Andy Yen, the CEO of Proton (Mail, Drive, VPN, Pass…) answered a lot of the questions you, the community, asked, in an interview that covers basically everything!
He discusses security, privacy, the origins of Proton, how they operate, Linux support, future projects, products and features, quantum computing, passkeys, and more!
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#vpn #privacy #proton #onlinesecurity #protonmail
Timecodes:
00:00 Intro 01:16 How did Proton start? 03:24 Why start with email? 06:03 What is Proton’s business model? 08:34 Why set up in Switzerland? 11:33 What data do you have on customers? 14:39 How is encryption important? 18:20 Do you always need to use a VPN? 20:47 Why focus on building an ecosystem? 24:55 Is an Office Suite planned? 26:29 What differentiates Proton from competitors? 30:26 Is Proton a viable alternative to big tech services? 33:31 Why expand to more products instead of finishing existing ones? 37:19 Does the general public care about privacy? 38:45 What’s next for Proton services? 40:08 What are the plans for native Linux clients? 46:03 Will ProtonVPN offer dedicated IPs to everyone? 47:46 What’s the environmental impact of Proton? 49:27 Proton on F-Droid, without Google Play notifications? 52:03 Why are code repos all separated and hard to find? 53:12 Why are addresses ending in “.me” ? 54:57 When will all apps reach feature parity? 56:24 Will SMTP relay be supported? 57:47 Will Proton focus more on businesses in the future? 59:50 Why put all your eggs in one basket with just Proton services? 01:01:00 Will Proton support passkeys? 01:03:21 Does E2E matter is the recipient isn’t using it? 01:04:49 Will Proton disable port forwarding in VPN? 01:06:41 Is encryption enough to make email private? 01:09:06 What protects users from a change in Proton’s code licensing? 01:11:14 How does Proton protect its infrastructure? 01:13:14 Impacts of Quantum Computing on privacy and security? 01:14:24 What’s the future of Proton Bridge? 01:16:25 When will Proton photos be a thing? 01:17:17 Plans for Proton Notes? 01:18:20 Will VPN support the Apple TV? 01:21:12 Support the channel
What you describe it’s an attack, not a feature though. A broken promise would be if they intentionally did so, which is something we have no proof at all (and would also be pretty stupid for them). They have no way to prevent the attack you mention completely because that’s inherent to the fact that the same entity that serves the software handles the ciphertext. There is absolutely nothing they could do to improve their stance on this “promise”.
My stance is that you need to some extent to suspend the judgement. They have an internal security team which likely considers this scenario one of the (main) ways in which their encryption can be broken. They might have extremely tight processes around that, which makes the scenario described potentially very unlikely. It might also be they have done nothing, but I can’t know either way. This fact generates a risk which different people will estimate in different quantity. Your stance seems to be pretty binary instead, while not everyone has the same risk appetite that Snowden has.
They are HIPAA compliant (which I am not very familiar with, since I am not in the healthcare sector), but separation of duties is a basic principle really that even companies without any certification adopt. I see HIPAA does have provisions in terms of access-control, but I don’t know how they comply. Either way, this does not make it “impossible” in any case, but it’s also not granted that a single employee could completely break their product.
I understand. That would still require some level of persistence, and to compromise what I am sure is plenty of replicas for the particular service (I doubt it’s predictable which one will serve which user).
Well, if an attacker has the ability to install the certificate on the device (which requires
root
), then even the PGP encryption is probably toast (I can likely phish the user password with a fake-prompt and then read the private key). Either case, they usestrict-transport-security
headers and they are on a preload list, so DNS poisoning and the like won’t work, the browser will refuse to load the page and won’t even prompt the user to accept the risk.Absolutely true, but then again, this is true about pretty much anybody. I work in the financial sector and I can assure you the malicious employees can do a lot of damage if they wanted and that’s why the malicious insider is a threat right at the top of the list for every security department. As I said before, a malicious commit to an OSS repo for a library/tool that implements your e2ee and you have the same attack vector. Also, they might as well just coerce you if they can, rather than an employee of a company.
Apologies, but this is might be simply a bubble you are in. I know one person who does, and I live in a tech bubble. PGP is incredibly annoying and the web of trust is not scalable. This without even talking about the technical challenges (the tooling sucks). Proton has 100million users alone (sure, many duplicates) and will never be mainstream, but I would be surprised if more than a million people use PGP (I have no numbers) “vanilla”. My perception is also anecdotal, but PGP being borderline unusable is almost a meme.
Yeah, perhaps. But then again, those people are probably not those who have this kind of attack in their risk model.
Because their service is top-notch and I don’t consider the eventuality of them being compromised a lie in their statements. In my mind, the theoretical capability to do something does not mean that something is done or easy to do, especially because - again - I have no idea of what other (internal) control they have implemented to prevent and control that particular vector. As far as we know, to update the frontend code employees might need to access some specific server that requires ad-hoc approval and the supervision of 3 people, plus a manual signoff, and after that the signature of the code (say, container image) is verified before locking the system again. I just made it up of course, but I think they have plenty of people in-house that figured out this risk too.
I think that web-based e2ee can be more quickly broken if the provider is compromised/there is a malicious insider and the provider does not have an appropriate level of security mitigations/controls, as it does not require user interaction. This is really the substantial difference compared to non-web e2ee, for whatever is worth. So yeah, it’s not snake-oil in my view, it’s an inherent property of web services and the best a web service can do. Actually, if you use Proton bridge you are in the same exact situation than if you were to use your favorite PGP cli tool or plugin, so there is also this.
I wouldn’t consider snake-oil something because it can be compromised, because snake-oil selling implies the bad faith of the seller, which in case of Proton I have no reason to think is there.
Yeah, i think it is a feature, and a very beneficial one for the people this system was designed for - those who want a lot of privacy-desiring users to settle on using an encryption solution which isn’t too difficult to circumvent.
Yep! That is what I’ve been saying: that is the problem with this architecture!
Note that, throughout this discussion, I’m not really just talking about Proton but rather them and Tuta and Hushmail and anything else that shares this architecture.
Well, they could be honest and inform their users: “to have the convenience of using webmail you must sacrifice the benefit of end-to-end encryption (not needing to trust the server and its operators to refrain from reading your messages).”
Do you think telling users that would surprise many/most of them, and cause them to stop using it? Could that be why they don’t mention it?
Yep. But no matter how tight their processes are, there are still single points of failure that can be coerced to gain access to anyone’s email.
It’s funny you mention Snowden. Even he was naive enough to use a Proton/Tuta/Hushmail-like system back in 2013… it was called Lavabit. In the case of Lavabit, I think the operator was actually also naive and well-intentioned because when people investigating Snowden asked him to perform the exact attack i’ve been describing (which his architecture enabled him to) he instead opted to shut down the entire service and to notify Snowden and the world.
ProtonMail operating with the architecture they have in a post-Lavabit world (they were actually founded just after that happened, and rode the Snowden privacy-awareness wave to success) is pretty strong evidence that they would not shut down their system if the alternative was being forced to spy on some of their users.
(To be clear, Lavabit should’ve known better too, existing in a post-Hushmail world…)
🤦 that is (obviously, i thought) not what i’m talking about. i know how the PKI and HSMs and HSTS and CT and CAA (protonmail’s CAA records authorize 3 different CAs to sign for them) etc etc work, and their many failures over the years that have lead to the current set of mitigations, and how HPKP worked/works (which, btw, i just checked, and protonmail is sending a
public-key-pins-report-only:
header, very nice 🤣) but I don’t have the energy to explain to you why selling something as e2ee while it reduces to (among other things) specifically the security of TLS is dishonest.I just checked their site and they still say it’s “for journalists”, and “we can never access your messages”, etc etc.
Someone hiding from a violent criminal organization might well realize that they have a life-or-death “risk model” and yet not realize that ProtonMail’s (lauded by knowledgeable people like yourself) security actually has numerous human single points of failure which their adversary can coerce to read their email.
The people who need security most are often people who lack the expertise to adequately evaluate the veracity of claims like ProtonMail’s. They look to knowledgeable people (like you and i) to help them decide what is reasonable. Also, even very knowledgeable people who badly need security will sometimes sacrifice security for convenience (eg, Snowden; he also used other things, but, he used Lavabit too, presumably assuming that this type of attack, while possible, would not actually happen).
If what you want is not privacy from adversaries who can compromise your mailserver, but rather just protection from GMail reading your mail, then you don’t need e2ee: you need a provider with a privacy policy you believe they will honor. By saying things like this:
… ProtonMail is demonstrating that they are not trustworthy. When they aren’t circumventing their encryption, are they honoring their privacy policy with regard to the things the encryption doesn’t protect (metadata like social graph, location, etc)? Why would you assume they are when they’re lying about their ability to read your emails?
From your replies here, it’s becoming clear to me that you do see this: if i understand you correctly, you are not saying that ProtonMail “cannot read or give anyone else access to your emails” as they are saying; rather you are just saying that you think it is very unlikely that they would ever abuse that capability and that you assume their procedures make it so that one rogue employee couldn’t do it alone. You do seem to understand that, contrary to what they’ve written in the screenshot above, ProtonMail as a company technically could decide to. But, do you think most of their customers understand that?
I’m growing rather tired of this discussion, but I have a few more questions for you.
Given that they have 100 million users, which of these statements do you think is the most likely to be accurate:
Personally, I think #3 is a bit more likely than #4, while #1 and #2 are extremely unlikely.
So, my last questions are:
In any case, as you said, we “can’t know either way”.
for readers on peertube: apparently images in comments don’t work. https://lemmy.ml/pictrs/image/a5c0fb24-66cd-4019-be26-8ef4469c2d2e.png is the image which should be appearing after the paragraph that ends with “things like this:”
This you need to prove somehow. Has there be any attack that happened like this? Has there been any content leaked this way, or provided to law enforcement? In other words, did they use this “feature” in any way? Because if this is just a design limitation, then it’s not a feature, it’s a risk exactly like using someone else’s code exposes you to supply chain risk. Would you say that anybody who uses any external library is actually a snake-oil seller about the property of their product because if a supplier (library, dependency, etc.) get compromised their product could be compromised? I wouldn’t say so. I think that intentions matter here.
Yes, I understand.
But that’s not true. End-to-end encryption simply means that the encrypt/decrypt operation happen on the client side. It doesn’t mean that it’s an unbreakable design. Following this logic, every software that does PGP encryption should say “to have the convenience of not having to rewrite all the code ourselves we use suppliers which might allow third parties to read your messages”. Proton content is still end-to-end encrypted, with the code hosted publicly. The fact that vectors exist to invalidate that is not a reason to invalidate the whole thing, exactly like the existence of supply chain attacks are not a reason to dismiss the validity of e2ee for CLI tools and the like.
Also, I mentioned the potential to use the bridge. That is a fully client-side tool which does not run in the browser, does that satisfy your risk appetite?
They are a point of failure, not a single point of failure necessary (as in a single person).
But this was not your claim, your claim was that compromising them and serving backdoored JS was not the only way, and that an attacker in an appropriate network position could achieve the same. I am saying that particular vector does not apply, because your browser will actually refuse to serve Proton without a valid certificate due to HSTS. So an attacker can tamper with the code only at either of the “ends” (either compromising them or compromising your endpoint).
Just for reference, what I meant is that people referred by the statement “and the incorrect perception that ProtonMail’s end-to-end encryption provides meaningful security is undoubtedly preventing some of their customers from using better tools instead.” are not those who have that risk model. Journalist and other at-risk people have technical consultants and are (hopefully?) aware of the risks, and can apply additional controls (for example, using Proton to send encrypted content). They are not those who won’t use other - more secure - channels than email because they read Proton pages.
e2ee is just a very nice and clear-cut way to enforce the privacy policy. Law enforcement can still get the data from a provider. If the data is not collected, the data cannot be given. Sure, it’s possible that a 3-letter agency will coerce Proton to compromise a user but a) this did not happen yet (as far as we know?) and 2) again, if that’s part of your risks, don’t use emails or just use email to send encrypted content…
You seem to be really fixated with this statement, but it’s not true. They don’t have the “ability” to read emails. They have a setup that - provided the violation of controls that we both don’t know about - can possibly grant them that ability. I really don’t understand why you think it’s different from any other software. If the NSA goes to https://www.gnupg.org and says “you know what, the next time you serve your software to IP x.x.x.x”, you serve this package, you will never know and your encryption is toast. Would you say that the folks behind GnuPG “have the ability to read your emails”? I wouldn’t, because they are not backdooring the software, although the possibility for them, contributors and national actors to do that exists.
Yeah, you are correct. This is exactly the same as me saying that technically a lot of people in my organization could tamper with payments and violate the integrity of most of UK bank transfers. In practice, there are a bazillions controls in place to ensure that this does not happen, and before touching production there are tons of safeguards, but theoretically my company could decide to break compliance, remove procedure and allow a free-for-all on banking transactions before being fined/shut down/to the abyss.
I do believe that they have no interest whatsoever to abuse this architectural feature, but I agree that they could be coerced to. However, as I said before, I believe the same to be true for any other software, which is why I don’t agree on the risk model to be significantly different from many other tools. In fact, the fact that they are in Swiss jurisdiction might help, compared to a lot of (F)OSS entities which are in the US.
No, I think most people don’t.
I have no idea. I would say 1 or 3 are the most likely. It seems a very unnecessary way (if I were a certain 3 letter agency) to gain access to a small set of data, when I can compromise the whole device and maintain persistence much more conveniently (for example coercing the ISP to give me access to the router and go from there, or ask directly Apple and Microsoft, etc.).
I would say that they should disclose that for sure, at least with a warrant canary, since they might actually not even be allowed to fully disclose it. I am fairly conflicted about the fact that government surveillance has -sometimes- reason to be exercised, provided a judge has vetted it and proper guarantees are in place (not the US way, to be clear), and the fact it is routinely abused. I also believe that perfect security does not exist, and it’s enough for me to send an encrypted attachment via Proton and mitigate this whole risk.
To answer your question, I would say that if this is a forced action that happened a handful of times, for extremely high profile cases and severe reasons, then I might still consider their claim legitimate. If it’s a routine procedure to satisfy pretty much any request, then I would agree that this becomes more of a feature than an attack.
That said, I also have a couple of final questions for you too:
I said “i think” because, unlike many of the other things I’m saying here which are statements of fact, my suggestion that ProtonMail specifically is designed for this attack to be possible is merely well-informed speculation.
See the links in my earlier comments for evidence of this kind of attack happening against all three of the other largest email providers with similar architectures as ProtonMail (Tuta, Hushmail, and Lavabit).
If both users are using the bridge (assuming it is designed how I think it is), they would certainly be better off than if one or both of them is using the webmail e2ee. However, I would never use or recommend using protonmail, even with the bridge, because it is very likely that the people I’m writing to would often not be using the bridge. Also, because ProtonMail e2ee doesn’t interoperate with anything else, and by using it I’d be endorsing it and encouraging others to use it (“it” being ProtonMail, which for most users is this webmail snakeoil).
Also, I don’t know in detail how the bridge actually works, and, like most of the people I know who sometimes audit things like this… the open source bits from Proton like their bridge aren’t interesting enough to be worth auditing for free (except perhaps by a security company, for their own marketing purposes) because, even if it turns out to be soundly implemented itself, it is a component of a non-interoperable proprietary snakeoil platform.
From your earlier comments I think you’re working from a mental model where an individual employee performing the attack would need to check something in to git or something like that, but, don’t you think anyone with root on, say, one of the caching frontend webservers do this? I suggest that you try to think about how you would design their system to prevent a single person from unilaterally doing it, and then figure out how you can break your design.
Yes, I get that you are saying that, but it’s because you have not been hearing me saying that HTTPS has been circumvented numerous ways over the years and will continue to be. Do you think we’ve seen the last rogue certificate authority? Or the last HSM where (oops!) they key can actually be extracted?
Don’t you think there is a reason why most modern software update mechanisms don’t rely solely on HTTPS for authenticity of their updates?
🤔 I actually wonder why ProtonMail lists Digicert and Comodo alongside LetsEncrypt in their CAA DNS records. (Fwiw, they currently have a cert from LetsEncrypt, from my network perspective at least). Doesn’t that mean that, against a browser supporting DNSSEC and CAA records, a rogue employee at any of those 3 companies can issue a cert that would allow this attack to be performed? (Of course, against a browser that isn’t validating CAA with DNSSEC, anybody at any one of thousands of sub-CAs can also do it…)
As someone who has been one of those technical consultants, let me tell you, arguing with at-risk people about the veracity of posts on privacy forums singing the praises of things like protonmail is part of the job. 😭
This is a false equivalence in several ways:
Again, these software distribution channels (eg, Linux distros, etc) have many of their own problems, but they are in a different league than javascript in a browser. Ways they’re better include:
Isn’t that because their web page says something to the contrary?
Really? Scenario 1 is possible? You think a privacy-touting email service with 100M users might have never had a request to circumvent their encryption, despite being able to?
Again, I’m not just talking about 3 letter agencies, but anyone who wants to read someone’s mail. And often there is a point where the email address is all that is known about the target.
I use some mitigations I won’t go into, but, yeah, on the system I’m typing this on I do sadly use a distribution which relies on a single archive signing key, so, if you compromise that key (or the people with access to it), and obtain a valid HTTPS certificate for the particular mirror I use, and you know the IP address I’m using at the moment I’m doing an OS update, you can serve me a targeted (by IP) malicious software update. 😢
I think the vast majority of Mutt users don’t get their Mutt binaries from Kevin McCarthy, and having him put a targeted backdoor in the source code would be foolish as it would be likely to be noticed by one of the mutt distributors who builds it before it gets distributed. Since reproducible builds still aren’t ubiquitous, the best place to insert a widely-distributed-but-targeted-in-code backdoor would be at the victim’s distributor’s buildserver.
Yes, but unlike the ProtonMail case there is a chance of being caught so it is a much higher risk for the attacker.
There are a wide variety of software distribution paradigms, on a spectrum of difficulty to attack. At one end of the spectrum you have things like Bitcoin Core, where binaries are deterministically built and signed by multiple people, and many users actually verify the signatures to confirm that multiple builders (with strong reputations) have independently built an identical binary artifact. At the other end of the spectrum you have things like ProtonMail with zero auditability, users identifying themselves and re-downloading the software at each use, and numerous single points of failure that can be exploited to attack a specific user. Things like mainstream free software operating system distributions, macOS, Windows Update, etc sit somewhere in the middle of that spectrum.
No. See previous answers for the massive differences.
I will skip some parts because I think it’s not worth repeating.
This was clearly just an example. Any distributor is the single of point of failure. You can coerce or compromise it, and you will serve compromised software.
No there isn’t. There is nothing that prevents Github to serve you a different file when you query the same URL than what regular users will (for example by IP). It’s trivial to do this with any reverse proxy. And the same applies for a signature file, which means you can only notice if you manage to get the file and the signature from someone else and compare the signature/hashes for the same release. Which is basically the same as saying “I will compare my JS blob de-minified with the one in the OSS repo”, nobody does this either, I agree. This can totally happen every time you download something from any website, technically, provided that the server is coerced or compromised.
Not really. The spectrum is much narrower than how you present it. I bet 99% of users install software in one of these ways:
Almost all the package managers AFAIK work under the same model (package, signed with the distributor’s key, served via web), which is susceptible to coercion and compromise. All the webservers and platforms can be coerced/compromised to serve different files (installers) to different clients.
Am I missing something? Is there another way to serve software that I am missing?
There is one, so far. The provider being compromised. The rest is your speculation such as
Which is like saying, there are vulnerabilities. Yes, there will be vulnerabilities, but this applies to any software too. And if HTTPs is broken to allow MiTM then this is a risk for any software you download via web, starting from the linux ISO, so it’s far from a webmail-specific problem.
You list:
Nothing, absolutely nothing, tells you that it’s enough to compromise one Proton employee to gain access to production and replace the code. Also, you have absolutely no idea of the security practice of the couple of people who handle those keys, they are not accountable in any way, they don’t need to be compliant with any standard (for what is worth), etc. I would say it’s much more likely for any of the mirrors/repositories to get compromised compared to Proton.
In fact, you say:
I do this for a living. One way to do this is to close off production environments, assign temporary permissions that require multiple people to sign-in at the same time and spectate when production is accessed. Teleport allows to do this, for example, nothing I am conjuring out of thin air. Similarly, the CI can implement a million check to verify the provenance of the software and require multiple sign-off before things are actually deployed. Breakglass procedure exist (usually for a handful of individuals), but they generate alert and are audited post-factum, so that such attack would be detected.
True, but for me being attacked this changes very little. Attackers can just establish a C2, check if the target is right and do not do anything else on other devices. I grant you, this is a difference, but the control here is the fact that more people will possibly spot the issue and I will get to know it before getting compromised. It’s possible, but it’s a very weak control.
True, bigger attack surface, but each individual mirror can be compromised via the same vector (and of course the source can). Also Proton does not have a machine that serves everyone. Might have multiple regions, multiple clusters, separate by accounts, departments etc. In addition, you are talking about a highly targeted attack. Relying on the obscurity of which mirror someone uses is really not something I would consider applicable here.
The biggest difference is the automation with which JS code is “updated”. This is what makes the attack potentially slower via regular supply chain. Nothing I would consider massive for sophisticated attackers like the ones able to exploit this vector. So the massive difference in your opinion is that:
On the other hand:
If for you these are massive differences, OK. For me they are not.
Finally:
How it is relevant what both users are using the bridge? The bridge is literally doing the same that -say-
mutt
does. This has nothing with the bridge, what you are saying (I think) is that you wouldn’t send an email to someone if you don’t trust the software they use, but this is independent from you using the bridge. You can add other people (non-Proton users) keys to be used, so Bridge -> Mutt is exactly the same as Bridge -> Bridge or Mutt -> Mutt.In this case there is no tool that you can use that will “protect” you, if you don’t trust the other side.
Which is not a security consideration.
The security model of the bridge is the same as the security model of
mutt
, or other CLI tools or anything you might use for PGP. It seems you have absolutely no security consideration why this would be worse.So, in short: