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Record your terminal with script and scriptreplay

Creating documentation? Make an instant, editable video of your terminal to demo a process with these Linux commands.

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How Podman can extract a container’s external IP address

You can get external IP addresses for both rootfull and rootless containers with Podman.

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Classic SysAdmin: How to Check Disk Space on Linux from the Command Line

This is a classic article written by Jack Wallen from the Linux.com archives. For more great SysAdmin tips and techniques check out our free intro to Linux course.

Quick question: How much space do you have left on your drives? A little or a lot? Follow up question: Do you know how to find out? If you happen to use a GUI desktop (e.g., GNOME, KDE, Mate, Pantheon, etc.), the task is probably pretty simple. But what if you’re looking at a headless server, with no GUI? Do you need to install tools for the task? The answer is a resounding no. All the necessary bits are already in place to help you find out exactly how much space remains on your drives. In fact, you have two very easy-to-use options at the ready.

In this article, I’ll demonstrate these tools. I’ll be using Elementary OS, which also includes a GUI option, but we’re going to limit ourselves to the command line. The good news is these command-line tools are readily available for every Linux distribution. On my testing system, there are a number of attached drives (both internal and external). The commands used are agnostic to where a drive is plugged in; they only care that the drive is mounted and visible to the operating system.

With that said, let’s take a look at the tools.

df

The df command is the tool I first used to discover drive space on Linux, way back in the 1990s. It’s very simple in both usage and reporting. To this day, df is my go-to command for this task. This command has a few switches but, for basic reporting, you really only need one. That command is df -H. The -H switch is for human-readable format. The output of df -H will report how much space is used, available, percentage used, and the mount point of every disk attached to your system (Figure 1).

 

Figure 1: The output of df -H on my Elementary OS system.

What if your list of drives is exceedingly long and you just want to view the space used on a single drive? With df, that is possible. Let’s take a look at how much space has been used up on our primary drive, located at /dev/sda1. To do that, issue the command:

df -H /dev/sda1

The output will be limited to that one drive (Figure 2).

Figure 2: How much space is on one particular drive?

You can also limit the reported fields shown in the df output. Available fields are:

source — the file system source

size — total number of blocks

used — spaced used on a drive

avail — space available on a drive

pcent — percent of used space, divided by total size

target — mount point of a drive

Let’s display the output of all our drives, showing only the size, used, and avail (or availability) fields. The command for this would be:

df -H –output=size,used,avail

The output of this command is quite easy to read (Figure 3).

Figure 3: Specifying what output to display for our drives.

The only caveat here is that we don’t know the source of the output, so we’d want to include source like so:

df -H –output=source,size,used,avail

Now the output makes more sense (Figure 4).

Figure 4: We now know the source of our disk usage.

du

Our next command is du. As you might expect, that stands for disk usage. The du command is quite different to the df command, in that it reports on directories and not drives. Because of this, you’ll want to know the names of directories to be checked. Let’s say I have a directory containing virtual machine files on my machine. That directory is /media/jack/HALEY/VIRTUALBOX. If I want to find out how much space is used by that particular directory, I’d issue the command:

du -h /media/jack/HALEY/VIRTUALBOX

The output of the above command will display the size of every file in the directory (Figure 5).

Figure 5: The output of the du command on a specific directory.

So far, this command isn’t all that helpful. What if we want to know the total usage of a particular directory? Fortunately, du can handle that task. On the same directory, the command would be:

du -sh /media/jack/HALEY/VIRTUALBOX/

Now we know how much total space the files are using up in that directory (Figure 6).

Figure 6: My virtual machine files are using 559GB of space.

You can also use this command to see how much space is being used on all child directories of a parent, like so:

du -h /media/jack/HALEY

The output of this command (Figure 7) is a good way to find out what subdirectories are hogging up space on a drive.

Figure 7: How much space are my subdirectories using?

The du command is also a great tool to use in order to see a list of directories that are using the most disk space on your system. The way to do this is by piping the output of du to two other commands: sort and head. The command to find out the top 10 directories eating space on a drive would look something like this:

du -a /media/jack | sort -n -r | head -n 10

The output would list out those directories, from largest to least offender (Figure 8).

Figure 8: Our top ten directories using up space on a drive.

Not as hard as you thought

Finding out how much space is being used on your Linux-attached drives is quite simple. As long as your drives are mounted to the Linux system, both df and du will do an outstanding job of reporting the necessary information. With df you can quickly see an overview of how much space is used on a disk and with du you can discover how much space is being used by specific directories. These two tools in combination should be considered must-know for every Linux administrator.

And, in case you missed it, I recently showed how to determine your memory usage on Linux. Together, these tips will go a long way toward helping you successfully manage your Linux servers.

The post Classic SysAdmin: How to Check Disk Space on Linux from the Command Line appeared first on Linux Foundation.

Classic SysAdmin: Understanding Linux File Permissions

This is a classic article written by Jack Wallen from the Linux.com archives. For more great SysAdmin tips and techniques check out our free intro to Linux course.

Although there are already a lot of good security features built into Linux-based systems, one very important potential vulnerability can exist when local access is granted – – that is file permission-based issues resulting from a user not assigning the correct permissions to files and directories. So based upon the need for proper permissions, I will go over the ways to assign permissions and show you some examples where modification may be necessary.

Permission Groups

Each file and directory has three user based permission groups:

owner – The Owner permissions apply only to the owner of the file or directory, they will not impact the actions of other users.group – The Group permissions apply only to the group that has been assigned to the file or directory, they will not affect the actions of other users.all users – The All Users permissions apply to all other users on the system, this is the permission group that you want to watch the most.

Permission Types

Each file or directory has three basic permission types:

read – The Read permission refers to a user’s capability to read the contents of the file.write – The Write permissions refer to a user’s capability to write or modify a file or directory.execute – The Execute permission affects a user’s capability to execute a file or view the contents of a directory.

Viewing the Permissions

You can view the permissions by checking the file or directory permissions in your favorite GUI File Manager (which I will not cover here) or by reviewing the output of the “ls -l” command while in the terminal and while working in the directory which contains the file or folder.

The permission in the command line is displayed as: _rwxrwxrwx 1 owner:group

User rights/PermissionsThe first character that I marked with an underscore is the special permission flag that can vary.The following set of three characters (rwx) is for the owner permissions.The second set of three characters (rwx) is for the Group permissions.The third set of three characters (rwx) is for the All Users permissions.Following that grouping since the integer/number displays the number of hardlinks to the file.The last piece is the Owner and Group assignment formatted as Owner:Group.

Modifying the Permissions

When in the command line, the permissions are edited by using the command chmod. You can assign the permissions explicitly or by using a binary reference as described below.

Explicitly Defining Permissions

To explicitly define permissions you will need to reference the Permission Group and Permission Types.

The Permission Groups used are:

u – Ownerg – Groupo – Othersa – All users

The potential Assignment Operators are + (plus) and – (minus); these are used to tell the system whether to add or remove the specific permissions.

The Permission Types that are used are:

r – Readw – Writex – Execute

So for example, let’s say I have a file named file1 that currently has the permissions set to _rw_rw_rw, which means that the owner, group, and all users have read and write permission. Now we want to remove the read and write permissions from the all users group.

To make this modification you would invoke the command: chmod a-rw file1
To add the permissions above you would invoke the command: chmod a+rw file1

As you can see, if you want to grant those permissions you would change the minus character to a plus to add those permissions.

Using Binary References to Set permissions

Now that you understand the permissions groups and types this one should feel natural. To set the permission using binary references you must first understand that the input is done by entering three integers/numbers.

A sample permission string would be chmod 640 file1, which means that the owner has read and write permissions, the group has read permissions, and all other user have no rights to the file.

The first number represents the Owner permission; the second represents the Group permissions; and the last number represents the permissions for all other users. The numbers are a binary representation of the rwx string.

r = 4w = 2x = 1

You add the numbers to get the integer/number representing the permissions you wish to set. You will need to include the binary permissions for each of the three permission groups.

So to set a file to permissions on file1 to read _rwxr_____, you would enter chmod 740 file1.

Owners and Groups

I have made several references to Owners and Groups above, but have not yet told you how to assign or change the Owner and Group assigned to a file or directory.

You use the chown command to change owner and group assignments, the syntax is simple

chown owner:group filename,

so to change the owner of file1 to user1 and the group to family you would enter chown user1:family file1.

Advanced Permissions

The special permissions flag can be marked with any of the following:

_ – no special permissionsd – directoryl– The file or directory is a symbolic links – This indicated the setuid/setgid permissions. This is not set displayed in the special permission part of the permissions display, but is represented as a s in the read portion of the owner or group permissions.t – This indicates the sticky bit permissions. This is not set displayed in the special permission part of the permissions display, but is represented as a t in the executable portion of the all users permissions

Setuid/Setgid Special Permissions

The setuid/setguid permissions are used to tell the system to run an executable as the owner with the owner’s permissions.

Be careful using setuid/setgid bits in permissions. If you incorrectly assign permissions to a file owned by root with the setuid/setgid bit set, then you can open your system to intrusion.

You can only assign the setuid/setgid bit by explicitly defining permissions. The character for the setuid/setguid bit is s.

So do set the setuid/setguid bit on file2.sh you would issue the command chmod g+s file2.sh.

Sticky Bit Special Permissions

The sticky bit can be very useful in shared environment because when it has been assigned to the permissions on a directory it sets it so only file owner can rename or delete the said file.

You can only assign the sticky bit by explicitly defining permissions. The character for the sticky bit is t.

To set the sticky bit on a directory named dir1 you would issue the command chmod +t dir1.

When Permissions Are Important

To some users of Mac- or Windows-based computers, you don’t think about permissions, but those environments don’t focus so aggressively on user-based rights on files unless you are in a corporate environment. But now you are running a Linux-based system and permission-based security is simplified and can be easily used to restrict access as you please.

So I will show you some documents and folders that you want to focus on and show you how the optimal permissions should be set.

home directories– The users’ home directories are important because you do not want other users to be able to view and modify the files in another user’s documents of desktop. To remedy this you will want the directory to have the drwx______ (700) permissions, so lets say we want to enforce the correct permissions on the user user1’s home directory that can be done by issuing the command chmod 700 /home/user1.bootloader configuration files– If you decide to implement password to boot specific operating systems then you will want to remove read and write permissions from the configuration file from all users but root. To do you can change the permissions of the file to 700.system and daemon configuration files– It is very important to restrict rights to system and daemon configuration files to restrict users from editing the contents, it may not be advisable to restrict read permissions, but restricting write permissions is a must. In these cases it may be best to modify the rights to 644.firewall scripts – It may not always be necessary to block all users from reading the firewall file, but it is advisable to restrict the users from writing to the file. In this case the firewall script is run by the root user automatically on boot, so all other users need no rights, so you can assign the 700 permissions.

Other examples can be given, but this article is already very lengthy, so if you want to share other examples of needed restrictions please do so in the comments.

The post Classic SysAdmin: Understanding Linux File Permissions appeared first on Linux Foundation.

Classic SysAdmin: How to Move Files Using Linux Commands or File Managers

This is a classic article written by Jack Wallen from the Linux.com archives. For more great SysAdmin tips and techniques check out our free intro to Linux course.

There are certain tasks that are done so often, users take for granted just how simple they are. But then, you migrate to a new platform and those same simple tasks begin to require a small portion of your brain’s power to complete. One such task is moving files from one location to another. Sure, it’s most often considered one of the more rudimentary actions to be done on a computer. When you move to the Linux platform, however, you may find yourself asking “Now, how do I move files?”

If you’re familiar with Linux, you know there are always many routes to the same success. Moving files is no exception. You can opt for the power of the command line or the simplicity of the GUI – either way, you will get those files moved.

Let’s examine just how you can move those files about. First, we’ll examine the command line.

Command line moving

One of the issues so many users new to Linux face is the idea of having to use the command line. It can be somewhat daunting at first. Although modern Linux interfaces can help to ensure you rarely have to use this “old school” tool, there is a great deal of power you would be missing if you ignored it altogether. The command for moving files is a perfect illustration of this.

The command to move files is mv. It’s very simple and one of the first commands you will learn on the platform. Instead of just listing out the syntax and the usual switches for the command – and then allowing you to do the rest – let’s walk through how you can make use of this tool.

The mv command does one thing – it moves a file from one location to another. This can be somewhat misleading because mv is also used to rename files. How? Simple. Here’s an example. Say you have the file testfile in /home/jack/ and you want to rename it to testfile2 (while keeping it in the same location). To do this, you would use the mv command like so:

mv /home/jack/testfile /home/jack/testfile2

or, if you’re already within /home/jack:

mv testfile testfile2

The above commands would move /home/jack/testfile to /home/jack/testfile2 – effectively renaming the file. But what if you simply wanted to move the file? Say you want to keep your home directory (in this case /home/jack) free from stray files. You could move that testfile into /home/jack/Documents with the command:

mv /home/jack/testfile /home/jack/Documents/

With the above command, you have relocated the file into a new location, while retaining the original file name.

What if you have a number of files you want to move? Luckily, you don’t have to issue the mv command for every file. You can use wildcards to help you out. Here’s an example:

You have a number of .mp3 files in your ~/Downloads directory (~/ – is an easy way to represent your home directory – in our earlier example, that would be /home/jack/) and you want them in ~/Music. You could quickly move them with a single command, like so:

mv ~/Downloads/*.mp3 ~/Music/

That command would move every file that ended in .mp3 from the Downloads directory, and move them into the Music directory.

Should you want to move a file into the parent directory of the current working directory, there’s an easy way to do that. Say you have the file testfile located in ~/Downloads and you want it in your home directory. If you are currently in the ~/Downloads directory, you can move it up one folder (to ~/) like so:

mv testfile ../ 

The “../” means to move the folder up one level. If you’re buried deeper, say ~/Downloads/today/, you can still easily move that file with:

mv testfile ../../

Just remember, each “../” represents one level up.

As you can see, moving files from the command line isn’t difficult at all.

GUI

There are a lot of GUIs available for the Linux platform. On top of that, there are a lot of file managers you can use. The most popular file managers are Nautilus (GNOME) and Dolphin (KDE). Both are very powerful and flexible. I want to illustrate how files are moved using the Nautilus file manager.

Nautilus has probably the most efficient means of moving files about. Here’s how it’s done:

Open up the Nautilus file manager.Locate the file you want to move and right-click said file.From the pop-up menu (Figure 1) select the “Move To” option.When the Select Destination window opens, navigate to the new location for the file.Once you’ve located the destination folder, click Select.

This context menu also allows you to copy the file to a new location, move the file to the Trash, and more.

If you’re more of a drag and drop kind of person, fear not – Nautilus is ready to serve. Let’s say you have a file in your home directory and you want to drag it to Documents. By default, Nautilus will have a few bookmarks in the left pane of the window. You can drag the file into the Document bookmark without having to open a second Nautilus window. Simply click, hold, and drag the file from the main viewing pane to the Documents bookmark.

If, however, the destination for that file is not listed in your bookmarks (or doesn’t appear in the current main viewing pane), you’ll need to open up a second Nautilus window. Side by side, you can then drag the file from the source folder in the original window to the destination folder in the second window.

If you need to move multiple files, you’re still in luck. Similar to nearly every modern user interface, you can do a multi-select of files by holding down the Ctrl button as you click each file. After you have selected each file (Figure 2), you can either right-click one of the selected files and then choose the Move To option, or just drag and drop them into a new location.

The selected files (in this case, folders) will each be highlighted.

Moving files on the Linux desktop is incredibly easy. Either with the command line or your desktop of choice, you have numerous routes to success – all of which are user-friendly and quick to master.

The post Classic SysAdmin: How to Move Files Using Linux Commands or File Managers appeared first on Linux Foundation.

Top 10 Ansible tutorials of 2021

Whether you’re new to Ansible or looking to level up your automation skills, you’ll find something of value in 2021’s top Ansible articles.

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Multiculturalism in technology and its limits: AsyncAPI and the long road to open source utopia

“Technology is not neutral. We’re inside of what we make, and it’s inside of us. We’re living in a world of connections – and it matters which ones get made and unmade.” ¬Donna J. Haraway

The body is the best and the only tool that the human being has for life; it is the physical representation of who we are, the container in which we move and represent ourselves. It reflects our identity, the matter that represents us socially.

Human beings have differentiated themselves from other animals by creating tools, using elements that increase their physical and mental capacities, extending their limits, and mediating the way they see and understand the world. The body is, thus, transfixed and intermediated by technology.

In the contemporary era, technological progress has led to global interconnection. Global access to the Internet has become the main propeller of globalization, a democratizing and liberating weapon.

It is a place where the absence of corporeality manages to resituate us all at the same level. It is a pioneering experience in which the medium can favor equality. It offers a space of representation in which anonymity and the absence of gender and ethnic and cultural constraints facilitate equal opportunities.

A temporary autonomous zone

The absence of a previous reference, of a historical past, turned the Internet into a “temporary autonomous zone.” A new space was thus constituted where identities could be expressed and constructed in a freer way. In this way, the Internet has provided oppressed collectives and communities with a means of alleviating cultural and gender biases in which people express themselves free of socio-political pigeonholing.

This same idea can be extrapolated to the new workspaces within technology. The modern workshop is on the network and is interconnected with colleagues who live in any corner of the world. This situation leads us to remote teamwork, multiculturalism, and all the positive aspects of this concept, creating diverse and heterogeneous teams where nationalities, ethnicities, and backgrounds are mixed.

In this idyllic world of the liberation of identities and construction of new spaces to inhabit, the shadows of the physical world, with a dense and unequal past, creep in. Open source projects have faced all these opportunities and constraints in the last years, trying to achieve the goals expressed within the heroic times of the internet in the ’90s.

Opening doors: For whom? For all?

AsyncAPI is an open source initiative sustained and driven by its community. It is a free project whose objective is to be made up of all the people who want to be part of it. It follows the basic idea of being created by everyone for everyone.

Being part of the initiative is simple: join the Slack channel and contribute through GitHub. People join freely and form a team managing to take this project to a high level.

But all freedom is conditioned by the context and the system surrounding it. At this point, AsyncAPI as a project shows its limitations and feels a bit constrained. Talking about an open, inclusive, and enthusiastic community is a start. 

There is no widespread access and literacy to technology in all geographical and social contexts. Potentially and hypothetically, the doors are open, as are the doors to libraries. That does not mean that everyone will enter them. The clash against the glass ceiling makes up the technology field, specifically in software development. This conflict emerges from the difficulties of having a multicultural community rich in gender or ethnic identities and equality due to the limitations of the field.

In 2019 the number of software developers worldwide grew to 23.9 million and was expected to reach 28.7 million software engineers by 2024. In these promising numbers, there are huge inequalities. The majority of developers come from specific world areas, and women represent only 10% of the total.

Towards a utopian future: Let’s try it!

The data shows us that beyond the democratizing possibilities of the Internet, most of the advances are only hypothetical and not real. We can see approximately the same numbers reflected in the AsyncAPI community. The community is aware of what is happening and wants to reverse this situation by being more heterogeneous and multicultural. That’s a challenge in which many factors influence.

Tackling this situation, AsyncAPI has grown in all directions, creating an ecosystem that embraces variety. It comprises a community of almost 2,000 people, of more than 20 different nationalities from very diverse cultures, ethnicities, and backgrounds.

AsyncAPI was born as an open source initiative, a liberating software model in every sense, a code made by all and for all. It is not a model closed exclusively to the technological field but a movement with a solid ethical base that crosses screens and shapes principles. That is why AsyncAPI is committed to this model. No matter how many external factors are against it, there is a clear direction. 

The decisions taken now will be vital to building a better future – a freer and more inclusive one –. We do not want a unidirectional mirror where only some can see themselves reflected. The key is to search for a diverse and multifaceted mirror.

Aspiring to form a community that is a melting pot of cultures and identities may seem somewhat utopian, but we believe it is a worthy goal to keep in mind and for which to strive. Proposals are welcome. Minds, eyes, and ears always remain open. Let us at least try it. 

Barbaño González is Education Program Manager at AsyncAPI

Classic SysAdmin: How to Search for Files from the Linux Command Line

This is a classic article written by Jack Wallen from the Linux.com archives. For more great SysAdmin tips and techniques check out our free intro to Linux course.

It goes without saying that every good Linux desktop environment offers the ability to search your file system for files and folders. If your default desktop doesn’t — because this is Linux — you can always install an app to make searching your directory hierarchy a breeze.

But what about the command line? If you happen to frequently work in the command line or you administer GUI-less Linux servers, where do you turn when you need to locate a file? Fortunately, Linux has exactly what you need to locate the files in question, built right into the system.

The command in question is find. To make the understanding of this command even more enticing, once you know it, you can start working it into your Bash scripts. That’s not only convenience, that’s power.

Let’s get up to speed with the find command so you can take control of locating files on your Linux servers and desktops, without the need of a GUI.

How to use the find command

When I first glimpsed Linux, back in 1997, I didn’t quite understand how the find command worked; therefore, it never seemed to function as I expected. It seemed simple; issue the command find FILENAME (where FILENAME is the name of the file) and the command was supposed to locate the file and report back. Little did I know there was more to the command than that. Much more.

If you issue the command man find, you’ll see the syntax of the find command is:

find [-H] [-L] [-P] [-D debugopts] [-Olevel] [starting-point…] [expression]

Naturally, if you’re unfamiliar with how man works, you might be confused about or overwhelmed by that syntax. For ease of understanding, let’s simplify that. The most basic syntax of a basic find command would look like this:

find /path option filename

Now we’ll see it at work.

Find by name

Let’s break down that basic command to make it as clear as possible. The most simplistic  structure of the find command should include a path for the file, an option, and the filename itself. You may be thinking, “If I know the path to the file, I’d already know where to find it!”. Well, the path for the file could be the root of your drive; so / would be a legitimate path. Entering that as your path would take find longer to process — because it has to start from scratch — but if you have no idea where the file is, you can start from there. In the name of efficiency, it is always best to have at least an idea where to start searching.

The next bit of the command is the option. As with most Linux commands, you have a number of available options. However, we are starting from the beginning, so let’s make it easy. Because we are attempting to find a file by name, we’ll use one of two options:

name – case sensitive

iname – case insensitive

Remember, Linux is very particular about case, so if you’re looking for a file named Linux.odt, the following command will return no results.

find / -name linux.odt

If, however, you were to alter the command by using the -iname option, the find command would locate your file, regardless of case. So the new command looks like:

find / -iname linux.odt

Find by type

What if you’re not so concerned with locating a file by name but would rather locate all files of a certain type? Some of the more common file descriptors are:

f – regular file

d – directory

l – symbolic link

c – character devices

b – block devices

Now, suppose you want to locate all block devices (a file that refers to a device) on your system. With the help of the -type option, we can do that like so:

find / -type c

The above command would result in quite a lot of output (much of it indicating permission denied), but would include output similar to:

/dev/hidraw6
/dev/hidraw5
/dev/vboxnetctl
/dev/vboxdrvu
/dev/vboxdrv
/dev/dmmidi2
/dev/midi2
/dev/kvm

Voilà! Block devices.

We can use the same option to help us look for configuration files. Say, for instance, you want to locate all regular files that end in the .conf extension. This command would look something like:

find / -type f -name “*.conf”

The above command would traverse the entire directory structure to locate all regular files ending in .conf. If you know most of your configuration files are housed in /etc, you could specify that like so:

find /etc -type f -name “*.conf”

The above command would list all of your .conf files from /etc (Figure 1).

 

Figure 1: Locating all of your configuration files in /etc.

Outputting results to a file

One really handy trick is to output the results of the search into a file. When you know the output might be extensive, or if you want to comb through the results later, this can be incredibly helpful. For this, we’ll use the same example as above and pipe the results into a file called conf_search. This new command would look like: ​

find /etc -type f -name “*.conf” > conf_search

You will now have a file (conf_search) that contains all of the results from the find command issued.

Finding files by size

Now we get to a moment where the find command becomes incredibly helpful. I’ve had instances where desktops or servers have found their drives mysteriously filled. To quickly make space (or help locate the problem), you can use the find command to locate files of a certain size. Say, for instance, you want to go large and locate files that are over 1000MB. The find command can be issued, with the help of the -size option, like so:

find / -size +1000MB

You might be surprised at how many files turn up. With the output from the command, you can comb through the directory structure and free up space or troubleshoot to find out what is mysteriously filling up your drive.

You can search with the following size descriptions:

c – bytes

k – Kilobytes

M – Megabytes

G – Gigabytes

b – 512-byte blocks

Keep learning

We’ve only scratched the surface of the find command, but you now have a fundamental understanding of how to locate files on your Linux systems. Make sure to issue the command man find to get a deeper, more complete, knowledge of how to make this powerful tool work for you.

The post Classic SysAdmin: How to Search for Files from the Linux Command Line appeared first on Linux Foundation.

A New Year’s Message from Nithya Ruff (2022)

The last two years have demonstrated even more clearly that technology is the crucial fabric that weaves society and the economy together. From video conferencing to online shopping and delivery to remote collaboration tools for work, technology helped society continue to function throughout the pandemic in 2020 and the continuing uncertainty of 2021. All that technology (and more) is powered, quite literally, by open source, in one way or another. Software is eating the world and open source software is becoming the dominant part of software, from the operating system to the database and messaging layer up to the frameworks that drive the user experience. Few, if any, organizations and enterprises could run operations today without relying on open source.

Not surprisingly, as it becomes more pervasive and mission-critical, open source is also proving to be a larger economic force. Public and private companies focused on selling open source software or services now have a collective market value approaching half a trillion dollars. There is no easy way to account for the total economic value of open source consumed by all businesses, individuals, nonprofits, and governments; the value enabled is likely well into the trillions of dollars. Open source powers cloud computing, the Internet, Android phones, mobile apps, cars — even the Mars helicopter launched by NASA. Open source also powers much of consumer electronics on the market today. 

With prominent positions in society and the economy comes an urgent imperative to better address risk and security. The Linux Foundation is working with its members to take on these challenges for open source. We launched multiple new initiatives in 2021 to make the open source technology ecosystem and software supply chain more secure, transparent, and resilient. From the Software Bill of Materials to the Open Source Security Foundation, the LF, its members, and its projects and communities are collaborating with paramount importance to secure the open source supply chain.

Behind risk management and security considerations — and technology development in general — are real people. This is also why the Linux Foundation is making substantial investments in supporting diversity and inclusion in open source communities. We need to take action as a community to make open source more inclusive and welcoming. We can do this in a data-driven fashion with research on what issues hinder our progress and develop actions that will, we hope, drive measurable improvements. 

Working together on collective efforts, beyond just our company and ourselves, is not just good for business; it is personally rewarding. Recently one of our engineers explained that he loves working with open source because he feels it gives him a global network of teachers, all helping him become better. I believe this is why open source is one of the most powerful forces in the world today, and it is only growing stronger. Through a pandemic, through economic challenges, day in, day out, we see people helping each other regardless of their demographics. Open source brings out the best in people by encouraging them to work together to solve great challenges and dream big. This is why in 2021, I am excited to see all the new collaborations, expanding our collective efforts to address truly global problems in agriculture, public health, and other areas that are far bigger than any one project. 

After a successful 2021, and hopefully, with a pandemic fading into our rearview mirrors, I am optimistic for an even more amazing 2022. Thank you for your support and guidance, and I wish you all a Happy New Year!

Nithya Ruff
Chair of the Board of Directors, The Linux Foundation

These efforts are made possible by our members and communities. To learn how your organization can get involved with the Linux Foundationclick here.

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