ls command lists the content of the current directory (or one that is specified). It can be used with the
-l flag to display additional information (permissions, owner, group, size, date and timestamp of last edit) about each file and directory in a list format. The
-a flag allows you to view files beginning with
. (i.e. dotfiles).
cd changes the current directory to the one specified. You can use relative (i.e.
cd directoryA) or absolute (i.e.
cd /home/pi/directoryA) paths.
pwd command displays the name of the present working directory: on a Raspberry Pi, entering
pwd will output something like
You can use
mkdir to create a new directory, e.g.
mkdir newDir would create the directory
newDir in the present working directory.
To remove empty directories, use
rmdir. So, for example,
rmdir oldDir will remove the directory
oldDir only if it is empty.
rmremoves the specified file (or recursively from a directory when used with
-r). Be careful with this command: files deleted in this way are mostly gone for good!
cp makes a copy of a file and places it at the specified location (this is similar to copying and pasting). For example,
cp ~/fileA /home/otherUser/would copy the file
fileA from your home directory to that of the user
otherUser (assuming you have permission to copy it there). This command can either take
FILE FILE (
cp fileA fileB),
cp fileA /directoryB/) or
-r DIR DIR (which recursively copies the contents of directories) as arguments.
mv command moves a file and places it at the specified location (so where
cp performs a ‘copy-paste’,
mv performs a ‘cut-paste’). The usage is similar to
mv ~/fileA /home/otherUser/ would move the file
fileA from your home directory to that of the user otherUser. This command can either take
FILE FILE (
mv fileA fileB),
FILE DIR (
mv fileA /directoryB/) or
DIR DIR (
mv /directoryB /directoryC) as arguments. This command is also useful as a method to rename files and directories after they’ve been created.
touch sets the last modified time-stamp of the specified file(s) or creates it if it does not already exist.
You can use
cat to list the contents of file(s), e.g.
cat thisFile will display the contents of
thisFile. Can be used to list the contents of multiple files, i.e.
cat *.txt will list the contents of all
.txt files in the current directory.
head command displays the beginning of a file. Can be used with
-n to specify the number of lines to show (by default ten), or with
-c to specify the number of bytes.
The opposite of
tail displays the end of a file. The starting point in the file can be specified either through
-b for 512 byte blocks,
-c for bytes, or
-n for number of lines.
You would normally use
chmod to change the permissions for a file. The
chmodcommand can use symbols
u (user that owns the file),
g (the files group) , and
o (other users) and the permissions
w (write), and
x (execute). Using
chmod u+x *filename* will add execute permission for the owner of the file.
chown command changes the user and/or group that owns a file. It normally needs to be run as root using sudo e.g.
sudo chown pi:root *filename* will change the owner to pi and the group to root.
ssh denotes the secure shell. Connect to another computer using an encrypted network connection. For more details see SSH (secure shell)
scp command copies a file from one computer to another using
ssh. For more details see SCP (secure copy)
sudo command enables you to run a command as a superuser, or another user. Use
sudo -s for a superuser shell. For more details see Root user / sudo
dd command copies a file converting the file as specified. It is often used to copy an entire disk to a single file or back again. So, for example,
dd if=/dev/sdd of=backup.img will create a backup image from an SD card or USB disk drive at /dev/sdd. Make sure to use the correct drive when copying an image to the SD card as it can overwrite the entire disk.
df to display the disk space available and used on the mounted filesystems. Use
df -h to see the output in a human-readable format using M for MBs rather than showing number of bytes.
unzip command extracts the files from a compressed zip file.
tar to store or extract files from a tape archive file. It can also reduce the space required by compressing the file similar to a zip file.
To create a compressed file, use
tar -cvzf *filename.tar.gz* *directory/* To extract the contents of a file, use
tar -xvzf *filename.tar.gz*
A pipe allows the output from one command to be used as the input for another command. The pipe symbol is a vertical line
|. For example, to only show the first ten entries of the
ls command it can be piped through the head command
ls | head
tree command to show a directory and all subdirectories and files indented as a tree structure.
Run a command in the background with
&, freeing up the shell for future commands.
Download a file from the web directly to the computer with
wget https://www.raspberrypi.org/documentation/linux/usage/commands.mdwill download this file to your computer as
curl to download or upload a file to/from a server. By default, it will output the file contents of the file to the screen.
Show the manual page for a file with
man. To find out more, run
man man to view the manual page of the man command.
grep to search inside files for certain search patterns. For example,
grep "search" *.txt will look in all the files in the current directory ending with .txt for the string search.
grep command supports regular expressions which allows special letter combinations to be included in the search.
awk is a programming language useful for searching and manipulating text files.
find command searches a directory and subdirectories for files matching certain patterns.
whereis to find the location of a command. It looks through standard program locations until it finds the requested command.
ping utility is usually used to check if communication can be made with another host. It can be used with default settings by just specifying a hostname (e.g.
ping raspberrypi.org) or an IP address (e.g.
ping 22.214.171.124). It can specify the number of packets to send with the
nmap is a network exploration and scanning tool. It can return port and OS information about a host or a range of hosts. Running just
nmap will display the options available as well as example usage.
hostname command displays the current hostname of the system. A privileged (super) user can set the hostname to a new one by supplying it as an argument (e.g.
ifconfig to display the network configuration details for the interfaces on the current system when run without any arguments (i.e.
ifconfig). By supplying the command with the name of an interface (e.g.
lo) you can then alter the configuration: check the manual page for more details.