The Fedora Project is pleased to announce the immediate availability of Fedora Linux 35 Beta, the next step towards our planned Fedora Linux 35 release at the end of October.

Download the prerelease from our Get Fedora site:

• Get Fedora 35 Workstation Beta 
• Get Fedora 35 Server Beta
• Get Fedora 35 IoT Beta

Or, check out one of our popular variants, including KDE Plasma, Xfce, and other desktop environments, as well as images for ARM devices like the Raspberry Pi 2 and 3:

• Get Fedora Spins 35 Beta
• Get Fedora Labs 35 Beta
• Get Fedora Linux 35 Beta for ARM

Beta Release Highlights

Fedora Workstation

Fedora 35 Workstation Beta includes GNOME 41, the newest release of the GNOME desktop environment. GNOME 41 includes a redesigned Software application that makes it easier to find and install the tools you need. And now when you enable third-party repositories during installation, you’ll get access to flatpaks from Flathub to supplement the Fedora repository. Fedora 35 Workstation also includes power-profiles-daemon, which allows you to choose between optimizing for system performance or battery life.

Other updates

New in this release is Fedora Kinoite—a KDE Plasma environment based on rpm-ostree technology. Like Fedora Silverblue, Kinoite provides atomic updates and an immutable operating system for increased reliability.

Fedora Linux 35 builds on the switch to PipeWire for managing audio by introducing WirePlumber as the default session manager. WirePlumber enables customization of rules for routing streams to and from devices.

Of course, there’s the usual update of programming languages and libraries: Python 3.10, Perl 5.34, PHP 8.0 and more!

Testing needed

Since this is a Beta release, we expect that you may encounter bugs or missing features. To report issues encountered during testing, contact the Fedora QA team via the test mailing list or in the #fedora-qa channel on Libera.chat. As testing progresses, common issues are tracked on the Common F35 Bugs page.

For tips on reporting a bug effectively, read how to file a bug.

What is the Beta Release?

A Beta release is code-complete and bears a very strong resemblance to the final release. If you take the time to download and try out the Beta, you can check and make sure the things that are important to you are working. Every bug you find and report doesn’t just help you, it improves the experience of millions of Fedora Linux users worldwide! Together, we can make Fedora rock-solid. We have a culture of coordinating new features and pushing fixes upstream as much as we can. Your feedback improves not only Fedora Linux, but the Linux ecosystem and free software as a whole.

More information

For more detailed information about what’s new on Fedora Linux 35 Beta release, you can consult the Fedora Linux 35 Change set. It contains more technical information about the new packages and improvements shipped with this release.

As the title implies this article will be covering Bash Shell Scripting at a beginner level. I’m not going to review the history of Bash but there are many resources to fill you in or you can visit the GNU project at https://www.gnu.org/software/bash/. We will start out with understanding some very basic concepts and then start to put things together.

Creating a script file

The first thing to do is create a script file. First make sure the home directory is the current directory.

cd ~

In the home directory, create the example file. This can be named anything but learnToScript.sh will be used in this article.

touch learnToScript.sh

From this point there will be a file called learnToScript.sh in your home directory. Verify it exists and also notice the privileges for that file are -rw-rw-r– by typing the following.

ls -l

[zexcon@trinity ~]$ ls -l
total 7
drwxr-xr-x. 1 zexcon zexcon   90 Aug 30 13:08 Desktop
drwxr-xr-x. 1 zexcon zexcon   80 Sep 16 08:53 Documents
drwxr-xr-x. 1 zexcon zexcon 1222 Sep 16 08:53 Downloads
-rw-rw-r--. 1 zexcon zexcon   70 Sep 17 10:10 learnToScript.sh
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Music
drwxr-xr-x. 1 zexcon zexcon  318 Sep 15 13:53 Pictures
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Public
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Videos
[zexcon@trinity ~]$ 

There is one more thing that needs to be done to get started. Let’s try and execute the script with nothing written in it. Type the following:

./learnToScript.sh

[zexcon ~]$ ./learnToScript.sh
bash: ./learnToScript.sh: Permission denied

You get permission denied because there are no execute permissions on the file. You need to change the permissions of the file to be able to execute the script. If you are not familiar with permissions I would recommend reading the Fedora Magazine articles written by Paul W. Frields:

Command line quick tips: Permissions

Command line quick tips: More about permissions

At this point you’ve brushed up on permissions, so back to the terminal and let’s change the learnToScript.sh file so it will execute. Type in the following to allow execution of the file.

chmod 755 learnToScript.sh

[zexcon@trinity ~]$ ls -l
total 7
drwxr-xr-x. 1 zexcon zexcon   90 Aug 30 13:08 Desktop
drwxr-xr-x. 1 zexcon zexcon   80 Sep 16 08:53 Documents
drwxr-xr-x. 1 zexcon zexcon 1222 Sep 16 08:53 Downloads
-rwxr-xr-x. 1 zexcon zexcon   70 Sep 17 10:10 learnToScript.sh
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Music
drwxr-xr-x. 1 zexcon zexcon  318 Sep 15 13:53 Pictures
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Public
drwxr-xr-x. 1 zexcon zexcon    0 Jul  7 16:04 Videos
[zexcon@trinity ~]$ 

Okay now you’re ready, you have read, write and execute permissions (-rwxr-x r-x) to the learnToScript.sh command.

Editing a script file

Take a moment and make certain you are familiar with vim or any text editor. Throughout this article I will be utilizing vim. At the command prompt type the following:

vim learnToScript.sh

This will bring you to an empty text file with a bunch of tildes in it. Type i on your keyboard and this will move you into — INSERT — mode. You can see it’s in this mode by looking at the bottom left of the terminal window. (Note that an alternative editor is the nano editor.)

From here you need to make sure that the file is recognized by the correct interpreter. So enter the shebang ( #! ) and the directory to your bash, /bin/bash:

#!/bin/bash

One last thing that you will use throughout the article is saving the document. Hit Esc to leave input mode, then Shift + Colon. At the colon you will enter wq. This will write(w) the file and quit(q) vim once you hit enter.

A few things to remember while using vim, anytime you want to write into a document you need to enter i and you will see –INSERT– at the bottom. Anytime you want to save, you will need to hit Esc to leave input mode, and then Shift+: to enter w to write the file or Esc then Shift+: to enter q to quit and not save. Or add both wq together and it will write and close. Esc by itself will exit INSERT mode. You can find much more about vim at it’s website or this get started site.

Lets start scripting…

echo

The echo command is used to return something to the terminal. You will notice that you can use single quotes, double quotes or no quotes. So let’s take a look at it with a traditional Hello World!

#!/bin/bash

echo Hello World!
echo 'Hello World!'
echo "Hello World!"

[zexcon ~]$ ./learnToScript.sh
Hello World!
Hello World!
Hello World!
[zexcon ~]$ 

Notice that you get the same result with all three options. This is not always the case but in this basic script it is. In some circumstances the type of quotes will make a difference. By the way, congratulations you have written your first Bash script. Let’s look at a few things that you will want to know as you continue to create more scripts and let your mind run wild.

Command Substitution $( ) or ` `

Command substitution allows you to get the results of a command you might execute at the command line and write that result to a variable. For example if you type ls at the command prompt you will get a list of the current working directory. So let’s put this into practice. You have two options for command substitution. Note that the first option uses a back tick found above the Tab key on the left side of the keyboard. It is paired with the tilde ~ key. The second option uses a shell variable.

#!/bin/bash

command1=`ls`
echo $command1

command2=$(ls)
echo $command2

[zexcon ~]$ ./learnToScript.sh 
Desktop Documents Downloads learnToScript.sh Music Pictures Public snap Videos
Desktop Documents Downloads learnToScript.sh Music Pictures Public snap Videos
[zexcon ~]$ 

Notice no space between the variable, equal sign, and the start of the command. You get the exact same result with both options. Note that variables need to be led by a dollar sign. If you forget and you echo out the command variable without the dollar sign you will just see the name of the command as shown in the next example.

#!/bin/bash

command1=`ls`
echo command1

command2=$(ls)
echo command2

[zexcon ~]$ ./learnToScript.sh 
command1
command2
[zexcon ~]$

Double Parentheses (())

So what are double parentheses for? Double parentheses are simple, they are for mathematical equations.

#!/bin/bash

echo $((5+3)) 
echo $((5-3)) 
echo $((5*3)) 
echo $((5/3)) 

[zexcon ~]$ ./learnToScript.sh 
8
2
15
1
[zexcon ~]$

Conclusion

At this point we have created our first script. We have an idea how to take several commands, place them in a script and run it to get the results. We will continue this discussion in the next article and look at redirection of input and output, the pipe command, using double brackets or maybe just adding some comments.

In the previous post, Install PowerShell on Fedora Linux, we went through different ways to install PowerShell on Fedora Linux and explained the basics of PowerShell. This post gives you an overview of PowerShell and a comparison to POSIX-compliant shells.

Table of contents

• Differences at first glance — Usability
  • Speed and efficiency
    • Aliases
    • Custom aliases
• Differences between POSIX Shells — Char-stream vs. Object-stream
  • To filter for something
  • Output formatting
    • Field separators, column-counting and sorting
    • Getting rid of fields and formatting a nice table
    • How it’s done in PowerShell
• Remote Administration with PowerShell — PowerShell-Sessions on Linux!?
  • Background
  • What this is good for
• Conclusion

Differences at first glance — Usability

One of the very first differences to take note of when using PowerShell for the first time is semantic clarity.

Most commands in traditional POSIX shells, like the Bourne Again Shell (BASH), are heavily abbreviated and often require memorizing.

Commands like awk, ps, top or even ls do not communicate what they do with their name. Only when one already does know what they do, do the names start to make sense. Once I know that ls lists files the abbreviation makes sense.

In PowerShell on the other hand, commands are perfectly self-descriptive. They accomplish this by following a strict naming convention.

Commands in PowerShell are called “cmdlets” (pronounced commandlets). These always follow the scheme of Verb-Noun.

One example: To get all files or child-items in a directory I tell PowerShell like this:

PS > Get-ChildItem

    Directory: /home/Ozymandias42

Mode                 LastWriteTime         Length Name
----                 -------------         ------ ----
d----          14/04/2021    08:11                Folder1
d----          13/04/2021    11:55                Folder2

An Aside:
The cmdlet name is Get-ChildItem not Items. This is in acknowledgement of Set-theory. Each of the standard cmdlets return a list or a set of results. The number of items in a set —mathematicians call this the sets cardinality— can be 0, 1 or any arbitrary natural number, meaning the set can be empty, contain exactly one result or many results. The reason for this, and why I stress this here, is because the standard cmdlets also implicitly implement a ForEach-Loop for any results they return. More about this later.

Speed and efficiency

Aliases

You might have noticed that standard cmdlets are long and can therefore be time consuming when writing scripts. However, many cmdlets are aliased and don’t necessarily depend on the case, which mitigates this problem.

Let’s write a script with unaliased cmdlets as an example:

PS > Get-Process | ForEach-Object {Write-Host $_.Name -ForegroundColor Cyan}

This lists the name of running processes in cyan. As you can see, many characters are in upper case and cmdlets names are relatively long. Let’s shorten them and replace upper case letters to make the script easier to type:

PS > gps | foreach {write-host $_.name -foregroundcolor cyan}

This is the same script but with greatly simplified input.

To see the full list of aliased cmdlets, type Get-Alias.

Custom aliases

Just like any other shell, PowerShell also lets you set your own aliases by using the Set-Alias cmdlet. Let’s alias Write-Host to something simpler so we can make the same script even easier to type:

PS > Set-Alias -Name wh -Value Write-Host

Here, we aliased wh to Write-Host to increase typebility. When setting aliases, -Name indicates what you want the alias to be and -Value indicates what you want to alias to.

Let’s see how it looks now:

PS > gps | foreach {wh $_.name -foregroundcolor cyan}

You can see that we already made the script easier to type. If we wanted, we could also alias ForEach-Object to fe, but you get the gist.

If you want to see the properties of an alias, you can type Get-Alias. Let’s check the properties of the alias wh using the Get-Alias cmdlet:

PS > Get-Alias wh

CommandType     Name                  Version    Source
-----------     ----                  -------    ------
Alias           wh -> Write-Host                       

Autocompletion and suggestions

PowerShell suggests cmdlets or flags when you press the Tab key twice, by default. If there is nothing to suggest, PowerShell automatically completes to the cmdlet.

Differences between POSIX Shells — Char-stream vs. Object-stream

Any scripting will eventually string commands together via pipe | and soon come to notice a few key differences.

In bash what is moved from one command to the next through a pipe is just a string of characters. However, in PowerShell this is not the case.

In PowerShell, every cmdlet is aware of data structures and objects. For example, a structure like this:

{
  firstAuthor=Ozy,
  secondAuthor=Skelly
}

This data is kept as-is even if a command, used alone, would have presented this data as follows:

AuthorNr.  AuthorName
1          Ozy
2          Skelly

In bash, on the other hand, that formatted output would need to be created by parsing with helper tools like awk or cut first, to be usable with a different command.

PowerShell does not require this parsing since the underlying structure is sent when using a pipe rather than the formatted output shown without. So the command authorObject | doThingsWithSingleAuthor firstAuthor is possible.

The following examples shall further illustrate this.

Beware: This will get fairly technical and verbose. Skip if satisfied already.

A few of the most often used constructs to illustrate the advantage of PowerShell over bash, when using pipes, are to:

• filter for something
• format output
• sort output

When implementing these in bash there are a few things that will re-occur time and time again.
The following sections will exemplarise these constructs and their variants in bash and contrast them with their PowerShell equivalents.

To filter for something

Let’s say you want to see all processes matching the name ssh-agent.
In human thinking terms you know what you want.

1. Get all processes
2. Filter for all processes that match our criteria
3. Print those processes

To apply this in bash we could do it in two ways.

The first one, which most people who are comfortable with bash might use is this one:

$ ps -p $(pgrep ssh-agent)

At first glance this is straight forward. ps get’s all processes and the -p flag tells it to filter for a given list of pids.
What the veteran bash user might forget here however is that this might read this way but is not actually run as such. There’s a tiny but important little thing called the order of evaluation.

$() is a subshell. A subshell is run, or evaluated, first. This means the list of pids to filter again is first and the result is then returned in place of the subshell for the waiting outer command ps to use.

This means it is written as:

1. Print processes
2. Filter Processes

but evaluated the other way around. It also implicitly combines the original steps 2. and 3.

A less often used variant that more closely matches the human thought pattern and evaluation order is:

$ pgrep ssh-agent | xargs ps

The second one still combines two steps, the steps 1. and 2. but follows the evaluation logic a human would think of.

The reason this variant is less used is that ominous xargs command. What this basically does is to append all lines of output from the previous command as a single long line of arguments to the command followed by it. In this case ps.

This is necessary because pgrep produces output like this:

$ pgrep bash
14514
15308

When used in conjunction with a subshell ps, might not care about this but when using pipes to approximate the human evaluation order this becomes a problem.

What xargs does, is to reduce the following construct to a single command:

$ for i in $(pgrep ssh-agent); do ps $i ; done

Okay. Now we have talked a LOT about evaluation order and how to do it in bash in different ways with different evaluation orders of the three basic steps we outlined.

So with this much preparation, how does PowerShell handle it?

PS > Get-Process | Where-Object Name -Match ssh-agent

Completely self-descriptive and follows the evaluation order of the steps we outlined perfectly. Also do take note of the absence of xargs or any explicit for-loop.

As mentioned in our aside a few hundred words back, the standard cmdlets all implement ForEach internally and do it implicitly when piped input in list-form.

Output formatting

This is where PowerShell really shines. Consider a simple example to see how it’s done in bash first. Say we want to list all files in a directory sorted by size from the biggest to the smallest and listed as a table with filename, size and creation date. Also let’s say we have some files with long filenames in there and want to make sure we get the full filename no matter how big our terminal.

Field separators, column-counting and sorting

Now the first obvious step is to run ls with the -l flag to get a list with not just the filenames but the creation date and the file sizes we need to sort against too.

We will get a more verbose output than we need. Like this one:

$ ls -l
total 148692
-rwxr-xr-x 1 root root      51984 May 16  2020 [
-rwxr-xr-x 1 root root     283728 May  7 18:13 appdata2solv
lrwxrwxrwx 1 root root          6 May 16  2020 apropos -> whatis
-rwxr-xr-x 1 root root      35608 May 16  2020 arch
-rwxr-xr-x 1 root root      14784 May 16  2020 asn1Coding
-rwxr-xr-x 1 root root      18928 May 16  2020 asn1Decoding
[not needed] [not needed]

What is apparent is, that to get the kind of output we want we have to get rid of the fields marked [not needed] in the above example but that’s not the only thing needing work. We also need to sort the output so that the biggest file is the first in the list, meaning reverse sort…

This, of course, can be done in multiple ways but it only shows again, how convoluted bash scripts can get.

We can either sort with the ls tool directly by using the -r flag for reverse sort, and the –sort=size flag for sort by size, or we can pipe the whole thing to sort and supply that with the -n flag for numeric sort and the -k 5 flag to sort by the fifth column.

Wait! fifth ? Yes. Because this too we would have to know. sort, by default, uses spaces as field separators, meaning in the tabular output of ls -l the numbers representing the size is the 5th field.

Getting rid of fields and formatting a nice table

To get rid of the remaining fields, we once again have multiple options. The most straightforward option, and most likely to be known, is probably cut. This is one of the few UNIX commands that is self-descriptive, even if it’s just because of the natural brevity of it’s associated verb. So we pipe our results, up to now, into cut and tell it to only output the columns we want and how they are separated from each other.

cut -f5- -d” “ will output from the fifth field to the end. This will get rid of the first columns.

   283728 May  7 18:13 appdata2solv
    51984 May 16  2020 [
    35608 May 16  2020 arch
    14784 May 16  2020 asn1Coding
        6 May 16  2020 apropos -> whatis

This is till far from how we wanted it. First of all the filename is in the last column and then the filesize is in the Human unfriendly format of blocks instead of KB, MB, GB and so on. Of course we could fix that too in various ways at various points in our already long pipeline.

All of this makes it clear that transforming the output of traditional UNIX commands is quite complicated and can often be done at multiple points in the pipeline.

How it’s done in PowerShell

PS > Get-ChildItem  
| Sort-Object Length -Descending 
| Format-Table -AutoSize 
    Name, 
    @{Name="Size"; Expression=
        {[math]::Round($_.Length/1MB,2).toString()+" MB"} 
    },
    CreationTime
#Reformatted over multiple lines for better readability.

The only actual output transformation being done here is the conversion and rounding of bytes to megabytes for better human readability. This also is one of the only real weaknesses of PowerShell, that it lacks a simple mechanism to get human readable filesizes.

That part aside it’s clear, that Format-Table allows you to simply list the columns wanted by their names in the order you want them.

This works because of the aforementioned object-nature of piped data-streams in PowerShell. There is no need to cut apart strings by delimiters.

Remote Administration with PowerShell — PowerShell-Sessions on Linux!?

Background

Remote administration via PowerShell on Windows has traditionally always been done via Windows Remoting, using the WinRM protocol.

With the release of Windows 10, Microsoft has also offered a Windows native OpenSSH Server and Client.

Using the SSH Server alone on Windows provides the user a CMD prompt unless the default system Shell is changed via a registry key.

A more elegant option is to make use of the Subsystem facility in sshd_config. This makes it possible to configure arbitrary binaries as remote-callable subsystems instead of the globally configured default shell.

By default there is usually one already there. The sftp subsystem.

To make PowerShell available as Subsystem one simply needs to add it like so:

Subsystem powershell /usr/bin/pwsh -sshs --noprofile --nologo

This works —with the correct paths of course— on all OS’ PowerShell Core is available for. So that means Windows, Linux, and macOS.

What this is good for

It is now possible to open a PowerShell (Remote) Session to a properly configured SSH-enabled Server by doing this:

PS > Enter-PSSession 
    -HostName <target-HostName-or-IP> 
    -User <targetUser> 
    -IdentityFilePath <path-to-id_rsa-file>
    ...
    <-SSHTransport>

What this does is to register and enter an interactive PSSession with the Remote-Host. By itself this has no functional difference from a normal SSH-session. It does, however, allow for things like running scripts from a local host on remote machines via other cmdlets that utilise the same subsystem.

One such example is the Invoke-Command cmdlet. This becomes especially useful, given that Invoke-Command has the -AsJob flag.

What this enables is running local scripts as batchjobs on multiple remote servers while using the local Job-manager to get feedback about when the jobs have finished on the remote machines.

While it is possible to run local scripts via ssh on remote hosts it is not as straight forward to view their progress and it gets outright hacky to run local scripts remotely. We refrain from giving examples here, for brevity’s sake.

With PowerShell, however, this can be as easy as this:

$listOfRemoteHosts | Invoke-Command 
    -HostName $_ 
    -FilePath /home/Ozymandias42/Script2Run-Remotely.ps1 
    -AsJob

Overview of the running tasks is available by doing this:

PS > Get-Job

Id     Name            PSJobTypeName   State         HasMoreData     Location             Command
--     ----            -------------   -----         -----------     --------             -------
1      Job1            BackgroundJob   Running       True            localhost            Microsoft.PowerShe…

Jobs can then be attached to again, should they require manual intervention, by doing Receive-Job <JobName-or-JobNumber>.

Conclusion

In conclusion, PowerShell applies a fundamentally different philosophy behind its syntax in comparison to standard POSIX shells like bash. Of course, for bash, it’s historically rooted in the limitations of the original UNIX. PowerShell provides better semantic clarity with its cmdlets and outputs which means better understandability for humans, hence easier to use and learn. PowerShell also provides aliased cmdlets in the case of unaliased cmdlets being too long. The main difference is that PowerShell is object-oriented, leading to elimination of input-output parsing. This allows PowerShell scripts to be more concise.

In the Fedora Project community, we look at open source as not only code that can change how we interact with computers, but also as a way for us to positively influence and shape the future. The more hands that help shape a project, the more ideas, viewpoints and experiences the project represents — that’s truly what the spirit of open source is built from.

But it’s not just the global contributors to the Fedora Project who feel this way. August 2021 saw Fedora Linux recognized as a digital public good by the Digital Public Goods Alliance (DPGA), a significant achievement and a testament to the openness and inclusivity of the project.

We know that digital technologies can save lives, improve the well-being of billions, and contribute to a more sustainable future. We also know that in tackling those challenges, Open Source is uniquely positioned in the world of digital solutions by inherently welcoming different ideas and perspectives critical to lasting success.

But, we also know that many regions and countries around the world do not have access to those technologies. Open Source technologies can be the difference between achieving the Sustainable Development Goals (SDGs) by 2030 or missing the targets. Projects like Fedora Linux, which represent much more than code itself, are the game-changers we need. Already, individuals, organizations, governments, and Open Source communities, including the Fedora Project’s own, are working to make sure the potential of Open Source is realized and equipped to take on the monumental challenges being faced.

The Digital Public Goods Alliance is a multi-stakeholder initiative, endorsed by the United Nations Secretary-General. It works to accelerate the attainment of the SDGs in low- and middle-income countries by facilitating the discovery, development, use of, and investment in digital public goods (DPGs). DPGs are Open Source software, open data, open AI models, open standards, and open content that adhere to privacy and other applicable best practices, and do no harm. This definition, drawn from the UN Secretary-General’s 2020 Roadmap for Digital Cooperation, serves as the foundation of the DPG Registry, an online repository for DPGs. 

The DPG Registry was created to help increase the likelihood of discovery, and therefore use of, DPGs. Today, we are excited to share that Fedora Linux was added to the DPG Registry! Recognition as a DPG increases the visibility, support for, and prominence of open projects that have the potential to tackle global challenges. To become a digital public good, all projects are required to meet the DPG Standard to ensure they truly encapsulate Open Source principles. 

As an Open Source leader, Fedora Linux can make achieving the SDGs a reality through its role as a convener of many Open Source “upstream” communities. In addition to providing a fully-featured desktop, server, cloud, and container operating system, it also acts as a platform where different Open Source software and work come together. Fedora Linux by default only ships its releases with purely Open Source software packages and components. While third-party repositories are available for use with proprietary packages or closed components, Fedora Linux is a complete offering with some of the greatest innovations that Open Source has to offer. Collectively this means Fedora Linux can act as a gateway, empowering the creation of more and better solutions to better tackle the challenges they are trying to address.

The DPG designation also aligns with Fedora’s fundamental foundations:

• Freedom: Fedora Linux was built as Free and Open Source Software from the beginning. Fedora Linux only ships and distributes Free Software from its default repositories. Fedora Linux already uses widely-accepted Open Source licenses.
• Friends: Fedora has an international community of hundreds spread across six continents. The Fedora Community is strong and well-positioned to scale as the upstream distribution of the world’s most-widely used enterprise flavor of Linux.
• Features: Fedora consistently delivers on innovation and features in Open Source. Fedora Linux 34 was a record-breaking release, with 63 new approved Changes in the last release.
• First: Fedora leverages its unique position and resources in the Free Software world to deliver on innovation. New ideas and features are tried out in the Fedora Community to discover what works, and what doesn’t. We have many stories of both.

For us, recognition as a digital public good brings honor and is a great moment for us, as a community, to reaffirm our commitment to contribute and grow the Open Source ecosystem.

This is a proud moment for each Fedora Community member because we are making a difference. Our work matters and has value in creating an equitable world; this is a fantastic and important feeling.

If you have an interest in learning more about the Digital Public Goods Alliance please reach out to hello@digitalpublicgoods.net.