For those using uv, you can at least partially protect yourself against such attacks by adding this to your pyproject.toml:
[tool.uv]
exclude-newer = "7 days"
or this to your ~/.config/uv/uv.toml:
exclude-newer = "7 days"
This will prevent uv picking up any package version released within the last 7 days, hopefully allowing enough time for the community to detect any malware and yank the package version before you install it.
Pip maintainer here, to do this in pip (26.0+) now you have to manually calculate the date, e.g. --uploaded-prior-to="$(date -u -d '3 days ago' '+%Y-%m-%dT%H:%M:%SZ')"
In pip 26.1 (release scheduled for April 2026), it will support the day ISO-8601 duration format, which uv also supports, so you will be able to do --uploaded-prior-to=P3D, or via env vars or config files, as all pip options can be set in either.
I am a slow adopter of uv. I'll be honest, its speed has never been a big deal to me and, in general, it is YAPT (yet another package tool), but this one feature may make me reconsider. Pinning versions is less than perfect but I would really like to be able to stay XXX days behind exactly for this reason.
I think the python community, and really all package managers, need to promote standard cache servers as first class citizens as a broader solution to supply chain issues. What I want is a server that presents pypi with safeguards I choose. For instance, add packages to the local index that are no less than xxx days old (this uv feature), but also freeze that unless an update is requested or required by a security concern, scan security blacklists to remove/block packages and versions that have been found to have issues. Update the cache to allow a specific version bump. That kind of thing. Basically, I have several projects and I just want to do a pip install but against my own curated pypi. I know this is the intent of virtual envs/lock files, etc, but coordinating across projects and having my own server to grab from when builds happen (guaranteeing builds won't fail) is import. At a minimum it would be good to have a 'curated.json' or something similar that I could point pip/other package managers to to enforce package policies across projects. These supply chain attacks show that all it takes is a single update and your are in big trouble so we, unfortunately, need more layers of defense.
> I think the python community, and really all package managers, need to promote standard cache servers as first class citizens as a broader solution to supply chain issues. What I want is a server that presents pypi with safeguards I choose. For instance, add packages to the local index that are no less than xxx days old (this uv feature), but also freeze that unless an update is requested or required by a security concern, scan security blacklists to remove/block packages and versions that have been found to have issues. Update the cache to allow a specific version bump. That kind of thing.
If "my own curated pypi" extends as far as a whitelist of build artifacts, you can just make a local "wheelhouse" directory of those, and pass `--no-index` and `--find-links /path/to/wheelhouse` in your `pip install` commands (I'm sure uv has something analogous).
Please open an issue on the uv tracker! This is a design space we’re actively thinking about, and it’s valuable to hear user perspectives on what they would and wouldn’t want a sandbox to do.
Or Forth with scientific library, bound to the constraints. Put some HTTP library on top and some easy HTML interface from a browser with no JS/CSS3 support at all. It will look rusty but unexploitable.
Enterprise computing with custom software will make a comeback to avoid these pitfalls. I depise OpenJDK/Mono because of patents but at least they come with complete defaults and a 'normal' install it's more than enough to ship a workable application for almost every OS. Ah, well, smartphones. Serious work is never done with these tools, even with high end tables. Maybe commercials/salespeople and that's it.
It's either that... or promoting reproducible environment with Guix everywhere. Your own Guix container, isolated, importing Pip/CPAN/CTAN/NPM/OPAM and who knows else into a manifest file and ready to ship anywhere, either as a Guix package, a Docker container (Guix can do that), a single DEB/RPM, an AppImage ready to launch on any modern GNU/Linux with a desktop and a lot more.
Nice feature. However uv is suspect at the moment, in the sense that it is designed as a pip replacement to overcome issues that only exist when supply chains are of a size that isn't safe to have.
So any project that has UV and any developer that tries to get uv into a project is on average less safe than a project that just uses pip and a requirements.txt
It is a bit of a leap. They are saying that if you are using uv, then you likely have a broad set of dependencies because you require a dependency management tool, therefore you are more susceptible to a supply chain attack by virtue of having a wider attack surface.
Ahhhhhh thanks a ton. Now I get it. Meaning I get what you are saying. Not what they were implying. But yeah. I can understand at least how one could arrive at that idea.
To me personally this idea still sounds a bit off - but as a heuristic it might have some merit in certain circumstances.
I really am not able to follow this line of reasoning, I am not sure if what you said makes sense and how it relates to uv having a security feature to be on average less safe :/
I believe they are saying that by the time you need something like uv, your project already has too many dependencies. Its the unnecessarily large supply chain that's the problem, and uv exists to solve a problem that you should try to avoid in the first place.
I think uv is great, but I somewhat agree. We see this issue with node/npm. We need smaller supply chains/less dependencies overall, not just bandaiding over the poor decisions with better dependency management tooling.
This line of thought is honestly a bit silly - uv is just a package manager that actually does its job for resolving dependencies. You’re talking about a completely orthogonal problem.
> uv is just a package manager that actually does its job for resolving dependencies.
Pip resolves dependencies just fine. It just also lets you try to build the environment incrementally (which is actually useful, especially for people who aren't "developers" on a "project"), and is slow (for a lot of reasons).
I agree with it that dependency management should be made easier. To be honest, I really like how golang's dependency and how golang's community works around dependencies and how golang has a really great stdlib to work with and how the community really likes to rely on very little depenendencies for the most part as well.
Maybe second to that, Zig is interesting as although I see people using libraries, its on a much lower level compared to rust/node/python.
Sadly, rust suffers from the same dependency issue like node/python.
> If the version shown is 4.87.1 or 4.87.2, treat the environment as compromised.
More generally speaking one would have to treat the computer/container/VM as compromised. User-level malware still sucks. We've seen just the other day that Python code can run at startup time with .pth files (and probably many other ways). With a source distribution, it can run at install time, too (see e.g. https://zahlman.github.io/posts/python-packaging-3/).
> What to Do If Affected
> Downgrade immediately:
> pip install telnyx==4.87.0
Even if only the "environment" were compromised, that includes pip in the standard workflow. You can use an external copy of pip instead, via the `--python` option (and also avoid duplicating pip in each venv, wasting 10-15MB each time, by passing `--without-pip` at creation). I touch on both of these in https://zahlman.github.io/posts/python-packaging-2/ (specifically, showing how to do it with Pipx's vendored copy of pip). Note that `--python` is a hack that re-launches pip using the target environment; pip won't try to import things from that environment, but you'd still be exposed to .pth file risks.
> The payload isn't delivered as a raw binary or a Python file. It's disguised as a .wav audio file.
> The WAV file is a valid audio file. It passes MIME-type checks. But the audio frame data contains a base64-encoded payload. Decode the frames, take the first 8 bytes as the XOR key, XOR the rest, and you have your executable or Python script.
I've seen it at least once in code from a big car manufacturer who encrypted their software or parts of it to avoid you reading the xml files. They use a key, split into two or more parts, hidden as the first bytes of some file or as plain text somewhere it would not be out of order, then recombine, run through an deobfuscation function to be an old fashioned DES or XOR key to decrypt the (usually XML, could have been a different key format it's been a while) files. It's not that uncommon. It's also security theater. Funny part is they didn't obfuscate the code to read the key.
I'm glad there's many teams with automated scans of pypi and npm running. It elevates the challenge of making a backdoor that can survive for any length of time.
So both this and litellm went straight to PyPI without going to GitHub first.
Is there any way to setup PyPI to only publish packages that come from a certain pattern of tag that exists in GH? Would such a measure help at all here?
Yes: if you use a Trusted Publisher with PyPI, you can constrain it to an environment. Then, on GitHub, you can configure that environment with a tag or branch protection rule that only allows the environment to be activated if the ref matches. You can also configure required approvers on the environment, to prevent anyone except your account (and potentially other maintainers you’d like) from activating the environment.
Don't have the token on your hands. Use OICD ideally, or make sure to setup carefully as a repository secret. Ensure the workflow runs in a well permission read, minimal dependency environment.
The issue with OICD is that it does not work with nested workflows because github does not propagate the claims.
The way I use Telynx is via SIP which is an open protocol. No reason we should be relying on proprietary APIs for this stuff.
On GitHub see my fork runvnc/PySIP. Please let me know if you know if something better for python that is not copy left or rely on some copy left or big external dependency. I was using baresip but it was a pain to integrate and configure with python.
Anyway, after fixing a lot in the original PySIP my version works with Telynx. Not tested on other SIP providers.
Is there anyone who uses it? I see their repo's Initial Commit was on Jan 2026... quite a new package! Also, the number of GitHub stars and forks is quite low.
Does the package have a user base, or did the malicious team target one of the many useless GitHub repos?
Hah, need to setup a Grandstream HT801 this weekend and this cements my decision to use voip.ms vs telnyx. Not that the device would use that library (have no idea), but just, yeah generally, it's a good cue to stay away for me.
Has anyone here used Telnyx? I tried to build a product against their API last year and 3 weeks after signing up they banned my account and made it impossible to get an answer as to why or re-enable it.
I did, they asked me to open a support ticket, which I did, and the last response I got was:
> We've reviewed the details you provided and updated your case with the necessary information. It is now being routed to the appropriate team for further support.
Anthropic/OpenAI could own this space. They should offer a paid service that offers a mirror with LLM scanned and sandbox-evaluated package with their next gen models. Free for individuals, orgs can subscribe to it.
OpenAI just acquired Astral who have an index service called pyx, so they would have a step up.
My understanding though is most corporations that take security seriously either build everything themselves in a sandbox, or use something like JFrog's Artifactory with various security checks, and don't let users directly connect to public indexes. So I'm not sure what the market is.
Judging by curl shutting down its bug bounty program due to AI slop, a likely outcome would be that this mirror has no packages because they are all blocked by false positives.
A number of years ago I wanted to drop a webhook when a call came in on VoIP.ms but couldn't find any way to do it natively.
Ended up sticking a twilio endpoint in the ring group with a "press 1 to accept this call" message so it wouldn't eat the call, then was able to fire an http request with the call details.
It worked well, although I admit I was a little annoyed I couldn't do it directly with VoIP.ms.
2FA needs to be required for publishing packages. An attacker compromising someone's CI should not give them free reign to publish malicious packages at any time they want.
In a lot of cases, it's not really clear whose second factor would authorize publishing a package that was uploaded from a CI/CD system. Is it any project owner? Anyone from the same GitHub organization? etc.
> An attacker compromising someone's CI should not give them free reign to publish malicious packages at any time they want.
Agreed, that's why a lot of packaging ecosystems (including PyPI) have moved towards schemes that involve self-scoping, self-expiring tokens. The CI can still publish, but the attacker can no longer exfiltrate the publishing credential and use it indefinitely later.
(These schemes are not mandatory, because they can't be.)
The 2FA of whatever account is publishing the package. I'm pretty sure Pypi already has this figured out except they seem to allow you to make an API key which just bypasses checking a 2nd factor.
Which account is publishing the package, in a CI/CD context? It's not clear that any particular account is, since the set of people who can trigger a workflow in CI/CD aren't necessarily (and in fact aren't often) the same set of people who can create an API token on PyPI.
The Guix PM in this context can create an isolated environment and import PyPI packages for you adapted into Guix Scheme manifest files. Not just Python, Perl, Ruby, Node... if you have to use dangerous our propietary environments for the enterprise, (not for personal computing), at least isolate them so the malware doesn't spread over.
At this point, I'm not updating anything using Python.
Not that I had the option anyway, because everything using Python breaks if you update it. You know they've given up on backward comparability and version control, when the solution is: run everything in a VM, with its own installation. Apparently it's also needed for security, but the VMs aren't really set up to be secure.
I don't get why everything math heavy uses it. I blame MATLAB for being so awful that it made Python look good.
It's not even the language itself, not that it doesn't have its own issues, or the inefficient way it's executed, but the ecosystem around it is so made out of technical debt.
In pip 26.1 (release scheduled for April 2026), it will support the day ISO-8601 duration format, which uv also supports, so you will be able to do --uploaded-prior-to=P3D, or via env vars or config files, as all pip options can be set in either.
I think the python community, and really all package managers, need to promote standard cache servers as first class citizens as a broader solution to supply chain issues. What I want is a server that presents pypi with safeguards I choose. For instance, add packages to the local index that are no less than xxx days old (this uv feature), but also freeze that unless an update is requested or required by a security concern, scan security blacklists to remove/block packages and versions that have been found to have issues. Update the cache to allow a specific version bump. That kind of thing. Basically, I have several projects and I just want to do a pip install but against my own curated pypi. I know this is the intent of virtual envs/lock files, etc, but coordinating across projects and having my own server to grab from when builds happen (guaranteeing builds won't fail) is import. At a minimum it would be good to have a 'curated.json' or something similar that I could point pip/other package managers to to enforce package policies across projects. These supply chain attacks show that all it takes is a single update and your are in big trouble so we, unfortunately, need more layers of defense.
FWIW, https://pypi.org/project/bandersnatch/ is the standard tool for setting up a PyPI mirror, and https://github.com/pypi/warehouse is the codebase for PyPI itself (including the actual website, account management etc.).
If "my own curated pypi" extends as far as a whitelist of build artifacts, you can just make a local "wheelhouse" directory of those, and pass `--no-index` and `--find-links /path/to/wheelhouse` in your `pip install` commands (I'm sure uv has something analogous).
End result will be everyone runs COBOL only.
Enterprise computing with custom software will make a comeback to avoid these pitfalls. I depise OpenJDK/Mono because of patents but at least they come with complete defaults and a 'normal' install it's more than enough to ship a workable application for almost every OS. Ah, well, smartphones. Serious work is never done with these tools, even with high end tables. Maybe commercials/salespeople and that's it.
It's either that... or promoting reproducible environment with Guix everywhere. Your own Guix container, isolated, importing Pip/CPAN/CTAN/NPM/OPAM and who knows else into a manifest file and ready to ship anywhere, either as a Guix package, a Docker container (Guix can do that), a single DEB/RPM, an AppImage ready to launch on any modern GNU/Linux with a desktop and a lot more.
So any project that has UV and any developer that tries to get uv into a project is on average less safe than a project that just uses pip and a requirements.txt
Care to explain? Would love to learn.
To me personally this idea still sounds a bit off - but as a heuristic it might have some merit in certain circumstances.
I think uv is great, but I somewhat agree. We see this issue with node/npm. We need smaller supply chains/less dependencies overall, not just bandaiding over the poor decisions with better dependency management tooling.
Pip resolves dependencies just fine. It just also lets you try to build the environment incrementally (which is actually useful, especially for people who aren't "developers" on a "project"), and is slow (for a lot of reasons).
I agree with it that dependency management should be made easier. To be honest, I really like how golang's dependency and how golang's community works around dependencies and how golang has a really great stdlib to work with and how the community really likes to rely on very little depenendencies for the most part as well.
Maybe second to that, Zig is interesting as although I see people using libraries, its on a much lower level compared to rust/node/python.
Sadly, rust suffers from the same dependency issue like node/python.
Wanting a better pip means I am unsafe?
More generally speaking one would have to treat the computer/container/VM as compromised. User-level malware still sucks. We've seen just the other day that Python code can run at startup time with .pth files (and probably many other ways). With a source distribution, it can run at install time, too (see e.g. https://zahlman.github.io/posts/python-packaging-3/).
> What to Do If Affected
> Downgrade immediately:
> pip install telnyx==4.87.0
Even if only the "environment" were compromised, that includes pip in the standard workflow. You can use an external copy of pip instead, via the `--python` option (and also avoid duplicating pip in each venv, wasting 10-15MB each time, by passing `--without-pip` at creation). I touch on both of these in https://zahlman.github.io/posts/python-packaging-2/ (specifically, showing how to do it with Pipx's vendored copy of pip). Note that `--python` is a hack that re-launches pip using the target environment; pip won't try to import things from that environment, but you'd still be exposed to .pth file risks.
Every basic checker used by many security companies screams at `exec(base64.b64decode` when grepping code using simple regexes.
> The WAV file is a valid audio file. It passes MIME-type checks. But the audio frame data contains a base64-encoded payload. Decode the frames, take the first 8 bytes as the XOR key, XOR the rest, and you have your executable or Python script.
Talk about burying the lede.
The packages are quarantined by PyPi
Follow the overall incident: https://ramimac.me/teampcp/#phase-10
Aikido/Charlie with a very quick blog: https://www.aikido.dev/blog/telnyx-pypi-compromised-teampcp-...
ReversingLabs, JFrog also made parallel reports
The blast radius of TeamPCP just keeps on increasing...
[1]: https://github.com/pypa/advisory-database/blob/main/vulns/te...
[2]: https://osv.dev/vulnerability/MAL-2026-2254
Am I being too nitpicky to say that that is part of your infrastructure?
Doesn't 2FA stop this attack in its tracks? PyPI supports 2FA, no?
Is there any way to setup PyPI to only publish packages that come from a certain pattern of tag that exists in GH? Would such a measure help at all here?
On GitHub see my fork runvnc/PySIP. Please let me know if you know if something better for python that is not copy left or rely on some copy left or big external dependency. I was using baresip but it was a pain to integrate and configure with python.
Anyway, after fixing a lot in the original PySIP my version works with Telynx. Not tested on other SIP providers.
Never really thought too much about the security implications but that is of course a benefit too.
Main reasoning for us has been to aim for a really nice HTTP API rather than hide uglyness with an SDK on top.
Does the package have a user base, or did the malicious team target one of the many useless GitHub repos?
That's incorrect, the repo and package date back to 2019
> We've reviewed the details you provided and updated your case with the necessary information. It is now being routed to the appropriate team for further support.
That was July 2025!
My understanding though is most corporations that take security seriously either build everything themselves in a sandbox, or use something like JFrog's Artifactory with various security checks, and don't let users directly connect to public indexes. So I'm not sure what the market is.
Ended up sticking a twilio endpoint in the ring group with a "press 1 to accept this call" message so it wouldn't eat the call, then was able to fire an http request with the call details.
It worked well, although I admit I was a little annoyed I couldn't do it directly with VoIP.ms.
> An attacker compromising someone's CI should not give them free reign to publish malicious packages at any time they want.
Agreed, that's why a lot of packaging ecosystems (including PyPI) have moved towards schemes that involve self-scoping, self-expiring tokens. The CI can still publish, but the attacker can no longer exfiltrate the publishing credential and use it indefinitely later.
(These schemes are not mandatory, because they can't be.)
Not that I had the option anyway, because everything using Python breaks if you update it. You know they've given up on backward comparability and version control, when the solution is: run everything in a VM, with its own installation. Apparently it's also needed for security, but the VMs aren't really set up to be secure.
I don't get why everything math heavy uses it. I blame MATLAB for being so awful that it made Python look good.
It's not even the language itself, not that it doesn't have its own issues, or the inefficient way it's executed, but the ecosystem around it is so made out of technical debt.
It's a pandemic, I will be hardening my security, and rotating my keys just in case.
It's the closest language to pseudocode that exists.
Like every other language from 1991, it has rough edges.
[1] https://xkcd.com/353/
Supply-chain security is such a dumpster fire, and threat actors are realising that they can use LLMs to organize such attacks.