If the others don't include it, it could be another inconsistance though
zokier 7 hours ago [-]
Or just use ISO8601 standard notation (e.g. "P1D" for one day)
1oooqooq 3 hours ago [-]
or PT1400M or P0.5DT700M?
oh, you can use commas too.
and if you're still not thinking this is fun, here's a quote from Wikipedia "But keep in mind that "PT36H" is not the same as "P1DT12H" when switching from or to Daylight saving time."
just add a unit to your period parameters. sigh.
fzeindl 7 hours ago [-]
ISO8601 durations should be used, like PT3M.
mort96 4 hours ago [-]
Oh wow, never looked at ISO8601 durations before and I had no idea they were this ugly. Please, no, don't make me deal with ISO8601. I'd rather write a number of seconds or a format like 'X weeks' or 'Y hours Z minutes'x ISO8601 looks exclusively like a data interchange format
cluckindan 17 minutes ago [-]
When in doubt, use only seconds. PT86400S
aa-jv 7 hours ago [-]
Should be easy, just add the ISO8601-duration package to your project ..
/s
postepowanieadm 8 hours ago [-]
If everyone is going to wait 3 days before installing the latest version of a compromised package, it will take more than 3 days to detect an incident.
acdha 4 hours ago [-]
Think about how the three major recent incidents were caught: not by individual users installing packages but by security companies running automated scans on new uploads flagging things for audits. This would work quite well in that model, and it’s cheap in many cases where there isn’t a burning need to install something which just came out.
anematode 7 hours ago [-]
A lot of people will still use npm, so they'll be the canaries in the coal mine :)
More seriously, automated scanners seem to do a good job already of finding malicious packages. It's a wonder that npm themselves haven't already deployed an automated countermeasure.
> It started with a cryptic build failure in our CI/CD pipeline, which my colleague noticed
> This seemingly minor error was the first sign of a sophisticated supply chain attack. We traced the failure to a small dependency, error-ex. Our package-lock.json specified the stable version 1.3.2 or newer, so it installed the latest version 1.3.3, which got published just a few minutes earlier.
DougBTX 3 hours ago [-]
> Our package-lock.json specified the stable version 1.3.2 or newer
Is that possible? I thought the lock files restricted to a specific version with an integrity check hash. Is it possible that it would install a newer version which doesn't match the hash in the lock file? Do they just mean package.json here?
streptomycin 3 hours ago [-]
If they were for some reason doing `npm install` rather than `npm ci`, then `npm install` does update packages in the lock file. Personally I always found that confusing, and yarn/pnpm don't behave that way. I think most people do `npm ci` in CI, unless they are using CI to specifically test if `npm install` still works, which I guess maybe would be a good idea if you use npm since it doesn't like obeying the lock file.
Rockslide 3 hours ago [-]
How does this get repeated over and over, when it's simply not true? At least not anymore. npm install will only update the lockfile if you make changes to your package.json. Otherwise, it will install the versions from the lockfile.
cluckindan 3 minutes ago [-]
Are you 100% on that?
Mattwmaster58 3 hours ago [-]
> Is that possible?
This comes up every time npm install is discussed. Yes, npm install will "ignore" your lockfile and install the latest dependancies it can that satisfy the constraints of your package.json. Yes, you should use npm clean-install. One shortcoming is the implementation insists on deleteing the entire node_modules folder, so package installs can actually take quite a bit of time, even when all the packages are being served from the npm disk cache: https://github.com/npm/cli/issues/564
6 hours ago [-]
vasachi 7 hours ago [-]
If only there was a high-ranking official at Microsoft, who could prioritize security[1]! /s
Also, if everyone is going to wait 3 days before installing the latest version of a compromised package, it will take more than 3 days to broadly disseminate the fix for a compromise in the wild. The knife cuts both ways.
singulasar 6 hours ago [-]
Not really, app sec companies scan npm constantly for updated packages to check for malware. Many attacks get caught that way.
e.g. the debug + chalk supply chain attack was caught like this: https://www.aikido.dev/blog/npm-debug-and-chalk-packages-com...
blamestross 5 hours ago [-]
1) Checks and audits will still happen (if they are happening at all)
2) Real chances for owners to notice they have been compromised
3) Adopt early before that commons is fully tragedy-ed.
the_mitsuhiko 6 hours ago [-]
I think uv should get some credit for being an early supporter of this. They originally added it as a hidden way to create stable fixtures for their own tests, but it has become a pretty popular flag to use.
This for instance will only install packages that are older than 14 days:
It's great to see this kind of stuff being adopted in more places.
mcintyre1994 6 hours ago [-]
Nice, but I think the config file is a much better implementation for protecting against supply chain attacks, particularly those targeting developers rather than runtime. You don’t want to rely on every developer passing a flag every time they install. This does suffer from the risk of using `npm install` instead of `pnpm install` though.
It would also be nice to have this as a flag so you can use it on projects that haven't configured it though, I wonder if that could be added too.
ramses0 3 hours ago [-]
Just Minimum Version Selection in conjunction with "Minimum non-Vulnerable Version" (and this "--minAge") would do a lot, and effectively suss out a lot of poorly/casually maintained packages (eg: "finished" ones).
MVS makes tons of sense that you shouldn't randomly uptake "new" packages that haven't been "certified" by package maintainers in their own dependencies.
In the case of a vulnerable sub-dependency, you're effectively having to "do the work" to certify that PackageX is compatible with PackageY, and "--minAge" gives industry (and maintainers) time to scan before insta-pwning anyone who is unlucky that day.
cap11235 4 hours ago [-]
You can put the uv setting in pyproject.toml or uv.toml.
fainpul 2 hours ago [-]
But then you have to hardcode a timestamp, since this is not gonna work in uv.toml:
I have a question: when I’ve seen people discussing this setting, people talk about using like ”3 days” or ”7 days” as the timeout, which seems insanely short to me for production use. As a C++ developer, I would be hesitant to use any dependency in the first six months of release in production, unless there’s some critical CVE or something (then again, we make client side applications with essentially no networking, so security isn’t as critical for us, stability is much more important).
Does the JS ecosystem really move so fast that you can’t wait a month or two before updating your packages?
progx 7 hours ago [-]
Yes, but this is not only JS dependent, in PHP (composer) is the same.
Normally old major or minor packages don't get an update, only the latest.
E.g. 4.1.47 (no update), 4.2.1 (yes got update).
So if the problem is in 4.1 you must "upgrade" to 4.2.
With "perfect" semver, this shouldn't be a problem, cause 4.2 only add new features... but... back to reality, the world is not perfect.
diegof79 4 hours ago [-]
Transitive dependencies are the main issue.
Suppose you have a package P1 with version 1.0.0 that depends on D1 with version ^1.0.0. The “^” indicates a range query. Without going into semver details, it helps update D1 automatically for minor patches or non-breaking feature additions.
In your project, everything looks fine as P1 is pinned to 1.0.0. Then, you install P2 that also uses D1. A new patch version of D1 (1.0.1) was released. The package manager automatically upgrades to 1.0.1 because it matches the expression ^1.0.0, as specified by P1 and P2 authors.
This can lead to surprises. JS package managers use lock files to prevent changes during installs. However, they still change the lock file for additions or manual version upgrades, resolving to newer minor dependencies if the version range matches. This is often desirable for bug fixes and security updates. But, it opens the door to this type of attack.
To answer your question, yes, the JS ecosystem moves faster, and pkg managers make it easy to create small libraries. This results in many “small” libraries as transitive dependencies. Rewriting these libraries with your own code works for simple cases like left-pad, but you can’t rewrite a webserver or a build tool that also has many small transitive dependencies. For example, the chalk library is used by many CLI tools to show color output.
ozim 7 hours ago [-]
NPM packages follow semantic versioning so minor versions should be fine to auto update. (there is still an issue what for package maintainer might be minor not being minor for you - but let's stick to ideal world for that)
I don't think people are having major versions updated every month, it is more really like 6 months or once a year.
I guess the problem might be people think auto updating minor versions in CI/CD pipeline will keep them more secure as bug fixes should be in minor versions but in reality we see it is not the case and attackers use it to spread malware.
creesch 6 hours ago [-]
> Does the JS ecosystem really move so fast that you can’t wait a month or two before updating your packages?
Really depends on the context and where the code is being used. As others have pointed out most js packages will use semantic versioning. For the patch releases (the last of the three numbers), for code that is exposed to the outside world you generally want to apply those rather quickly. As those will contain hotfixes including those fixing CVEs.
For the major and minor releases it really depends on what sort of dependencies you are using and how stable they are.
The issue isn't really unique to the JavaScript eco system either. A bigger java project (certainly with a lot of spring related dependencies) will also see a lot of movement.
That isn't to say that some tropes about the JavaScript ecosystem being extremely volatile aren't entirely true. But in this case I do think the context is the bigger difference.
> then again, we make client side applications with essentially no networking, so security isn’t as critical for us, stability is much more important)
By its nature, most JavaScript will be network connected in some fashion in environments with plenty of bad actors.
dtech 4 hours ago [-]
Waiting 6 months to upgrade a dependency seems crazy, that's definitely not a thing in other languages or maybe companies. (It might be due to priorization, but not due to some rule of thumb)
In the JVM ecosystem it's quite common to have Dependabot or Renovate automatically create PRs for dependency upgrades withing a few hours of it being released. If it's manual it highly irregular and depends on the company.
slowroll22 3 hours ago [-]
For a previous place I worked - on some of our products 6 months was the minimum - and explicitly a year for a few of the dependencies.
The main deciding factors were the process and frequency it was released / upgraded by us or our customers.
The on-prem installs had the longest delay because once it was out there it was harder for us to address issues. Some customers also had a change freeze in place once things have been approved which was a pain to deal with if we needed to patch something for them.
Products that had a shorter release or update cycle (e.g. the mobile app) had a shorter delay (but still a delay) because any issue could be addressed faster.
The services that were hosted by us had the shortest delay on the order of days to weeks.
There were obviously exceptions in both directions but we tried to avoid them.
Prioritisation wasnt really an issue - a lot of dependencies were increased on internal builds so we had more time to test and verify before committing to it once it reached our stability rules.
Other factors that influenced us:
- Blast radius - a buggy dependency in our desktop/server applications had more chance to cause damage than our hosted web application so it rolled a little slower for dependencies.
- Language (more like ergonomics of the language) - updating our C++ deps was a lot more cumbersome than JS deps)
esafak 2 hours ago [-]
As long as you can quickly upgrade a package when there's a security patch you're good. You make it sound like that's not the case, though.
slowroll22 36 minutes ago [-]
It was definitely possible, as mentioned there were some exceptions (such as cases where we did need to roll out a version with dependencies bumped or with our own critical fixes).
The harder part, as is often the case, wasn't technical - but more convincing customers to take the new version and getting time with their IT teams to manage. It got easier over time but the bureaucracy at some of the clients was slow to change so I suspect they still face some issues.
patwolf 4 hours ago [-]
It's common to have npm auditing enabled, which means your CI/CD will force you to update to a brand new version of a package because a security vulnerability was reported in an older one.
I've also had cases where I've found a bug in a package, submitted a bug report or PR, and then immediately pulled in the new version as soon as it was fixed. Things move fast in the JavaScript/npm/GitHub ecosystem.
codemonkey-zeta 4 hours ago [-]
I think the surface area for bugs in a C++ dependency is way bigger than a JS one. Pulling in a new node module is not going to segfault my app, for example.
pandemic_region 6 hours ago [-]
> Does the JS ecosystem really move so fast that you can’t wait a month or two before updating your packages?
In 2 months, a typical js framework goes through the full Gartner Hype Cycle and moves to being unmaintained with an archived git repo and dozens of virus infected forks with similar names.
tripplyons 1 hours ago [-]
If I run:
pnpm config set -g minimumReleaseAge 1440
Does that work as well? I can't tell if the global settings are the same as workspace settings, and it lets me set nonsense keys this way, so I'm not sure if there is a global equivalent.
Ozzie_osman 3 hours ago [-]
Does anyone understand why npm isn't adding these sorts of features?
JoshuaEN 2 hours ago [-]
There was an NPM RFC for this feature (though not as focused on supply chain attacks) in 2022, but the main response mirrored some of the other comments in here.
"waiting a length of time doesn’t increase security, and if such a practice became common then it would just delay discovery of vulnerabilities until after that time anyways"
I might be naive but why isn't any package manager (npm, pnpm, bun, yarn, ...) pushing for a permission system, where packages have to define in the package.json what permission they would like to access? À la Deno but scoped to dependencies or like mobile apps do with their manifest.
I know it would take time for packages to adopt this but it could be implemented as parameters when installing a new dependency, like `npm i ping --allow-net`. I wouldn't give a library like chalk access to I/O, processes or network.
IanCal 5 hours ago [-]
I feel like that would require work from the language side, or at least runtimes. Is there a way of stopping code in one package from, say, hitting the network?
You might be able to do this around install scripts, though disk writing is likely needed for all (but perhaps locations could be controlled).
Filligree 5 hours ago [-]
We've seen a lot of stunningly incompetent attacks that nevertheless get to a lot of people.
Yeah, it needs work from the language runtime, but I think even a hacky, leaky 'security' abstraction would be helpful, because the majority of malware developers probably aren't able to break out of a language-level sandbox, even if the language still allows you to do unsafe array access.
Then we can iterate.
chr15m 4 hours ago [-]
The correct value for this setting is infinity seconds. Upgrades should be considered and deliberate, not automatic.
kibwen 3 hours ago [-]
The downside of this approach is that this is how you create an ecosystem where legitimate security fixes never end up getting applied. There's no free lunch, you need to decide whether you're more concerned about vulnerabilities intentional backdoors (and thus never update anything automatically) or vulnerabilities from ordinary unintentional bugs (and thus have a mechanism for getting security updates automatically).
JoshuaEN 2 hours ago [-]
I don't think this is realistic in the default npm ecosystem where projects can have 1000s of dependencies (with the majority being transitive with fuzzy versions).
Though pnpm does have a setting to help with this too: https://pnpm.io/settings#resolutionmode time-based, which effectively pins subdependencies based on the published time of the direct dependency.
esafak 2 hours ago [-]
No, it isn't. Upgrades should be routine, like exercising. With your approach it becomes increasingly difficult and eventually impossible to upgrade anything since it requires moving a mountain. An update a ̶d̶a̶y̶ week makes the tech debt go away.
gausswho 7 hours ago [-]
'Delayed dependency updates' is a response to supply-side attacks in the JavaScript world, but it aptly describes how I have come to approach technology broadly.
Large tech companies, as with most industry, have realized most people will pay with their privacy and data long before they'll pay with money. We live in a time of the Attention Currency, after all.
But you don't need to be a canary to live a technology-enabled life. Much software that you pay with your privacy and data has free or cheap open-source alternatives that approach the same or higher quality. When you orient your way of consuming to 'eh, I can wait till the version that respects me is built', life becomes more enjoyable in myriad ways.
I don't take this to absolute levels. I pay for fancy pants LLM's, currently. But I look forward to the day not too far away where I can get today's quality for libre in my homelab.
in corp settings, you usually have a proxy registry. you can setup firewall there for this kind of things to filter out based on license, cve, release date, etc...
lloydatkinson 58 minutes ago [-]
Why must this be in a workspace file which you may not even have if you aren't in a monorepo, why not in package.json? Anyway, it's progress.
Can anyone tell me if yarn just as vulnerable as NPM? Isn't it the packages that are vulnerable and not the package manger software itself?
NamlchakKhandro 3 hours ago [-]
npm is now the tutorial filter.
If I see someone using npm as a cli tool unironically...
user1999919 3 hours ago [-]
but what will we ever do without our: "developers are lazy, developers are dumb, left-pad degeneracy!"
__MatrixMan__ 5 hours ago [-]
Its not a bad idea, might help in certain cases.
But the real solution to this kind of attack is to stop resolving packages by name and instead resolve them by hash, then binding a name to that hash for local use.
That would of course be a whole different, mostly unexplored, world, but there's just no getting around the fact that blindly accepting updated versions of something based on its name is always going to create juicy attack surface around the resolution of that name to some bits.
mort96 4 hours ago [-]
The problem here isn't, "someone introduced malware into an existing version of a package". The problem is, "people want to stay up to date, so when a new patch version is released, everyone upgrades to that new patch version".
__MatrixMan__ 3 hours ago [-]
The problem is that they implicitly do so. If they had to enter the hash of the latest and greatest version, the onus would be on them at that time to scrutinize it. At worst the spread of the malicious package would be slowed, and at best it would be stopped.
mort96 2 hours ago [-]
Surely you'd achieve the same thing by making people manually enter a new version number?
I'm not inherently against the idea of specifying a hash, it would protect against NPM hosting infrastructure being compromised, but again, that's not what we're seeing here
mirekrusin 5 hours ago [-]
name + version are immutable, you can't republish packages in npm under existing version.
you can only unpublish.
content hash integrity is verified in lockfiles.
the problem is with dependencies using semver ranges, especially wide ones like "debug": "*"
initiatives like provenance statements [0] / code signing are also good complement to delayed dependency updates.
also not running as default / whitelisting postinstall scripts is good default in pnpm.
modifying (especially adding) keys in npmjs.org should be behind dedicated 2fa (as well as changing 2fa)
Those are promises that npm intends to keep, but whether they do or not isn't something that you as a package user can verify. Plus there's also the possibility that the server you got those bits from was merely masquerading as npm.
The only immutability that counts is immutability that you can verify, which brings us back to cryptographic hashes.
frankdejonge 5 hours ago [-]
Resolving by hash is a half solution at best. Not having automated dependency upgrades also has severe security downsides. Apart from that, lock files basically already do what you describe, they contain the hashes and the resolution is based off the name while the hash ensures for the integrity of the resolved package. The problem is upgrade automation and supply chain scanning. The biggest issue there is that scanning is not done where the vulnerability is introduced because there is no money for it.
__MatrixMan__ 3 hours ago [-]
Do you suppose that automated dependency upgrades are less likely to introduce malicious code than to remove it? They're about compliance, not security. If I can get you to use malicious code in the first place I can also trick you into upgrading from safe code to the vulnerable code in the name of "security".
As for lock files, they prevent skulduggery after the maintainer has said "yeah, I trust this thing and my users should too" but the attacks we're seeing is upstream of that point because maintainers are auto-trusting things based on their name+version pair, not based on their contents.
debazel 3 hours ago [-]
> If I can get you to use malicious code in the first place I can also trick you into upgrading from safe code to the vulnerable code in the name of "security".
Isn't the whole point that malicious actors usually only have a very short window where they can actually get you to install anything, before shut out again? That's the whole point of having a delay in the package-manager.
__MatrixMan__ 2 hours ago [-]
Who is going to discover it in that time? Not the maintainers, they've already released it. Their window for scrutiny has passed.
There is some sense in giving the early adopters some time to raise the alarm and opting into late adoption, but isn't that better handled by defensive use of semantic versioning?
Consider the xzutils backdoor. It was introduced a month before it was discovered, and it was discovered by a user.
If that user had waited a few days, it would just have been discovered a few days later, during which time it may have been added to an even wider scope of downstream packages. That is, supposing they didn't apply reduced scrutiny due to their perception that it was safe due to the soak period.
Its not nothing, but its susceptible to creating a false sense of security.
debazel 2 hours ago [-]
The maintainers did notice in both of the recent attacks, but it takes time to regain access to your compromised account to take the package down, contact npm, etc.
All recent attacks have also been noticed within hours of release by security companies that automatically scan all newly released packages published to npm.
So as far as I know all recent attacks would have been avoided by adding a short delay.
progx 7 hours ago [-]
That solve not really the problem.
A better (not perfect) solution: Every package should by AI analysed on an update before it is public available, to detect dangerous code and set a rating.
In package.json should be a rating defined, when remote package is below that value it could be updated, if it is higher a warning should appear.
But this will cost, but i hope, that companies like github, etc. will allow package-Repositories to use their services for free. Or we should find a way, to distribute this services to us (the users and devs) like a BOINC-Client.
jonkoops 7 hours ago [-]
Ah, yes! The universal and uncheatable LLM! Surely nothing can go wrong.
NitpickLawyer 6 hours ago [-]
Perfect is the enemy of good. Current LLM systems + "traditional tools" for scanning can get you pretty far into detecting the low hanging fruit. Hell, I bet even a semantic search with small embedding models could give you a good insight into "what's in the release notes matches what's in the code". Simply flag it for being delayed a few hours, till a human can view it. Or run additional checks.
progx 7 hours ago [-]
I can't wait to read about your solution.
orphea 6 hours ago [-]
You don't need to be a chef to tell that the soup is too salty.
progx 7 hours ago [-]
As i wrote "not perfect". But better than anything else or nothing.
I thought we discuss here problems and possible solutions.
My fault.
rpdillon 2 hours ago [-]
I'm not sure why everyone is so hostile. Your idea has merit, along the lines of a heuristic that you trigger a human review as a follow-up. I'd be surprised if this isn't exactly the direction things go, although I don't think the tools will be given for free, but rather made part of the platform itself, or perhaps as an add-on service.
6 hours ago [-]
robertlagrant 5 hours ago [-]
I don't think "we should use AI to solve this" is a solution proposal.
3 hours ago [-]
philipwhiuk 2 hours ago [-]
A better solution is restricting package permissions.
Rendered at 15:50:18 GMT+0000 (Coordinated Universal Time) with Vercel.
https://pnpm.io/settings#modulescachemaxage
oh, you can use commas too.
and if you're still not thinking this is fun, here's a quote from Wikipedia "But keep in mind that "PT36H" is not the same as "P1DT12H" when switching from or to Daylight saving time."
just add a unit to your period parameters. sigh.
/s
More seriously, automated scanners seem to do a good job already of finding malicious packages. It's a wonder that npm themselves haven't already deployed an automated countermeasure.
> It started with a cryptic build failure in our CI/CD pipeline, which my colleague noticed
> This seemingly minor error was the first sign of a sophisticated supply chain attack. We traced the failure to a small dependency, error-ex. Our package-lock.json specified the stable version 1.3.2 or newer, so it installed the latest version 1.3.3, which got published just a few minutes earlier.
Is that possible? I thought the lock files restricted to a specific version with an integrity check hash. Is it possible that it would install a newer version which doesn't match the hash in the lock file? Do they just mean package.json here?
This comes up every time npm install is discussed. Yes, npm install will "ignore" your lockfile and install the latest dependancies it can that satisfy the constraints of your package.json. Yes, you should use npm clean-install. One shortcoming is the implementation insists on deleteing the entire node_modules folder, so package installs can actually take quite a bit of time, even when all the packages are being served from the npm disk cache: https://github.com/npm/cli/issues/564
[1] https://blogs.microsoft.com/blog/2024/05/03/prioritizing-sec...
2) Real chances for owners to notice they have been compromised
3) Adopt early before that commons is fully tragedy-ed.
This for instance will only install packages that are older than 14 days:
uv sync --exclude-newer $(date -u -v-14d '+%Y-%m-%dT%H:%M:%SZ')
It's great to see this kind of stuff being adopted in more places.
It would also be nice to have this as a flag so you can use it on projects that haven't configured it though, I wonder if that could be added too.
https://research.swtch.com/vgo-mvs#upgrade_timing
MVS makes tons of sense that you shouldn't randomly uptake "new" packages that haven't been "certified" by package maintainers in their own dependencies.
In the case of a vulnerable sub-dependency, you're effectively having to "do the work" to certify that PackageX is compatible with PackageY, and "--minAge" gives industry (and maintainers) time to scan before insta-pwning anyone who is unlucky that day.
Does the JS ecosystem really move so fast that you can’t wait a month or two before updating your packages?
Normally old major or minor packages don't get an update, only the latest.
E.g. 4.1.47 (no update), 4.2.1 (yes got update).
So if the problem is in 4.1 you must "upgrade" to 4.2.
With "perfect" semver, this shouldn't be a problem, cause 4.2 only add new features... but... back to reality, the world is not perfect.
Suppose you have a package P1 with version 1.0.0 that depends on D1 with version ^1.0.0. The “^” indicates a range query. Without going into semver details, it helps update D1 automatically for minor patches or non-breaking feature additions.
In your project, everything looks fine as P1 is pinned to 1.0.0. Then, you install P2 that also uses D1. A new patch version of D1 (1.0.1) was released. The package manager automatically upgrades to 1.0.1 because it matches the expression ^1.0.0, as specified by P1 and P2 authors.
This can lead to surprises. JS package managers use lock files to prevent changes during installs. However, they still change the lock file for additions or manual version upgrades, resolving to newer minor dependencies if the version range matches. This is often desirable for bug fixes and security updates. But, it opens the door to this type of attack.
To answer your question, yes, the JS ecosystem moves faster, and pkg managers make it easy to create small libraries. This results in many “small” libraries as transitive dependencies. Rewriting these libraries with your own code works for simple cases like left-pad, but you can’t rewrite a webserver or a build tool that also has many small transitive dependencies. For example, the chalk library is used by many CLI tools to show color output.
I don't think people are having major versions updated every month, it is more really like 6 months or once a year.
I guess the problem might be people think auto updating minor versions in CI/CD pipeline will keep them more secure as bug fixes should be in minor versions but in reality we see it is not the case and attackers use it to spread malware.
Really depends on the context and where the code is being used. As others have pointed out most js packages will use semantic versioning. For the patch releases (the last of the three numbers), for code that is exposed to the outside world you generally want to apply those rather quickly. As those will contain hotfixes including those fixing CVEs.
For the major and minor releases it really depends on what sort of dependencies you are using and how stable they are.
The issue isn't really unique to the JavaScript eco system either. A bigger java project (certainly with a lot of spring related dependencies) will also see a lot of movement.
That isn't to say that some tropes about the JavaScript ecosystem being extremely volatile aren't entirely true. But in this case I do think the context is the bigger difference.
> then again, we make client side applications with essentially no networking, so security isn’t as critical for us, stability is much more important)
By its nature, most JavaScript will be network connected in some fashion in environments with plenty of bad actors.
In the JVM ecosystem it's quite common to have Dependabot or Renovate automatically create PRs for dependency upgrades withing a few hours of it being released. If it's manual it highly irregular and depends on the company.
The main deciding factors were the process and frequency it was released / upgraded by us or our customers.
The on-prem installs had the longest delay because once it was out there it was harder for us to address issues. Some customers also had a change freeze in place once things have been approved which was a pain to deal with if we needed to patch something for them.
Products that had a shorter release or update cycle (e.g. the mobile app) had a shorter delay (but still a delay) because any issue could be addressed faster.
The services that were hosted by us had the shortest delay on the order of days to weeks.
There were obviously exceptions in both directions but we tried to avoid them.
Prioritisation wasnt really an issue - a lot of dependencies were increased on internal builds so we had more time to test and verify before committing to it once it reached our stability rules.
Other factors that influenced us: - Blast radius - a buggy dependency in our desktop/server applications had more chance to cause damage than our hosted web application so it rolled a little slower for dependencies.
- Language (more like ergonomics of the language) - updating our C++ deps was a lot more cumbersome than JS deps)
The harder part, as is often the case, wasn't technical - but more convincing customers to take the new version and getting time with their IT teams to manage. It got easier over time but the bureaucracy at some of the clients was slow to change so I suspect they still face some issues.
I've also had cases where I've found a bug in a package, submitted a bug report or PR, and then immediately pulled in the new version as soon as it was fixed. Things move fast in the JavaScript/npm/GitHub ecosystem.
In 2 months, a typical js framework goes through the full Gartner Hype Cycle and moves to being unmaintained with an archived git repo and dozens of virus infected forks with similar names.
pnpm config set -g minimumReleaseAge 1440
Does that work as well? I can't tell if the global settings are the same as workspace settings, and it lets me set nonsense keys this way, so I'm not sure if there is a global equivalent.
"waiting a length of time doesn’t increase security, and if such a practice became common then it would just delay discovery of vulnerabilities until after that time anyways"
https://github.com/npm/rfcs/issues/646#issuecomment-12824971...
I know it would take time for packages to adopt this but it could be implemented as parameters when installing a new dependency, like `npm i ping --allow-net`. I wouldn't give a library like chalk access to I/O, processes or network.
You might be able to do this around install scripts, though disk writing is likely needed for all (but perhaps locations could be controlled).
Yeah, it needs work from the language runtime, but I think even a hacky, leaky 'security' abstraction would be helpful, because the majority of malware developers probably aren't able to break out of a language-level sandbox, even if the language still allows you to do unsafe array access.
Then we can iterate.
Though pnpm does have a setting to help with this too: https://pnpm.io/settings#resolutionmode time-based, which effectively pins subdependencies based on the published time of the direct dependency.
Large tech companies, as with most industry, have realized most people will pay with their privacy and data long before they'll pay with money. We live in a time of the Attention Currency, after all.
But you don't need to be a canary to live a technology-enabled life. Much software that you pay with your privacy and data has free or cheap open-source alternatives that approach the same or higher quality. When you orient your way of consuming to 'eh, I can wait till the version that respects me is built', life becomes more enjoyable in myriad ways.
I don't take this to absolute levels. I pay for fancy pants LLM's, currently. But I look forward to the day not too far away where I can get today's quality for libre in my homelab.
Good to see some OSS alternatives showing up!
There's an open discussion about adding something similar to bun as well^
minimumReleaseAge doesn't seem to be a bulletproof solution so there's still some research/testing to be done in this area
If I see someone using npm as a cli tool unironically...
But the real solution to this kind of attack is to stop resolving packages by name and instead resolve them by hash, then binding a name to that hash for local use.
That would of course be a whole different, mostly unexplored, world, but there's just no getting around the fact that blindly accepting updated versions of something based on its name is always going to create juicy attack surface around the resolution of that name to some bits.
I'm not inherently against the idea of specifying a hash, it would protect against NPM hosting infrastructure being compromised, but again, that's not what we're seeing here
you can only unpublish.
content hash integrity is verified in lockfiles.
the problem is with dependencies using semver ranges, especially wide ones like "debug": "*"
initiatives like provenance statements [0] / code signing are also good complement to delayed dependency updates.
also not running as default / whitelisting postinstall scripts is good default in pnpm.
modifying (especially adding) keys in npmjs.org should be behind dedicated 2fa (as well as changing 2fa)
[0] https://docs.npmjs.com/generating-provenance-statements
The only immutability that counts is immutability that you can verify, which brings us back to cryptographic hashes.
As for lock files, they prevent skulduggery after the maintainer has said "yeah, I trust this thing and my users should too" but the attacks we're seeing is upstream of that point because maintainers are auto-trusting things based on their name+version pair, not based on their contents.
Isn't the whole point that malicious actors usually only have a very short window where they can actually get you to install anything, before shut out again? That's the whole point of having a delay in the package-manager.
There is some sense in giving the early adopters some time to raise the alarm and opting into late adoption, but isn't that better handled by defensive use of semantic versioning?
Consider the xzutils backdoor. It was introduced a month before it was discovered, and it was discovered by a user.
If that user had waited a few days, it would just have been discovered a few days later, during which time it may have been added to an even wider scope of downstream packages. That is, supposing they didn't apply reduced scrutiny due to their perception that it was safe due to the soak period.
Its not nothing, but its susceptible to creating a false sense of security.
All recent attacks have also been noticed within hours of release by security companies that automatically scan all newly released packages published to npm.
So as far as I know all recent attacks would have been avoided by adding a short delay.
A better (not perfect) solution: Every package should by AI analysed on an update before it is public available, to detect dangerous code and set a rating.
In package.json should be a rating defined, when remote package is below that value it could be updated, if it is higher a warning should appear.
But this will cost, but i hope, that companies like github, etc. will allow package-Repositories to use their services for free. Or we should find a way, to distribute this services to us (the users and devs) like a BOINC-Client.
[0] https://en.wikipedia.org/wiki/Politician's_syllogism
I thought we discuss here problems and possible solutions.
My fault.