There are going to be a lot more like this as the IT-enabled economy at large catch up to the risk debt of broad-based experimentation with AI tools from large and small vendors.
It's "AI-enabled tradecraft" as in let's take a guess at Vercel leadership's pressure to install and test AI across the company, regardless of vendor risk? Speed speed speed.
This is an extremely vanilla exploit that every company operating without a strictly enforceable AI install allowlist is exposed to - how many AI tools like Context are installed across your scope of local and SaaS AI? Odds are, quite a bit, or ask your IT guy/gal for estimates.
These tools have access to... everything! And with a security vendor and RBAC mechanism space that'll exist in about... 18-24 months.
Vercel is the canary. It's going to get interesting here, no way in heck that Context is the only target. This is a well established, well-concerned/well-ignored threat vector, when one breaks open the other start too.
Implies a very challenging 6 months ahead if these exploits are kicking off, as everyone is auditing their AI installs now (or should be), and TAs will fire off with the access they have before it is cut.
Sensitive does not mean it is not readable. It is just simply not exposed through the UI. It can be easily leaked if you return a bit too much props from the action functions or routes.
The only way to defend against these types of issues is to encrypt your environment with your own keys, with secrets possibly baked into source as there are no other facilities to separate them. An attacker would need to not only read the environments but also download the compiled functions and find the decryption keys.
It is not ideal but it could work as a workaround.
please don't suggest this. The right way is to have the creds fetched from a vault, which is programmed to release the creds auth-free to your VM (with machine level identify managed by the parent platform)
> The right way is to have the creds fetched from a vault, which is programmed to release the creds auth-free to your VM
Or have whatever deployment tool that currently populates the env vars instead use the same information to populate files on the filesystem (like mounting creds).
Next.js renders configuration that’s shared by client and server into a JSON blob in the HTML page. These config variables often come from environment variables. It’s a very common mistake for people to not realize this, and accidentally put what should be a server-only secret into this config. I’ve seen API secrets in HTML source code because of this. The client app doesn’t even use it, but it’s part of the next config so it renders into the page.
IIRC, react had this issue so they required env vars seen in react to be prefixed by REACT_ The hope being that SECRET is not prefixed and so is not available. Of course it requires you to know why they are prefixed and not make REACT_SECRET
They don’t serialize process.env, but devs will take config values from environment variables. Obviously you’re not supposed to do this but it’s a footgun.
This is just another layer of indirection (which isn't bad; it adds to the difficulty of executing a breach). The fundamental problem with encrypted secrets is that at some point you need to access and decrypt them.
I think the problem is the way we are using these "secrets" services traditionally. The requesting process/machine should NEVER see the Oauth client secret. The short-lived session token should be the only piece of data the server/client are ever privy too.
The service that encrypts the data should be the ONLY service that holds the private key to decrypt, and therefore the only service that can process the decrypted data.
The service wouldn't have access to the refresh token? How does authentication with the client-secret-holding intermediary work?
It's easy to see how this would work with sufficiently sophisticated clients in some use-cases, say via a vault plugin, but posing this as a universal necessity feels like a big departure from typical oauth flows, and the added complexity could be harmful depending on what home-grown solutions are used to implement it.
> AI-accelerated tradecraft. The CEO publicly attributed the attacker's unusual velocity to AI augmentation — an early, high-profile data point in the 2026 discourse around AI-accelerated adversary tradecraft.
Attributed without evidence from what I could tell. So it doesn't reveal much at all.
I still don't get how this exactly worked. Is the OAuth Token they talk about the one that you get when a user uses "Sign in with Google"? Aren't they then bound to the client id and client secret of that specific Google App the user signed in to? How were the attackers able to go from that to a control plane? Because even if the attacker knows the users OAuth token, the client id and the client secret, they can access the Google Drive etc. (which is bad, I get that) but I simply do not understand how they could log in into any Vercel systems from that point. Did they find the credentials in the google drive?
I’m not clear on it either. Was the Context.ai OAuth application compromised? So the threat actor essentially had the same visibility into every Context.ai customer’s workspace that Context.ai has? And why is a single employee being blamed? Did this Vercel employee authorize Context.ai to read the whole Vercel workspace?
They don't really say. My guess would be something embarrassing, and that's why they are keeping it to themselves. Maybe passwords in Drive og Gmail. Or just passwordless login links (like sibling said)
Once you have a session token, which is what you get after you complete the oauth dance, you can issue requests to the API. It is simple as that. The minted token had permission to access the victim's inbox, most likely, which the attacker leveraged to read email and obtain one-time passwords, magic links and other forms of juicy information.
If they had SSO sign in to their admin panel (trusted device checks notwithstanding) the oauth access would be useless.
Vercel is understandably trying to shift all the blame on the third party but the fact their admin panel can be accessed with gmail/drive/whatever oauth scopes is irresponsible.
I guess what's unusual is that the scope includes inbox access.
IMO it's probably a bad idea to have an LLM/agent managing your email inbox. Even if it's readonly and the LLM behaves perfectly, supply chain attacks have an especially large blast radius (even more so if it's your work email).
"Effective defense requires architectural change: treating OAuth apps as third‑party vendors, eliminating long‑lived platform secrets, and designing for the assumption of provider‑side compromise."
Designing for provider-side compromise is very hard because that's the whole point of trust...
As someone trying to think about OAuth apps at our SaaS, it certainly is very hard.
Do any marketplaces have a good approach here? I know Cloudflare, after their similar Salesloft issue, has proposed proxying all 3rd party OAuth and API traffic through them. But that feels a little bit like trading one threat vector for another.
Other than standard good practices like narrow scopes, shorter expirations, maybe OAuth Client secret rotation, etc, I'm not sure what else can be done. Maybe allowlisting IP addresses that the requests associated with a given client can come from?
This was probably partly a Google refresh token theft (given the length of the access). No inside info, just looking at how the attack occurred.
OAuth 2.1[0] (an RFC that has been around longer than I've been at my employer) recommends some protections around refresh tokens, either making them sender constrained (tied to the client application by public/private key cryptography) or one-time use with revocation if it is used multiple times.
This is recommended for public clients, but I think makes sense for all clients.
The first option is more difficult to implement, but is similar to the IP address solution you suggest. More robust though.
The second option would have made this attack more difficult because the refresh token held by the legit client, context.ai, would have stopped working, presumably triggering someone to look into why and wonder if the tokens had been stolen.
Corroborates that zero-trust until now has been largely marketing gibberish. Security by design means incorporating concepts such as these to not assume that your upstream providers will not be utterly owned in a supply chain attack.
Ironically, if the timeline is true that the attackers had been inside for months, the AIs they had access to are substantially weaker than today's frontier models. How much faster would they have achieved their goals with GLM 5.1?
I think there’s a lot of truth to “the AI did it” though. We’re encouraging the same people who get tricked by “attached is your invoice” emails to run agent harnesses that have control of your desktop. I think there’s gonna be a lot of AI-powered exploits in the future.
What bites people: rotating a vercel env variable doesn't invalidate old deployments, because previous deploys keep running with the old credential until you redeploy or delete them. So if you rotated your keys after the bulletin but didn't redeploy everything, then the compromised value is still live.
Also worth checking your Google Workspace OAuth authorizations. Admin Console > Security > API Controls > Third-party app access. Guarantee there are apps in there you authorized for a demo two years ago that are still sitting with full email/drive access.
Usually rotating a credential means that you invalidate the previous one. Never heard of rotating credentials that would only create new ones and keep the old ones active.
rotations are usually two phased. Add new secret/credential to endpoint, and both new and old are active and valid. Release new secret/credential to clients of that endpoint, and wait until you dont see any requests using the old credential.
Then you remove the old credential from the endpoint.
Ideally, you can have a couple of working versions at any given time. For instance, an AWS IAM role can have 0 to 2 access keys configured at once. To rotate them, you deactivate all but one key, create a new key, and make that new key the new production value. Once everything's using that key, you can deactivate the old one.
Funny how the headline tries to spin this as an env vars issue.
By far the biggest issue is being able to access the production environment of millions of customers from a Google Workspace. Only a handful of Vercel employees should be able to do that with 2FA if not 3FA.
Vercel runtime must be able to access the values (so customer's apps can use them). But nobody else should ever be able to. This is the typical amateur hour security but on the other hand, who was naive enough to expect any better from vercel?
What are these non-sensitive variables that could only be the NEXT_PUBLIC ones? else I haven’t seen any difference?
Or is it the UI sensitive that they ask you in CLI, that would be crazy. That means if you decide to not mark them as sensitive they don’t store encrypted ???
Interesting - I wonder if this isn't a case of theft on a refresh token that was minted by a non-confidential 3LO flow w/PKCE. That would explain how a leaked refresh token could then be used to obtain access, but does the Vercel A/S not implement any refresh token reuse detection? i.e.: you see the same R/T more than once, you nuke the entire session b/c it's assumed the R/T was compromised.
To me the biggest (but not only) issue is that blindly connecting sensitive tools to 3rd party services has been normalized. Every time I hear the word "claw" I cringe...
I’m sure this has been said before but the new part of me is that the initial breach happened 22 months ago and has been sitting undetected that whole time. This really looks quite bad for vercel’s security posture.
*BUT* I downloaded the source code from Vercel’s site, built and deployed in a Docker container (I never download random npm packages to my local computer), deployed the Docker container to Lambda (choose your Docker deployment platform. They are a dime a dozen), had a tightly scoped IAM role attached to the Lambda and my secrets were in Secret Manager.
My deployment also had a placeholder for the secrets when it was deployed and they were never in my repo and purposefully had to be manually configured.
I would never trust something like Vercel for hosting. I’m not saying go all in on a major cloud provider. Get your own cheap VPS if that’s all you need and take responsibility for your own security posture the best you can.
Security-by-obfuscation is ridiculed but I'm a firm believer that preventing yourself from getting owned when someone is able to type 3 letters `env` is a worthy layer of defense. Even if those same secrets are unencrypted somewhere else on the same system, at least make them spend a bunch of time crawling through files and such.
It's ridiculed because its no protection on its own when an attacker is motivated. Its fine to add as an additional layer though if you want to make your space mildly custom to protect against broader attacks.
I don't see how its necessarily relevant to this attack though. These guys were storing creds in clear and assuming actors within their network were "safe", weren't they?
TFA cites "env var enumeration", likely implying someone got somewhere they shouldn't and typed 3 characters, as the critical attack that led to customers getting compromised.
My point is sensitive secrets should literally never be exported into the process environment, they should be pulled directly into application memory from a file or secrets manager.
It would still be a bad compromise either way, but you have a fighting chance of limiting the blast radius if you aren't serving secrets to attackers on an env platter, which could be the first three characters they type once establishing access.
The following is based on my interpretation of information that's been made public:
A Vercel user had their Google Workspace compromised.
The attacker used the compromised workspace to connect to Vercel, via Vercel's Google sign-on option.
The attacker, properly logged into the Vercel console as an employee of that company, looked at the company's projects' settings and peeked at the environment variables section, which lists a series of key:value pairs.
The user's company had not marked the relevant environment variables as "sensitive", which would have hidden their values from the logged-in attacker. Instead of
DATABASE_PASSWORD: abcd_1234 [click here to update]
it would have shown:
DATABASE_PASSWORD: ****** [click here to update]
with no way to reveal the previously stored value.
And that's how the attacker enumerated the env vars. They didn't have to compromise a running instance or anything. They used their improperly acquired but valid credentials to log in as a user and look at settings that user had access to.
I don't think that's what the attacker did here. Vercel is a PaaS product where other developers run apps. The enumerated environment variables were the env vars of Vercel's customers, which Vercel likely stores in a long-term data store. Rather than running `env` on a Linux box somewhere, the attacker may have just accessed that data store.
Some of the details in this report, like the timeline beginning in 2024-2025, haven't been widely reported?
Anyone know where these dates are being sourced from? eg,
> Late 2024 – Early 2025: Attacker pivots from Context.ai OAuth access to a Vercel employee's Google Workspace account -- CONFIRMED — Rauch statement
> Early - mid-2025: Internal Vercel systems accessed; customer environment variable enumeration begins -- CONFIRMED — Vercel bulletin
There are going to be a lot more like this as the IT-enabled economy at large catch up to the risk debt of broad-based experimentation with AI tools from large and small vendors.
It's "AI-enabled tradecraft" as in let's take a guess at Vercel leadership's pressure to install and test AI across the company, regardless of vendor risk? Speed speed speed.
This is an extremely vanilla exploit that every company operating without a strictly enforceable AI install allowlist is exposed to - how many AI tools like Context are installed across your scope of local and SaaS AI? Odds are, quite a bit, or ask your IT guy/gal for estimates.
These tools have access to... everything! And with a security vendor and RBAC mechanism space that'll exist in about... 18-24 months.
Vercel is the canary. It's going to get interesting here, no way in heck that Context is the only target. This is a well established, well-concerned/well-ignored threat vector, when one breaks open the other start too.
Implies a very challenging 6 months ahead if these exploits are kicking off, as everyone is auditing their AI installs now (or should be), and TAs will fire off with the access they have before it is cut.
Source - am a head of sec in tech
I'm not sure I've seen it mentioned yet that when Vercel rolled out their environment variable UI, there was no "sensitive" option https://github.com/vercel/vercel/discussions/4558#discussion.... There was ~2 years or more until it was introduced https://vercel.com/changelog/sensitive-environment-variables...
Sensitive does not mean it is not readable. It is just simply not exposed through the UI. It can be easily leaked if you return a bit too much props from the action functions or routes.
The only way to defend against these types of issues is to encrypt your environment with your own keys, with secrets possibly baked into source as there are no other facilities to separate them. An attacker would need to not only read the environments but also download the compiled functions and find the decryption keys.
It is not ideal but it could work as a workaround.
> with secrets possibly baked into source
please don't suggest this. The right way is to have the creds fetched from a vault, which is programmed to release the creds auth-free to your VM (with machine level identify managed by the parent platform)
This is how Google Secrets or AWS Vaults work.
> The right way is to have the creds fetched from a vault, which is programmed to release the creds auth-free to your VM
Or have whatever deployment tool that currently populates the env vars instead use the same information to populate files on the filesystem (like mounting creds).
Next.js renders configuration that’s shared by client and server into a JSON blob in the HTML page. These config variables often come from environment variables. It’s a very common mistake for people to not realize this, and accidentally put what should be a server-only secret into this config. I’ve seen API secrets in HTML source code because of this. The client app doesn’t even use it, but it’s part of the next config so it renders into the page.
IIRC, react had this issue so they required env vars seen in react to be prefixed by REACT_ The hope being that SECRET is not prefixed and so is not available. Of course it requires you to know why they are prefixed and not make REACT_SECRET
That's essentially what NEXT_PUBLIC_ is for... but serializing process.env is a new one for me.
They don’t serialize process.env, but devs will take config values from environment variables. Obviously you’re not supposed to do this but it’s a footgun.
I was reffering to Vercel. Other cloud environments have much better mechanisms for securing secrets.
This is just another layer of indirection (which isn't bad; it adds to the difficulty of executing a breach). The fundamental problem with encrypted secrets is that at some point you need to access and decrypt them.
HSMs & similar can at least time-limit access to secrets to the period where an attacker can make requests to the HSM.
I think the problem is the way we are using these "secrets" services traditionally. The requesting process/machine should NEVER see the Oauth client secret. The short-lived session token should be the only piece of data the server/client are ever privy too.
The service that encrypts the data should be the ONLY service that holds the private key to decrypt, and therefore the only service that can process the decrypted data.
The service wouldn't have access to the refresh token? How does authentication with the client-secret-holding intermediary work?
It's easy to see how this would work with sufficiently sophisticated clients in some use-cases, say via a vault plugin, but posing this as a universal necessity feels like a big departure from typical oauth flows, and the added complexity could be harmful depending on what home-grown solutions are used to implement it.
The better way to defend against these types of issues is to avoid Vercel and similar providers
> AI-accelerated tradecraft. The CEO publicly attributed the attacker's unusual velocity to AI augmentation — an early, high-profile data point in the 2026 discourse around AI-accelerated adversary tradecraft.
Attributed without evidence from what I could tell. So it doesn't reveal much at all.
Seems like AI is really disrupting the markets for nonsensical excuses the media will repeat uncritically!
It's like we're back in 2009 with "did social media cause this?"
I still don't get how this exactly worked. Is the OAuth Token they talk about the one that you get when a user uses "Sign in with Google"? Aren't they then bound to the client id and client secret of that specific Google App the user signed in to? How were the attackers able to go from that to a control plane? Because even if the attacker knows the users OAuth token, the client id and the client secret, they can access the Google Drive etc. (which is bad, I get that) but I simply do not understand how they could log in into any Vercel systems from that point. Did they find the credentials in the google drive?
I’m not clear on it either. Was the Context.ai OAuth application compromised? So the threat actor essentially had the same visibility into every Context.ai customer’s workspace that Context.ai has? And why is a single employee being blamed? Did this Vercel employee authorize Context.ai to read the whole Vercel workspace?
They don't really say. My guess would be something embarrassing, and that's why they are keeping it to themselves. Maybe passwords in Drive og Gmail. Or just passwordless login links (like sibling said)
Once you have a session token, which is what you get after you complete the oauth dance, you can issue requests to the API. It is simple as that. The minted token had permission to access the victim's inbox, most likely, which the attacker leveraged to read email and obtain one-time passwords, magic links and other forms of juicy information.
If they had SSO sign in to their admin panel (trusted device checks notwithstanding) the oauth access would be useless.
Vercel is understandably trying to shift all the blame on the third party but the fact their admin panel can be accessed with gmail/drive/whatever oauth scopes is irresponsible.
I guess what's unusual is that the scope includes inbox access.
IMO it's probably a bad idea to have an LLM/agent managing your email inbox. Even if it's readonly and the LLM behaves perfectly, supply chain attacks have an especially large blast radius (even more so if it's your work email).
"Effective defense requires architectural change: treating OAuth apps as third‑party vendors, eliminating long‑lived platform secrets, and designing for the assumption of provider‑side compromise."
Designing for provider-side compromise is very hard because that's the whole point of trust...
As someone trying to think about OAuth apps at our SaaS, it certainly is very hard.
Do any marketplaces have a good approach here? I know Cloudflare, after their similar Salesloft issue, has proposed proxying all 3rd party OAuth and API traffic through them. But that feels a little bit like trading one threat vector for another.
Other than standard good practices like narrow scopes, shorter expirations, maybe OAuth Client secret rotation, etc, I'm not sure what else can be done. Maybe allowlisting IP addresses that the requests associated with a given client can come from?
This was probably partly a Google refresh token theft (given the length of the access). No inside info, just looking at how the attack occurred.
OAuth 2.1[0] (an RFC that has been around longer than I've been at my employer) recommends some protections around refresh tokens, either making them sender constrained (tied to the client application by public/private key cryptography) or one-time use with revocation if it is used multiple times.
This is recommended for public clients, but I think makes sense for all clients.
The first option is more difficult to implement, but is similar to the IP address solution you suggest. More robust though.
The second option would have made this attack more difficult because the refresh token held by the legit client, context.ai, would have stopped working, presumably triggering someone to look into why and wonder if the tokens had been stolen.
0: https://datatracker.ietf.org/doc/html/draft-ietf-oauth-v2-1
One time use of refresh tokens is really common? Where each refresh will get you a new access token AND a new refresh token?
That's standard in oidc I believe
I don't have data on whether it is common, but I know a few OAuth vendors support it.
I mean the admin account had visibility of clients env vars, thats maybe not really great in the first place.
you'd think. but this is a js dev world.
nextjs app bake all env vars on the client side code!! it's all public, unless you prefix the name with private_ or something.
This is incorrect.
You preface with PUBLIC_ to expose them in client side code.
Corroborates that zero-trust until now has been largely marketing gibberish. Security by design means incorporating concepts such as these to not assume that your upstream providers will not be utterly owned in a supply chain attack.
> OAuth trust relationship cascaded into a platform-wide exposure
> The CEO publicly attributed the attacker's unusual velocity to AI
> questions about detection-to-disclosure latency in platform breaches
Typical! The main failures in my mind are:
1. A user account with far too much privileges - possible many others like them
2. No or limited 2FA or any form of ZeroTrust architecture
3. Bad cyber security hygiene
Blaming AI is gonna be the security breach equivalent to blaming ddos when your website breaks isn't it.
It's the new sophisticated nation state.
That part of his tweet made me laugh out loud. I don't understand who it's directed toward.
The market. Rauch is 'strategic' like that, he'd even use a moment like this sneak in a sound bite to froth the market he has so much skin in
"Vercel CEO says AI accelerated attack on critical infrastructure"
sigh Right.
Ironically, if the timeline is true that the attackers had been inside for months, the AIs they had access to are substantially weaker than today's frontier models. How much faster would they have achieved their goals with GLM 5.1?
I think there’s a lot of truth to “the AI did it” though. We’re encouraging the same people who get tricked by “attached is your invoice” emails to run agent harnesses that have control of your desktop. I think there’s gonna be a lot of AI-powered exploits in the future.
What bites people: rotating a vercel env variable doesn't invalidate old deployments, because previous deploys keep running with the old credential until you redeploy or delete them. So if you rotated your keys after the bulletin but didn't redeploy everything, then the compromised value is still live.
Also worth checking your Google Workspace OAuth authorizations. Admin Console > Security > API Controls > Third-party app access. Guarantee there are apps in there you authorized for a demo two years ago that are still sitting with full email/drive access.
Usually rotating a credential means that you invalidate the previous one. Never heard of rotating credentials that would only create new ones and keep the old ones active.
But then every rotation would break production, wouldn't it ?
rotations are usually two phased. Add new secret/credential to endpoint, and both new and old are active and valid. Release new secret/credential to clients of that endpoint, and wait until you dont see any requests using the old credential.
Then you remove the old credential from the endpoint.
Ideally, you can have a couple of working versions at any given time. For instance, an AWS IAM role can have 0 to 2 access keys configured at once. To rotate them, you deactivate all but one key, create a new key, and make that new key the new production value. Once everything's using that key, you can deactivate the old one.
When you rotate them, you supposed expire your old vars
yeah not redeploying on credential changes seems like a design flaw. Render redeploys on env var changes, for instance.
Vercel very clearly highlights that you need to redeploy once you make a credential change
Funny how the headline tries to spin this as an env vars issue.
By far the biggest issue is being able to access the production environment of millions of customers from a Google Workspace. Only a handful of Vercel employees should be able to do that with 2FA if not 3FA.
No one should be, why are the enverionmant variables not encrypted itself and the encryption key is stored with your oauth provider ?
Vercel runtime must be able to access the values (so customer's apps can use them). But nobody else should ever be able to. This is the typical amateur hour security but on the other hand, who was naive enough to expect any better from vercel?
What are these non-sensitive variables that could only be the NEXT_PUBLIC ones? else I haven’t seen any difference?
Or is it the UI sensitive that they ask you in CLI, that would be crazy. That means if you decide to not mark them as sensitive they don’t store encrypted ???
those are environment variables that the frontend can consume, hence the public prefix
Why is this same story repeated over and over here?
I get it, it's a big story ... but that doesn't mean it needs N different articles describing the same thing (where N > 1).
New information here -- I had no idea that Env enumeration was happening MONTHS before the disclosure for example and that's part of why I come to HN.
Would guess that double digit percent of readers have some level of skin in the game with Vercel
Maybe this flood is a response to the constant flood of:
"Why do people use Vercel?"
"Because it's cheap* and easy."
*expensive
i didn't know it was OAuth related. when did that hit the front page here?
in fact, the sparse details had Barbara warming up her vocal chords
> The CEO publicly attributed the attacker's unusual velocity to AI
Unusual velocity? Didn't the attacker have the oauth keys for months?
But they got it via Context.ai, so there you have it, it's even in the name!
He's just lying tbh, this sounds cool and makes you sound less incompetent
This article is solely overly wordy (probably ai) restatements of essentially just what vercel has publicly disclosed already
sad of state of all shorts of media lately
Interesting - I wonder if this isn't a case of theft on a refresh token that was minted by a non-confidential 3LO flow w/PKCE. That would explain how a leaked refresh token could then be used to obtain access, but does the Vercel A/S not implement any refresh token reuse detection? i.e.: you see the same R/T more than once, you nuke the entire session b/c it's assumed the R/T was compromised.
To me the biggest (but not only) issue is that blindly connecting sensitive tools to 3rd party services has been normalized. Every time I hear the word "claw" I cringe...
I recently went to BreachForums and the space was filled with this
I’m sure this has been said before but the new part of me is that the initial breach happened 22 months ago and has been sitting undetected that whole time. This really looks quite bad for vercel’s security posture.
Do any services use vercel?
It's a really common platform for vibe coded sites, as I understand it.
I used v0 for a vibe coded internal admin app.
*BUT* I downloaded the source code from Vercel’s site, built and deployed in a Docker container (I never download random npm packages to my local computer), deployed the Docker container to Lambda (choose your Docker deployment platform. They are a dime a dozen), had a tightly scoped IAM role attached to the Lambda and my secrets were in Secret Manager.
My deployment also had a placeholder for the secrets when it was deployed and they were never in my repo and purposefully had to be manually configured.
I would never trust something like Vercel for hosting. I’m not saying go all in on a major cloud provider. Get your own cheap VPS if that’s all you need and take responsibility for your own security posture the best you can.
Small startups often use it but typically outgrow it quickly unless they remain small and simple.
First of all, it is often used in Korea.
Security-by-obfuscation is ridiculed but I'm a firm believer that preventing yourself from getting owned when someone is able to type 3 letters `env` is a worthy layer of defense. Even if those same secrets are unencrypted somewhere else on the same system, at least make them spend a bunch of time crawling through files and such.
It's ridiculed because its no protection on its own when an attacker is motivated. Its fine to add as an additional layer though if you want to make your space mildly custom to protect against broader attacks.
I don't see how its necessarily relevant to this attack though. These guys were storing creds in clear and assuming actors within their network were "safe", weren't they?
TFA cites "env var enumeration", likely implying someone got somewhere they shouldn't and typed 3 characters, as the critical attack that led to customers getting compromised.
My point is sensitive secrets should literally never be exported into the process environment, they should be pulled directly into application memory from a file or secrets manager.
It would still be a bad compromise either way, but you have a fighting chance of limiting the blast radius if you aren't serving secrets to attackers on an env platter, which could be the first three characters they type once establishing access.
The following is based on my interpretation of information that's been made public:
A Vercel user had their Google Workspace compromised.
The attacker used the compromised workspace to connect to Vercel, via Vercel's Google sign-on option.
The attacker, properly logged into the Vercel console as an employee of that company, looked at the company's projects' settings and peeked at the environment variables section, which lists a series of key:value pairs.
The user's company had not marked the relevant environment variables as "sensitive", which would have hidden their values from the logged-in attacker. Instead of
it would have shown: with no way to reveal the previously stored value.And that's how the attacker enumerated the env vars. They didn't have to compromise a running instance or anything. They used their improperly acquired but valid credentials to log in as a user and look at settings that user had access to.
Astonishing that high damage actions were authorized by authentication delegated to Google and furthermore not subject to hard token 2FA.
I don't think that's what the attacker did here. Vercel is a PaaS product where other developers run apps. The enumerated environment variables were the env vars of Vercel's customers, which Vercel likely stores in a long-term data store. Rather than running `env` on a Linux box somewhere, the attacker may have just accessed that data store.