Zooming way out (perhaps to the point of useless observation), it's a pity that the web embedded VSCode editor is signed into GitHub at all. Defense-in-depth or not, a huge vulnerability surface arises from that original sin. It'd be like if you had a god-permissioned GitHub API token stored in world-readable plaintext on your workstation for the malicious-NPM-package-of-the-week to find.
In a perfect world, it'd be awesome if the in-browser IDE launched with a temporary per-repo permission scope or token that allowed only pull and push to the repo in question; no github.com web session whatsoever. If you want the full GitHub web UI experience, well .... go back to github.com; make github.dev a single-repo service.
I'm assuming that's a) inconvenient for users, b) hard to implement, and c) a historical assumption baked into a lot of the github.dev tooling, though. Ah well.
> it'd be awesome if the in-browser IDE launched with a temporary per-repo permission scope
That's actually exactly what they do for codespaces. The token only has read/write on the repo you activated for the codespace [1]. They should definitely consider doing that for github.dev as well.
Or they could’ve kept their bounty program running smoothly. But instead they pissed off another security researcher and received a zero days heads-up before public disclosure.
I think the problem lies in the fundamental design of VS Code extensions in general. They are essentially Node.js apps with full access to built-in modules, including fs. If the corresponding VS Code instance is launched with your user privileges, extensions can technically read files in ~/.ssh.
It is not safe in the sense that for every extension you install, you are essentially installing a new Node.js app with all its bundled dependencies. Even if you trust the publisher, I am sure there are many holes to exploit.
My comment had more to do with the in-browser VS Code instance. Regardless of the extension security model, having the github.dev webapp run under your full github.com account's permissions significantly expands the attack surface: if you launch github.dev in one repo and install a malicious extension, that extension can reach and compromise all repos your GitHub user can reach, private or public. Scoping it to one repo would only allow a malicious extension to write code in that repo and not mess with the GitHub API or other repos.
Separately, I think the debate around extensions/plugins in general boils down to the same conversation about trust and isolation we have for every third-party software supplier (package managers etc.).
Options include:
1. Vetting/blessing certain extensions.
2. Serving built extensions from a central registry/artifact store with security protections
3. Having VSCode organically grow a shitty version of different operating systems' "X wants to access Y; confirm?" permissions access system (a pain in the ass to do in a cross-platform way).
4. Having VSCode somehow run extensions as separate applications according to the OS and leveraging the OS's permission system (still hard, and because it's an IDE, rather a lot of extensions will need--or request because of sloppy extension code--very broad permissions, at which point an extension is one transitive dependency update away from compromising your system).
5. Running the entire VSCode instance in some sort of container/VM/sandbox (the amount of access holes folks poke in the Snap/Flatpak VSCode instances, and the number of common issues for which "stop using the container and install VSCode directly on the system" is the recommended fix does not give me hope that this will be adopted by anyone but the most expert, patient, and paranoid users).
This is going to get worse and worse. I recently noticed AI harness (e.g. OpenCode) downloading random npm packages in the background and litter them everywhere in a few place in ~ and in your project dir, all without telling/asking you.
What's worse is that people don't seem to care even the devs.
True, but security breach inside a sandbox/container can cause serious damage too(stealing your code/data/keys, spreading via your code/release etc). And containers aren't for security anyway(e.g. Copy Fail breaching to host https://xint.io/blog/copy-fail-pod-to-host)
It's rare that both of those align and it is very unlikely that both are used at once. Most of the exploits (if not all) just install rce, rat and/or steal env.
I think it's ok to be signed-in when opening your own repositories, but definitely not when opening repositories from other accounts. And also the webview keyboard shortcut thing needs to be fixed to only allow harmless keybinds and NOT propagate to any keydown handler. Also on desktop it should be removed in favor of Electron intercepting directly. And on web it should probably disabled by the default.
This is a piece of cake using GitHub’s excellent permission system.
(I’m joking, of course. Service accounts are nowhere to be seen. OAuth can’t even scope to an organization, let alone a repository. And this whole github.dev thing illustrates that you don’t even need to explicitly grant permission to issue broadly scoped tokens.)
Also, forking is pretty heavyweight just to launch something that, for all anyone knows before starting actual work, is being used as a read only viewer.
Exe.dev has an integrations feature which is similar allowing you to grant access to specific repos without having give the VMs credentials. I think it’s a similar pattern to iron.sh.
I have been thinking more and more about how I might use this pattern.
You can use SSH keys and GitHub deploy keys to approximate this. Can't speak for the security of it, but I have never set up GitHub with access to every repo. Not sure if there exists approximate functionality in other git forges though.
If the malicious-npm-package-of-the-week is reading arbitrary files on your workstation, isn't it usually able to run git clone/push/whatever with your current credentials anyway?
Yes, but also no. For example in GitLab a user who’s infected could push code to a branch. Then it could even make a merge request to pull that branch into main (if main is protected).
But then someone else on the team should have to manually approve that MR to allow it to be merged to main.
This kind of defeats the ability of malware to push stuff out automatically.
Update as of 3rd June: Microsoft has fixed this with a stopgap fix by adding a confirmation when opening notebooks in web VSCode and not allowing trusted publisher to be skipped by commands (https://github.com/microsoft/vscode/pull/319705).
That's probably one of the fastest responses I've seen from a vendor.
I don’t know the specifics of this case, but I’ve managed bug bounty programs in the past through Bountysource and HackerOne. One thing that occasionally happens is that a report makes its way to the development team before the security team has fully assessed it, in this case MSRC.
At that point, a developer may decide to quietly fix the issue. Sometimes that’s driven by a concern, rational or not, that being associated with a security bug could reflect poorly on them or affect future promotion opportunities. The result is that by the time the security team attempts to reproduce the report, the vulnerability is already gone.
From MSRC’s perspective, all they see is that the provided reproduction steps no longer work. They have no visibility into the internal history of the bug or whether someone already patched it. As a result, the report gets closed as invalid even though the original finding may have been legitimate.
That makes sense but doesn't excuse the behavior. Just because there is poor communication within Microsoft doesn't make it okay to silently patch a vulnerability. Also, looking at the timeline on OP's post from 2023 it seems they patched it and closed the bug on the same day which is a little sus .
> They have no visibility into the internal history of the bug or whether someone already patched it.
Aww man, if only they owned some sort of platform for tracking those, powered by some sort of program. Doesn't even have to be a smart problem, it can be, succintly, shortly, stupid. If only.
Your post reads like "This doesn't happen, except when it happens and the person has no recourse and it does in fact happen." - why make the post at all? If your internal workings fuck over someone externally prepare for your department to take the blame even if its "not your fault" - you work at the company that just fucked them over.
Sure, given infinite time, they could diligently try to reproduce every bug across every version of any given product or open source library from a team at Microsoft.
However, if you have 1000s of reports a day, many of them vague with the person hoping it's close enough to a real issue to get paid, it makes sense to me personally that one needs prioritize active issues over tracking down when other issues were fixed.
I'm catching up on the infosec twitter side but it seems like it was even worse. A lot of people have the same story as me in 2023 of "they silently patch the bug and don't even credit you" which really stinks.
Thank you for essentially donating the time you spent on this exploit to raise awareness on improving VS Code's security response. You could have just given up on them but you're still trying to help.
I have no interest in selling these vulnerabilities or sitting on them. At the same time, it feels really bad to have a vendor disrespect the hours it can take to make a proof-of-concept by just patching it silently and not crediting you or acknowledging it.
github token got stolen and also cloudflare tokens
guys even if you take security seriously you are going to get hit on a long enough time frame
best thing to do is segregate and control damage
trust no one, nothing, use orbstack, and always operate under the assumption that your token is going to get leaked at some point
it knocked off my entire momentum. fortunately seemed like it was just a spam bot that took my tokens and created bunch of fake spam pages and trying to mine crypto
the biggest feeling is the one of feeling violated
> best thing to do is segregate and control damage
I first encountered that concept with a client that put every webapp in it's own virtual server and expected the vm to get compromised at some point. Seemed like a very sensible idea 15 years ago.
The attack surface that makes this particularly nasty is that VSCode extensions run with the same trust level as the editor itself, and most developers have dozens installed without reviewing their permissions. A malicious or compromised extension silently exfiltrating GitHub tokens is undetectable without network monitoring. This is a good argument for running extensions in isolated profiles.
This is an excellent and very interesting write-up.
It's so refreshing to read technical articles that are clearly written by a knowledgeable human and explained perfectly like this. By walking the reader through this with the example screenshots it unfolds and gets more interesting as you continue reading.
It's also strange to realize that these days, most articles are not like this.
I don’t really understand why more devs don’t try Neovim.
Maybe it’s just my preference, but I like having a small setup where I know what is installed and what is running. With VSCode, browser IDEs, extensions, sync, tokens, and random plugins, it gets hard to tell what actually has access to what.
I really like Helix. I didn't dig into Neovim much but Helix has pretty nice IDE-like features that I always missed from vim (without riddling it with plugins or using SpaceVim or such). Check it out, maybe you'll like it as well.
I stopped using VS Code and switched to Neovim some years ago, once I noticed that the former would automatically install random Python packages with typings for libraries without stock typings. The “feature” (part of Microsoft’s official Python extension, which was the only one that worked acceptably well for me in other regards) ended up installing type definitions for a different version of a library than the one my project would use, seemed wildly insecure as it casually ran third-party unvetted code, and was evidently not configurable.
I wish I could add “and I never looked back”, but honestly in the past year or two Neovim started regularly breaking my setup (approximately every upgrade). Had some inklings it might happen eventually… Strictly speaking, 10 years in, nvim is yet to have its first stable version released—which means technically one can’t blame it for instability, but which is useful to keep in mind.
Considering going back to plain vim. I’m sure I will lose many niceties, but hopefully it would not require me to troubleshoot broken functionality in the middle of work.
Emacs with vim bindings (evil mode) is also pretty great, and about as stable as it gets. I’ve been all-in for I think 6 or 7 years now. I just the other day installed a little package for tyographic quotes that hadn’t been updated in 16 years (!!), and it worked great.
Depending on what third party packages you use, you may sometimes get breakage there, but if you start out with a kit like doom emacs, you’ll be largely insulated from that.
There’s also always newer stuff like zed, which looks pretty great and is very snappy in my limited testing.
I noticed that is quite hard to make people change habits regarding software. There is shortcuts to learn and we might feel slow at first which reinforces the feeling of « it’s not better ». It takes a while to get used to nvim, once there it’s faster but that explain why many people stay in their confort zone
One of the most important things I've ever read as someone that wants to be able to break out of my comfort zone was from Uiua's website. Foreign != confusing
Very good write up but I lost it a little at the end. Could someone clarify for me?
The author said:
You cannot just use the shortcut trick to install the evil extension directly because of new publisher trust system;
You can bypass this by using local workspace extensions which has no publisher screening, but CSP blocks it;
The solution seems to be that installing a local workspace extension which binds a shortcut of 'install extension without checking publisher'.
So I assume it means:
1. you need two extensions, 1st one is local and only for the keybinding, and 2nd one is the 'real' evil one and it doesn't need to (actually can't, because of CSP) be local anymore?
2. the CSP only prevents the JS in local extension but nothing about its package.json (or the ability to add shortcuts), right?
We can try to just put a `my-extension/extension.js` for the most direct execution but the CSP blocks that. It's only a script-src CSP blocking it though, so fetching the package.json is still kosher. So we end up using it to contribute a keybinding instead.
Kudos for the public disclosure. Too many people haven't been happy with MSRC and it's starting to boil over (see the Nightmare Eclipse situation, too). Maybe all of these disclosures will cause them to do some introspection and realize they're the problem. I highly doubt that, but one can dream.
I am not sure if this is still the best approach. They did not even try to submit based on expected "low" ranking when comparing to existing XSS submission. They should at least try or let them know many days before disclosing. You never know.
It's not just based on that, if you read the linked report from 2023 (https://blog.ammaraskar.com/vscode-rce/), I had a bug with the exact same impact of token exfiltration (It did need one additional click on the VSCode interface). They marked it as low severity, fixed it silently, didn't acknowledge that it had security impact and did not provide me any credit much less a bounty.
Its not just one issue they mishandled. It is a pattern. I think this makes sense if you believe long-term security requires leadership change at MSRC.
The more I think about it, I feel sad about this state of things. More than likely chances are that there are people in Github who already knew about this behavior, unfortunately raising issues can be seen as introducing more friction to product/feature and it certainly does not puts anyone in good light so they either kept quiet or the more vocal voices drowned them.
I understand that there's frustration with MSRC, but surely the right move is to keep doing things right to the best of your abilities.
Like, disclose it, wait a week, publish it. That seems, to me, like it would avoid almost all the bad press this is getting, and shows that the researcher DOES care about actual security and not just recognition from MSFT.
It's up to the researcher to make the call. Maybe they feel that it's best to disclose to bring attention to the MSRC problem - arguably, that'll be massively better for security longer term vs a point in time vuln disclosure.
> The only way to allow this behavior is to have the two web pages in the different origins cooperate with each other using the Window.postMessage() API
Small nitpick, but it's also possible to communicate by changing the location.anchor property (by either the iframe or its parent window.)
I looked into Zed because popular harness (OpenCode/KiloCode) just random downloads npm packages in the background and didn't tell you. But then I found out reports of Zed doing the same. Why we can't have nice things?
I heard that Zed came with a lot of integrated AI and team sharing features that phone home, so that's an issue for anyone working with stuff like NIS2 compliance. Not that VSCode isn't a compliance nightmare as well.
Zed is nice, but the project wide search (sidebar based) in VS Code and diff viewer in VS Code are still better IMO and unfortunately since I no longer code, those are my most used features of an editor. Still using it instead of VS Code but I sure wish it improved those views.