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Ideas to make zap a package manager that did the one job #66
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I agree with you on much of your ideas. Putting them into checkboxes,
Agreed.
We can say, 'some' companies still prefer to package their software as appimages. We will need to look for a quantitative value.
We can check the authenticity of the appimage, if the appimage is signed using a gpg key ./path/to/appimage.AppImage --appimage-signature will output the embedded GPG signature, but I have not seen many appimages that are signed. The other method would
No.
Yes, thats right. But, we don't have anyone willing to maintain such a list, but it would be great if we could have something like that. But I think, the community gotta take an initiative on keeping the source of AppImage and their sha's up-to-date. I am looking at flathub. It would be great if AppImage could inherit something like this - give the recipe, and let the CI build the AppImage. I can guess this would make us closer to a reproducible AppImage!
That's tricky, and I have no answer to that. It is a question I am personally looking for too. In late 2020s, when I was involved with the AppImage community. But, I think Flatpak is something which knows how to handle this properly. When looking at all the points we are talking about, I sometimes wonder if by trying to put all of these features, we are actually trying to build a second Flatpak? It maybe just me, but the idea on Flatpaks, Snaps and AppImages have become closer, except for the fact that the Flatpaks are not executable on its own. Flatpak build system believes in reproducible builds. This might be related issue, AppImage/AppImageKit#297
Sounds like a plan. We will need to get that idea over here first: https://github.com/AppImage/AppImageSpec. Apps like |
install multiple versions of a package I think support of multiple versions in OS is useful because sometimes user wants to try new version but also use older version and does not want to reinstall things repeatedly. Another case is - in some version in GIMP or Krita there was a bug in some action that crashed the program without saving file. How could be that solved easily by average user? Simply by choosing which version of program to run for a specific graphic project. Multiple versions of a package are implemented by design by AppImage format already. However, proper management of AppImage files to prevent the files to be scattered all over the filesystem is missing from the specification. So this is decided by package managers and therefore all handling is let for package managers. In MacOS, the default location for In Windows OS, users can almost always install multiple versions of software to different folders to have multiple installations, so it is more difficult to have more versions than in MacOS but it is easy. If integration fails, users just clicks and creates a shortcut. With AppImage, there is expectation that multiple versions works similarly to iOS - that is true, they works similarly at format level. But they do not integrate and do not provide accessible default location to allow manual management. Package managers that will implement integrations and default locations and not implement multiple versions will break expectation of average user to use multiple versions of software easily. install the same version of a package multiple times (multiple installations) I agree that this is not so useful in practice now, but I think about it like this: AppImage format supports multiple installations of the same version of package by design. Just filesystem restricts that the same versions must be named differently in one folder or be in separate folders. The installation process by package managers (search+download+verify+integrate) should mirror all existing properties of AppImage file - including the possibility to just have two same program versions in different locations. In the future it could be a common practice to choose multiple partitions to install and manage software. If a package manager supports multiple versions then multiple installations could be for free with proper implementation. I like that NIX stores software like this: In NIX that hash will not change after uninstall and reinstall, however maybe each installation of AppImages should have own ID or random hash in filesystem path. Then multiple files relevant to the installation can be stored there. For example, logs of that installation, info about SSL certificate that was used during download, hash of the AppImage in read-only file owned by root... In short, installation should exist as entity. skip automatic updates of some packages I think this is important because when I install specific version of a software or when I install newest version of a software, sometimes I want to just use that version and do not update automatically. Reasons can vary - for example I am testing just that version or I know that just that version is the last appropriate version for my usecase. Of course, info can/should be output to user about software with disabled updates.
as many as possible operations are instant/fast I had experience with That is my view of ideal package manager. |
I think that community maintained hashes are much better state than the current state where just software packages are community maintained. Hashes alone (without URLs to hashes) would be very practical to do audits with if git repo is cloned / distributed by community. However ideal solution would be that hashes are placed at website owned by producer of the software and package manager just downloads the hash when installing software and community distributors just include hash URLs. I created this issue - I know that is not the repository of specification, but it is big distributor of AppImages AppImage/appimage.github.io#2830 |
Yes, flathub recipes look good because they are configs... But they allow array of post install scripts from I saw and also even Krita is community-maintained on flathub when at the same time Krita authors publish their own genuine AppImage release here https://krita.org/en/download/krita-desktop/ GIT repo just provides some community eyes but it adds one more trusted and attackable infrastructure into the distribution chain. AppImages are meant to not contain any recipes:
They should be packaged by software author. The remaining and unsolved problem is how to verify that some random AppImage on torrent or distribution website was really build by its software author. This is not exclusive to AppImages. If software author offers .deb file or tar.gz2 or source files then the building process to AppImage could be done locally by package manager and the hash URL can point to that .deb / .tar.gz2 / source file zip... Reproducible builds are good, but very complex for all parties involved. Also they solve a different problem as hashes. Hashes solve that I run the exact same program that software author produced and reproducible builds solve that someone else build open-source software the same way as me. |
Linux distributions and package managers are not generally very advanced. There is NIX (or Guix) which is step in better direction I think and it solves dependency problems but the CLI usability is bad and it does not support multiple versions of software in simple commands. Possibly, the concept is flawed, hmhm.
Also, in general, users trust software they run (that it will work, that it will not try to hack their machine, ...). So why to add more trusted maintainers and/or trusted infrastructure to the distribution process? (How one man could have hacked every Mac developer (73% of them, anyway)).
Also, does anybody think that maintainers or distributors can effectively check thousands or hundreds of thousands of source code lines for security bugs / backdoor / malware or masked security bugs / masked backdoor / masked malware? No. So in general, every software that is run by user is trusted by the user. Secure distribution system should decrease the number of trusted actors or trusted systems to 1 (just the system of a software producer) and/or pay for audits with money or time (reproducible builds as part of audits).
AppImage is a nice concept because it solved dependencies issues and zap looks like the missing manager to it.
From average user perspective or from
ain't nobody got time for that
perspective, user wants to:a) install the most recent version of a package (stable, nightly, lts, ...)
b) install specific version of a package (v5.0.1, v17.4.2, ...)
c) install multiple versions of a package
d) install the same version of a package multiple times (multiple installations)
e) update package to a specific version
f) update all packages to most recent versions
g) skip automatic updates of some packages
h) remove a package
i) manage default package easily (PATH)
What should hold true:
j) dependencies are solved for good
k) update of a package does not affect dependencies of other packages
l) as many as possible operations are instant/fast
m) if ambiguous state or unclear action, ask
n) allow to force action or force yes to asking
CLI examples (ideas/draft)
lpm (theoretical last package manager)
The real issue is package availability and authenticity.
If companies publish hash sum of every appimage file (or software wrapped in the appimage) and URL of the hash sum (ex. sha512) located at their site with SSL then this is solved without any distribution certificates. Trusted/source-verified package manager (like zap) just checks the hash sum at the URL and compares the hash with locally computed hash of the appimage (or software wrapped in the appimage).
URLs to hashes can be stored online in GIT or community maintained websites. But the process of comparing hashes must be transparent and it has to actually show the source URL of the hash (ex. firefox.org/releases/...) because GIT or community website can not be verified easily and/or every time and can be hacked any time - see this incident.
So, the question is - how to convince companies to publish hash sums for their appimages (or software wrapped in the appimage)? This should be easier than to convince them to provide enough bandwidth to download appimage packages. Appimage packages could be distributed by whatever unsecured systems (ex. non-SSL sites, whatever malwared package repositories) and it would be OK because the hash verification would just work at the user machine.
Here is a proposal of file standard which allows batch downloads of hashes. The idea of appimages is
one app = one file
. That meansone app = one file = one hash
. The format is very simple so it is easy to compose and parse by programmers and easy to read by other humans.The text was updated successfully, but these errors were encountered: