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Frage zu eRechnungen. Ab 01.01.25 scheinen Unternehmer mit e-Rechnungen zwingend konfrontiert zu werden. Mich hat das Thema gerade völlig kalt erwischt. 🙁
Wenn ich das recht verstehe, dann brauche ich als Freiberufler die Möglichkeit e-Rechnungen a) zu empfangen, zu lesen, zu prüfen und zu archivieren und b) zu erstellen.

Habt ihr hier Tipps, welche Software für Linux und welches Struktur-Format (ZugFerd & Co) man am Sinnvollsten nimmt?

@linux @linux #linux #erechnung #erechnungspflicht #finanzen #rechnung #unternehmen #gründen #FragDasFediverse #Buchhaltung #selbständigkeit #selbständig #Freiberufler

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Welcher Matrix-Client? (friendica.opensocial.space)
submitted 1 month ago by [email protected] to c/[email protected]
 
 

Welcher Matrix-Client?
Hallo Matrix-User, welche Desktop- / Web- / Mobile - Clients könnt ihr für den Messenger empfehlen? Es gibt ja verflixt viele zur Auswahl ... Welche sind eure Favoriten? Und wenn ja, warum?

#Matrix #synapse #Element #messenger #Messenger-Matrix #chat #OpenSource @linux @linux #FragDasFediverse #linux #schildi #fluffychat #commet #Cinny #conduit #dendrite

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This article will describe how to download an image from a (docker) container registry.

Manual Download of Container Images with wget and curl
Manual Download of Container Images with wget and curl

Intro

Remember the good `'ol days when you could just download software by visiting a website and click "download"?

Even apt and yum repositories were just simple HTTP servers that you could just curl (or wget) from. Using the package manager was, of course, more secure and convenient -- but you could always just download packages manually, if you wanted.

But have you ever tried to curl an image from a container registry, such as docker? Well friends, I have tried. And I have the scars to prove it.

It was a remarkably complex process that took me weeks to figure-out. Lucky you, this article will break it down.

Examples

Specifically, we'll look at how to download files from two OCI registries.

  1. Docker Hub
  2. GitHub Packages

Terms

First, here's some terminology used by OCI

  1. OCI - Open Container Initiative
  2. blob - A "blob" in the OCI spec just means a file
  3. manifest - A "manifest" in the OCI spec means a list of files

Prerequisites

This guide was written in 2024, and it uses the following software and versions:

  1. debian 12 (bookworm)
  2. curl 7.88.1
  3. OCI Distribution Spec v1.1.0 (which, unintuitively, uses the '/v2/' endpoint)

Of course, you'll need 'curl' installed. And, to parse json, 'jq' too.

sudo apt-get install curl jq

What is OCI?

OCI stands for Open Container Initiative.

OCI was originally formed in June 2015 for Docker and CoreOS. Today it's a wider, general-purpose (and annoyingly complex) way that many projects host files (that are extremely non-trivial to download).

One does not simply download a file from an OCI-complianet container registry. You must:

  1. Generate an authentication token for the API
  2. Make an API call to the registry, requesting to download a JSON "Manifest"
  3. Parse the JSON Manifest to figure out the hash of the file that you want
  4. Determine the download URL from the hash
  5. Download the file (which might actually be many distinct file "layers")
One does not simply download from a container registry
One does not simply download from a container registry

In order to figure out how to make an API call to the registry, you must first read (and understand) the OCI specs here.

OCI APIs

OCI maintains three distinct specifications:

  1. image spec
  2. runtime spec
  3. distribution spec

OCI "Distribution Spec" API

To figure out how to download a file from a container registry, we're interested in the "distribution spec". At the time of writing, the latest "distribution spec" can be downloaded here:

The above PDF file defines a set of API endpoints that we can use to query, parse, and then figure out how to download a file from a container registry. The table from the above PDF is copied below:

ID Method API Endpoint Success Failure
end-1 GET /v2/ 200 404/401
end-2 GET / HEAD /v2/<name>/blobs/<digest> 200 404
end-3 GET / HEAD /v2/<name>/manifests/<reference> 200 404
end-4a POST /v2/<name>/blobs/uploads/ 202 404
end-4b POST /v2/<name>/blobs/uploads/?digest=<digest> 201/202 404/400
end-5 PATCH /v2/<name>/blobs/uploads/<reference> 202 404/416
end-6 PUT /v2/<name>/blobs/uploads/<reference>?digest=<digest> 201 404/400
end-7 PUT /v2/<name>/manifests/<reference> 201 404
end-8a GET /v2/<name>/tags/list 200 404
end-8b GET /v2/<name>/tags/list?n=<integer>&last=<integer> 200 404
end-9 DELETE /v2/<name>/manifests/<reference> 202 404/400/405
end-10 DELETE /v2/<name>/blobs/<digest> 202 404/405
end-11 POST /v2/<name>/blobs/uploads/?mount=<digest>&from=<other_name> 201 404
end-12a GET /v2/<name>/referrers/<digest> 200 404/400
end-12b GET /v2/<name>/referrers/<digest>?artifactType=<artifactType> 200 404/400
end-13 GET /v2/<name>/blobs/uploads/<reference> 204 404

In OCI, files are (cryptically) called "blobs". In order to figure out the file that we want to download, we must first reference the list of files (called a "manifest").

The above table shows us how we can download a list of files (manifest) and then download the actual file (blob).

Examples

Let's look at how to download files from a couple different OCI registries:

  1. Docker Hub
  2. GitHub Packages

Docker Hub

To see the full example of downloading images from docker hub, click here

GitHub Packages

To see the full example of downloading files from GitHub Packages, click here.

Why?

I wrote this article because many, many folks have inquired about how to manually download files from OCI registries on the Internet, but their simple queries are usually returned with a barrage of useless counter-questions: why the heck would you want to do that!?!

The answer is varied.

Some people need to get files onto a restricted environment. Either their org doesn't grant them permission to install software on the machine, or the system has firewall-restricted internet access -- or doesn't have internet access at all.

3TOFU

Personally, the reason that I wanted to be able to download files from an OCI registry was for 3TOFU.

Verifying Unsigned Releases with 3TOFU
Verifying Unsigned Releases with 3TOFU

Unfortunaetly, most apps using OCI registries are extremely insecure. Docker, for example, will happily download malicious images. By default, it doesn't do any authenticity verifications on the payloads it downloaded. Even if you manually enable DCT, there's loads of pending issues with it.

Likewise, the macOS package manager brew has this same problem: it will happily download and install malicious code, because it doesn't use cryptography to verify the authenticity of anything that it downloads. This introduces watering hole vulnerabilities when developers use brew to install dependencies in their CI pipelines.

My solution to this? 3TOFU. And that requires me to be able to download the file (for verification) on three distinct linux VMs using curl or wget.

⚠ NOTE: 3TOFU is an approach to harm reduction.

It is not wise to download and run binaries or code whose authenticity you cannot verify using a cryptographic signature from a key stored offline. However, sometimes we cannot avoid it. If you're going to proceed with running untrusted code, then following a 3TOFU procedure may reduce your risk, but it's better to avoid running unauthenticated code if at all possible.

Registry (ab)use

Container registries were created in 2013 to provide a clever & complex solution to a problem: how to package and serve multiple versions of simplified sources to various consumers spanning multiple operating systems and architectures -- while also packaging them into small, discrete "layers".

However, if your project is just serving simple files, then the only thing gained by uploading them to a complex system like a container registry is headaches. Why do developers do this?

In the case of brew, their free hosing provider (JFrog's Bintray) shutdown in 2021. Brew was already hosting their code on GitHub, so I guess someone looked at "GitHub Packages" and figured it was a good (read: free) replacement.

Many developers using Container Registries don't need the complexity, but -- well -- they're just using it as a free place for their FOSS project to store some files, man.

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Do you have an AMD aura GPU? Do you also use Linux? There's this this driver that needs to be tested.

It allows you to control the lighting of the GPU using programs like openRGB.

I wrote that PR that should make it work for more GPUs, but I only have an RX 480 so I can only test that one. It would be useful to try it on a Vega gpu.

If you have an rDNA 1/2/3 GPU, it most likely won't work, but without the card there's nothing I can do.

On a side note, if you are interested in maintaining the driver it would be great.

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Detailed issue

Basically Kwin and other programs (simple xdg-desktop-portal or even gimp) crash and they bork the entire screen with no recovery other than rebooting. When the program that crash is Kwin it's particularly bad because it happens at login.

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Take note of the quote in the article...


OP/bug finder here with some clarifying information. It's a common misconception that this issue can only be abused if you use HTTP boot. That is not the case at all, otherwise it wouldn't be Critical. This bug can be abused locally (privileged malware can overwrite the EFI partition), from an adjacent network if PXE boot is enabled (w/ MiTM), or remotely if HTTP boot is used (w/ MiTM).

More details on these scenarios:

  1. A remote attacker with no privileges in a man-in-the-middle (MitM) position could leverage the issue against a victim machine that uses HTTP boot. No direct access to the victim machine is required.

  2. A remote attacker with privileges and code execution on the victim machine could leverage the issue to bypass Secure Boot, even if the victim does not already use HTTP boot (as long as firmware has HTTP support). How? Several ways:

  • An attacker can edit the boot order variable to specify a controlled attacker server.

  • An attacker can chain shim->GRUB2->shim (via HTTP). For this technique, an attacker would overwrite the boot loader in the EFI partition to a legitimate shim and GRUB2 image. The attacker would create a grub.cfg that chainloads a new shim via HTTP. This is possible because GRUB2's device syntax allows you to specify any supported device, including HTTP (if available).

  1. An adjacent attacker with no privileges in a man-in-the-middle (MitM) position could leverage the issue against a victim machine that uses PXE boot. PXE is separate from HTTP boot, but similar to the local vector, an attacker can chain together shim (via PXE)->GRUB2 (via PXE)->shim (via HTTP).
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