long passwords (30+ random characters) for each different service.

Appendix A3: Search Engines

Which search engine to pick in your VMs?

We will not go into too many details. Just pick one from PrivacyGuides.org (https://www.privacyguides.org/search-engines/ [Archive.org]).

Personally, my favorites are:

Note that some of those have a convenient “.onion” address:

In the end, we were often not satisfied with the results of both those search engines and still ended up on Bing or Google.

Appendix A4: Counteracting Forensic Linguistics

Note that this information is taken and adapted from a Dread Post available here: http://dreadytofatroptsdj6io7l3xptbet6onoyno2yv7jicoxknyazubrad.onion/post/aad54fe83b33a8a45920/

No plagiarism is intended but some important adaptations and modifications have been made to improve the source post in various ways.

Introduction:

Stylometry is our personal and unique writing style. No matter who you are, you have a unique finger printable, and traceable writing style. This has been understood for a while now, and a branch of forensics is built off of this principle: forensic linguistics. In this field, the particular name for forensic linguistics applied to internet crime is called “Writeprint”. Writeprint primarily aims to determine author identification over the internet by comparing a suspect’s text to a known collection of writer invariant (normally written) texts, and even without comparison texts, this forensic technique can yield personal information about an author such as gender, age, and personality.

What does an adversary look for when examining your writing?

  1. Lexical features: analysis of word choice.

  2. Syntactic features: analysis of writing style, sentence structure, punctuation, and hyphenation.

  3. Structural features: analysis of structure and organization of writing.

  4. Content-specific words: analysis of contextually significant writing such as acronyms.

  5. Idiosyncratic features: analysis of grammatical errors, this is the most important factor to consider because it provides relatively high accuracy in author identification

Examples:

You might think that this is not something that an adversary pays attention to? Think again! There have been multiple cases where adversaries such as law enforcement have used Writeprint techniques to help catch and sentence people. Here are some examples:

Do not use the same writing style for your sensitive activities as for your normal activities. In particular, pay close attention to your use of common phrases, and punctuations. Also, as a side note: limit the amount of reference material that an adversary can use as comparison text, you do not want to find yourself in trouble because of your political Twitter post, or that Reddit post you made years ago, do you?

Pay attention to the little things that might add up. If you usually reply with “ok” to people, maybe try to reply with “okay” for your sensitive activities. You should NEVER use words or phrases from your sensitive activities (even if they are not in a public post) for normal purposes, and vice versa. Ross Ulbricht used “frosty” as the name for his Silk Road servers, and for his YouTube account, which helped convince law enforcement that Dread Pirate Roberts was in fact, Ross Ulbricht.

How to counteract the efforts of your adversary:

  1. Reduce the amount of comparison text for adversaries to compare you with. This goes with having a small online footprint for your normal activities.

  2. Use a word processor (such as LibreWriter) to fix any grammatical/spelling errors that you regularly encounter.

  3. Reduce or change the idioms that you use while conducting sensitive activities.

  4. Understand how your identity affects your writing style: Is your alias younger? Older? More educated? Or less educated? If your identity is older, maybe speak in a more JRR Tolkien style of writing.

  5. Pay attention to how your slang and spelling might identify you. If you are from the UK, you should say “maths”, but if you are from the US you say “math”. It does not matter how you say “maths”, all that matters is that it can be used to profile you. This also applies to slang as many regions each have different and extremely particular slang. You do not ask someone from the USA for a “rubber” and expect them to give you an “eraser” as an example.

  6. Pay attention to your use of emoticons and emojis. In the previous example, the DEA agent was able to make a correct assumption that Ulbricht was likely young because he did not use a hyphen when making a smiley emoticon.

  7. Pay attention to how you structure your writing. Do you use two spaces after a period? Do you constantly use parenthesis in your writing? Do you use the oxford comma?

  8. Consider what symbols you use in your writing. Do you use €, £ or $? Do you use “dd-mm-yyyy” or “mm-dd-yyyy” for dates? Do you use “08:00 pm” or “20:00” for time?

What different linguistic choices could say about you:

Emoticons:

  1. Russians for example use “)” instead of “:-)” or “:)” to express a smiley face.

  2. Scandinavians use “=)” instead of “:-)” or “:)” for a smiley face.

  3. Younger people generally do not use a hyphen in their smiley faces and just use “:)”.

Structural features:

  1. Two spaces after a period give off the impression that you are quite older because this is how typing was taught to people learning to type with typewriters.

  2. In the US people write numbers out with commas between numbers to the left of the starting number and with periods between numbers to the right of the starting number. This is in contrast to how people write out numbers on the rest of the planet.

US: 1,000.00$

Europe: 1.000,00€

Spelling slang and symbols:

  1. Obviously, people in different nations use different slang. This is even more pronounced when you use slang that is not as well known in other places such as someone from the UK mentioning a “headmaster” when in other nations it is referred to as a “principal”.

  2. Spelling is another important factor that is similar to slang, except it is harder to control. If you want to pretend that you are from the USA, but you actually live in Australia, it only takes one time of spelling “colour” as color to let people understand that something is up.

  3. Some people also spell words in a particular way that is not regional for example you might spell “ax” as “axe” or vice versa.

  4. Of course, the symbols you use on your keyboard can give a lot of information away, such as £’s or $’s.

Techniques to prevent writeprinting:

Here are some techniques in order of use:

Spelling and grammar checking:

This helps prevent some fingerprinting done using your spelling and grammar mistakes

Offline using a word processor:

Use a word processor such as LibreWriter and use the spelling and grammar checks features to fix mistakes you might have typed.

Online using an online service:

If you do nothave a word processor available or don’t want to use one, you can also use an online spelling and grammar checker such as Grammarly (this requires an e-mail and an account creation).

Translation technique:

Disclaimer: a study archived here: https://web.archive.org/web/20181125133942/https://www.cs.drexel.edu/~sa499/papers/adversarial_stylometry.pdf seems to indicate the translation technique is inefficient to prevent stylometry. This step might be useless.

After being done with spelling and grammar fixes. Use a website or software such as Google Translate (or for a more privacy-friendly version, https://simplytranslate.org/) to translate between several different languages before translating back to your original language. These translations back and forth will alter your messages and make fingerprinting more difficult.

Search and replace:

Finally, and optionally, add some salt by purposefully adding some mistakes to your messages.

First decide upon a list of words that you frequently do not misspell, maybe the words “grammatical”, “symbol”, and “pronounced” (this list should include more words). Do not use an AutoCorrect automatic replace option for this as it might correct when it does not make sense. Instead, use Search and Replace and do this manually for each word. Do not use “Replace All” either and review each change. This is just the first step, for providing misinformation against linguistic fingerprinting.

Next, find a list of words that you commonly use in your writing. Let us say that we love to use contractions when wew rite, maybe we always use words such as: “can’t”, “don’t”, “shouldn’t”, “won’t”, or “let’s”. Well, maybe go into LibreWriter and use “Search and Replace” to replace all contractions with the full versions of the words (“can’t” > “cannot”, “don’t” > “do not”, “shouldn’t” > “should not”, “won’t” > “will not”, “let’s” > “let us”). This can make a large difference in your writing and give a difference in how people and most importantly your adversaries perceive you. You can change most words to be different, as an example you can change “huge” to “large”. Just make sure these words fit with your identity.

Now, consider changing your words choices to fit a geographic location. Maybe you live in the US, and you want to give the impression that your identity is from the UK. For example, you can make use of location-based spelling and lexicon. This is risky, and one mistake can give it away.

First off, you need to decide where you want to give the impression of your location. Here is an example to give off the impression that you are from the US, or the UK. First, you will need to understand a thing or two about where your identity is “from”, do not pretend that you are from the UK, yet have no idea about it other than it exists.

After you have decided upon a good location that your identity is from, research the differences in language between the two languages (in this case between UK English and US English). Thanks to the internet, this is quite easy, and you can find Wikipedia pages conveniently highlighting the regional differences of a language between two nations. Pay attention to how certain words are spelled (“metre” > “meter”) and what words are exchanged with each other (“boot” > “trunk”). Now that you have a list of words that can be exchanged with each other, and a list of spelling that are different, use the “Search and Replace” in your editor and change the words such as “colour” into “color”, and “lorry” into “truck”. Again, do not use an AutoCorrect feature or “Replace All” as some changes might not make sense. Review each proposed change. As an example, if you were to use AutoCorrect or “Replace all” on the word “boot” to change into “trunk”, this would make perfect sense in the context of cars. But it would not make any sense in the context of shoes.

Final advice:

Understand that you have to constantly think of what you type and how you type while conducting sensitive activities.

Understand that altering your writing style for such purposes can ultimately change your baseline writing style, ironically making your writing traceable over longer periods.

Proofread yourself at least one time after you are done writing anything to verify you made no mistakes in your process. Trust (yourself) but verify anyway.

You might also consider the use of something like AnonyMouth https://web.archive.org/web/https://github.com/psal/anonymouth [Archive.org] which is a tool that you can use to anonymize your documents, developed by PSAL, Drexel University’s Privacy, Security, and Automation Laboratory https://psal.cs.drexel.edu/index.php/Main_Page [Archive.org]. Such tools can prove invaluable.

Appendix A5: Additional browser precautions with JavaScript enabled

To avoid Browser and User Fingerprinting through JavaScript but while keeping JavaScript enabled, some additional safety measures should be observed at least on some websites:

These recommendations are similar to the ones at the beginning of the guide and especially valid for certain websites. Mostly, the recommendation is to use privacy-friendly front-end instances and alternative services for a variety of services:

(Optional) Consider the use of the https://libredirect.github.io/ [Archive.org] extension to automate the use of the above services.

Appendix A6: Mirrors

Find it online at:

Appendix A7: Comparing versions

If you want to compare an older version of the PDF with a newer version, consider these online tools (note that we do not endorse those tools in relation to their privacy policies, but it should not matter since these PDFs are public):

If you want to compare the older version of the ODT format with a newer version, use the LibreWriter compare features as explained here: https://help.libreoffice.org/7.1/en-US/text/shared/guide/redlining_doccompare.html [Archive.org]

Appendix A8: Crypto Swapping Services without Registration and KYC

General Crypto Swapping:

Skip to next section for BTC to Monero. Do not use swapping services for BTC to Monero.

Here is a small list of non-KYC crypto swapping services, remember they all have a cost and fees:

Consider having a look at https://kycnot.me/ which is an open-source project listing non-KYC exchanges/swapping services (repository at https://codeberg.org/pluja/kycnot.me).

BTC to Monero only:

Do not use any swapping service, use their Atomic Swap feature. See this Monero Atomic Swap Tool: https://unstoppableswap.net/.

This will prevent unnecessary fees and intermediates when using a commercial swapping service. The website is self-explanatory with detailed instructions for all OSes.

Appendix A9: Installing a Zcash wallet:

Remember this should only be done on a secure environment such as VM behind the Whonix Gateway.

Debian 11 VM:

Ubuntu 20.04/21.04/21.10 VM:

Windows 10/11 VM:

Whonix Workstation 16 VM:

Appendix B1: Checklist of things to verify before sharing information:

Here is a checklist of things to verify before sharing information to anyone:

After curating the files for anything you want to leave out. Double-check and even Triple check them. Then you could consider sending them to an organization such as a press organization or others.

Appendix B2: Monero Disclaimer

First, please read this small introduction video to Monero: https://www.youtube.com/watch?v=H33ggs7bh8M [Invidious]

The anonymity of Monero depends on its crypto algorithms. If you do use Monero from a KYC Exchange. You can be almost certain that you are safe today. But you might not be in the long-term future if Monero algorithms are ever broken551 (think Quantum Computing). Do keep in mind that KYC regulations might force operators (such as Crypto Exchanges) to keep your financial records for up to 10 years and that you, therefore, need Monero algorithms to not be broken for the next 10 years as well.

You may want to watch this insightful video for more details: https://www.youtube.com/watch?v=j02QoI4ZlnU [Invidious]

Also please consider reading: Privacy Limitations in Anonymity Networks with Monero [Archive.org]

Use these at your own risk, sending cash payments to providers accepting cash (through the postal service) is always a better solution if/when possible.

Appendix B3: Threat modeling resources

Here are various threat modeling resources if you want to go deeper in threat modeling.

We recommend the LINDDUN https://www.linddun.org threat modeling method [Archive.org]: - Researchers created an online tool to help make your threat model at https://www.linddun.org/go [Archive.org]. - It is synergistic with STRIDE below. - It is focused on privacy but is clearly perfectly suitable for anonymity. - It is accessible to all skill levels including beginners (providing many tutorials) but also suitable for highly skilled readers. - It is used in the making of the Threat Modeling Manifesto: https://www.threatmodelingmanifesto.org/ [Archive.org]

LINDDUN threat modeling tutorials and resources: - We recommend the following quick tutorial video from “The Hated One” YouTube channel with the approval and review from LINDDUN designers: https://www.youtube.com/watch?v=6AXkJ3dot2s [Invidious] to get started. - More resources for deeper understanding and usage:

- You can read more here: [A Lightweight Approach to Privacy Threat Modeling](https://sion.info/assets/pdf/publications/WuytsIWPE2020.pdf)
- Here are two videos from [Dr. K. Wuyts](https://www.semanticscholar.org/author/Kim-Wuyts/3190241) (imec-DistriNet, KU Leuven) explaining the process:
    - [Privacy & prejudice: on privacy threat modeling misconceptions](https://www.youtube.com/watch?v=zI4SFyq_Xjw) <sup>[[Invidious]](https://yewtu.be/watch?v=zI4SFyq_Xjw)</sup>
    - [Privacy Threat Model Using LINDDUN](https://www.youtube.com/watch?v=C9F8X1j9Zpg) <sup>[[Invidious]](https://yewtu.be/watch?v=C9F8X1j9Zpg>)</sup>

image59 (Illustration from LINDDUN2015)

Here are alternative resources and methodologies if LINDDUN doesn’t suit you:

Appendix B4: Important notes about evil-maid and tampering

Your context needs to be taken into account.

Preventing an evil-maid attack attack or tampering might lead to bad consequences. Your adversary might then resort to other means to obtain the key.

On the other hand, allowing the attack but detecting it will not let your adversary know that you are aware of the tampering. You can then take steps safely to not reveal information and possibly leave.

See the Some last OPSEC thoughts section for some tips.

Appendix B5: Types of CPU attacks:

Select security issues plague many Intel CPUs, such as transient execution attacks (formerly called speculative execution side channel methods). Here you can check your CPU against affected micro-processors with known bugs https://www.intel.com/content/www/us/en/developer/topic-technology/software-security-guidance/processors-affected-consolidated-product-cpu-model.html [Archive.org].

The Advanced Programmable Interrupt Controller (APIC) is an integrated CPU component responsible for accepting, prioritizing, and dispatching interrupts to logical processors (LPs). The APIC can operate in xAPIC mode, also known as legacy mode, in which APIC configuration registers are exposed through a memory-mapped I/O (MMIO) page.

Enter AEPIC (stylized ÆPIC), the first architectural CPU bug that leaks stale data from the microarchitecture without using a side channel. It architecturally leaks stale data incorrectly returned by reading undefined APIC-register ranges. This novel method was revealed in the paper ÆPIC Leak: Architecturally Leaking Uninitialized Data from the Microarchitecture which you can read here: Borrello2022AEPIC [Archive.org]

Model-specific registers (MSRs) and their configuration bits can also be detected automatically on Intel and AMD CPUs: Kogler2022 [Archive.org]. This allows an attacker (with heavy knowledge of CPU functionality) to view information about the MSRs, which are essentially special CPU registers allowing interaction with low-level CPU features and advanced configuration of the CPU’s behavior. Modern x86 CPUs have hundreds of these, which are usually documented very little and in increasingly less verbosity over the past few years.

Some other microarchitecture bugs:

Appendix B6: Warning for using Orbot on Android

While this is often misunderstood, Orbot on Android does not make your “Tor-Enabled Apps” go through Tor if you add them to the list. Orbot is acting as a device-wide VPN or (also known as a transparent proxy). The list of apps using Orbot is a whitelist. This list will not make some apps magically use Tor and unchecked ones use the clear-net. This only ensures the device-wide VPN is using Tor to route traffic. This means that Orbot can only control what app can access the VPN it creates. Other apps will lose connectivity.

What is important to know is that, if you launch an app (or Android does it automatically) while Orbot is not running, the app will just use the normal network, without involving Orbot (with the exception of some apps supporting a proxy Orbot).

Additionally, you should not be surprised by Tor Browser not working when using Orbot in VPN mode, as the Tor design does not allow “Tor over Tor” (you cannot re-enter the Tor network from a Tor exit node).

This is explained rather well by Alexander Færøy, who is a core developer at the Tor Project, in their TorifyHOWTO: Tor over Tor.

“When using a transparent proxy, it is possible to start a Tor session from the client as well as from the transparent proxy (read the warning!), creating a”Tor over Tor" scenario. Doing so produces undefined and potentially unsafe behavior. In theory, however, you can get six hops instead of three, but it is not guaranteed that you’ll get three different hops - you could end up with the same hops, maybe in reverse or mixed order. It is not clear if this is safe. It has never been discussed. You can choose an entry/exit point, but you get the best security that Tor can provide when you leave the route selection to Tor; overriding the entry / exit nodes can mess up your anonymity in ways we don’t understand. Therefore Tor over Tor usage is highly discouraged."

And from a post on the Tor Stack Exchange:

“The danger (beyond the performance hit) which keeps me from running Tor over Tor has to do with timing and congestion measurements. Adversaries watching your traffic at the exit(s) of your circuits have a better chance of linking your Whonix activity with your [Tor Browser Bundle] activity when those shared circuits slow down or drop packets at the same time. This can happen without Tor over Tor when your instances use a common upstream link. The linkage will be made tighter and more explicit if you run the Whonix Tor traffic through your TBB SOCKS5 Tor circuits. This tighter linkage raises the danger of successful correlation.”

Appendix B7: Caution about Session Messenger

Here are our reasons:

In short, our opinion is that you may use Session Messenger on iOS due to the absence of a better alternative (such as Briar). But if Briar or another app (maybe Cwtch in the future) becomes available, we will recommend going away from Session messenger as soon as possible. It is a last resort.


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  386. Wikipedia, Turing Test https://en.wikipedia.org/wiki/Turing_test [Wikiless] [Archive.org]

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  405. Wikipedia, Zero-trust Security Model https://en.wikipedia.org/wiki/Zero_trust_security_model [Wikiless] [Archive.org]

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  415. Wikipedia, KYC https://en.wikipedia.org/wiki/Know_your_customer [Wikiless] [Archive.org]

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  432. Signal Blog, Private Contact Discovery https://signal.org/blog/private-contact-discovery/ [Archive.org]

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  439. Wikipedia, TPM https://en.wikipedia.org/wiki/Trusted_Platform_Module [Wikiless] [Archive.org]

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  443. Wikipedia, Write Amplification https://en.wikipedia.org/wiki/Write_amplification [Wikiless] [Archive.org]

  444. Wikipedia, Trim Disadvantages https://en.wikipedia.org/wiki/Trim_(computing)#Disadvantages [Wikiless] [Archive.org]

  445. Wikipedia, Garbage Collection https://en.wikipedia.org/wiki/Write_amplification#Garbage_collection [Wikiless] [Archive.org]

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  454. GitHub, nvme-cli https://github.com/linux-nvme/nvme-cli [Archive.org]

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  494. Wikipedia, MD5 https://en.wikipedia.org/wiki/MD5 [Wikiless] [Archive.org]

  495. Wikipedia, MD5 Security https://en.wikipedia.org/wiki/MD5#Security [Wikiless] [Archive.org]

  496. Wikipedia, Collisions https://en.wikipedia.org/wiki/Collision_(computer_science) [Wikiless] [Archive.org]

  497. Wikipedia, SHA https://en.wikipedia.org/wiki/Secure_Hash_Algorithms [Wikiless] [Archive.org]

  498. Wikipedia, SHA-2 https://en.wikipedia.org/wiki/SHA-2 [Wikiless] [Archive.org]

  499. Wikipedia, Collision Resistance https://en.wikipedia.org/wiki/Collision_resistance [Wikiless] [Archive.org]

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  501. Wikipedia, GPG https://en.wikipedia.org/wiki/GNU_Privacy_Guard [Wikiless] [Archive.org]

  502. Wikipedia, Public-Key Cryptography https://en.wikipedia.org/wiki/Public-key_cryptography [Wikiless] [Archive.org]

  503. Wikipedia, Polymorphic Code https://en.wikipedia.org/wiki/Polymorphic_code [Wikiless] [Archive.org]

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  531. GrapheneOS, Web Browsing https://grapheneos.org/usage#web-browsing [Archive.org]

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  539. GitHub, Obfs4 Repository https://github.com/Yawning/obfs4/ [Archive.org]

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