Linux start
Getting to a remote computer
ssh is an executable program that runs on your local computer and allows you to connect securely to a remote computer.
Let's try it now by entering this:
ssh <your user ID>@lonestar.tacc.utexas.edu
When you log in to a linux computer, the operating system checks your login credentials and if they're OK it sets up some configuration for you and then runs a program called a "shell" which acts like your fast-food drive-thru window to the rest of the operating system. You type commands and hit "enter" to send something into the drive-thru window, and then the OS passes output back through the drive-thru window.
Every time you exchange stuff through this window, it's within a context, like one specific drive-thru window at one restaurant. The directory within the file system is one part of that context; the programs and environment variables available to you are other parts of that context. When you log in, the system and shell agree that you'll start off in your home directory on the system.
Exercise: Start another shell to Lonestar
Create a new window that will allow you to have a second login to Lonestar, and again use:
ssh <your user ID>@lonestar.tacc.utexas.edu
to connect to Lonestar.
Once you're logged in, issue this command (we'll explain later):
idev -m 200 -q serial
If you have any errors, try to copy and paste the command from the wiki into the shell.
Please switch back to your first login shell once you've entered the idev
command in the second shell.
Essential command-line tricks to look like an expert quickly, or figure out what's going on.
Type as little and as accurately as possible by cheating:
- Cheat 1: Use "up arrow" to retrieve any of the last 500 commands you've typed. You can then edit them and hit enter (even in the middle of the command) and the shell will use that command.
- Cheat 2: Hit the tab key twice - it's almost always magic. This instructs the shell to try to guess what you're doing and finish the typing for you. On most modern linux shells, it works for commands (like "ls" or "scp") and for completing file or directory names.
- Cheat 3: You can use
control-a
(holding down the "control" key and "a") to jump the cursor right to the beginning of the line. The omega to that alpha iscontrol-e
, which jumps the cursor to the end of the line. Arrow keys work, andcontrol-arrowl
will skip by word forward and backward.
Unfortunately, you are pretty much out of luck if you want to jump to the middle of the line. In this case you might want to copy the whole command into a nice text editor on your desktop, change it, and copy it back.
Advanced topic: command line editors.
Exercise:
Type "modu" then hit tab twice - it presents two choices, module
and modutil
. Type the next character l
, hit tab twice and it will complete the rest of the typing. If you hit tab twice again, the OS will show you all the files in your current working directory which doesn't make any sense for the command "module" - it's smart, but not smart enough to figure out that the next word in the command needs to be one of module
's built-in commands.
Inline help
Man pages - linux has had built-in help files since the mid-1500's, way before Macs or PCs thought of such things. In linux they're called man
pages - short for "manual"; it's not a gender thing (I assume). man intro
will give you an introduction to all user commands.
Exercise:
Try "man grep
", or "man du
", or "man sort
" - you'll want these sometime.
Tip: Type the letter q to quit man, j and k/<CR> to move up and down by line, b or spacebar up/down by page. Want to search? Just hit the slash key /
, enter the search word and hit enter. These are actually the tools of the less
command which man
is using.
Basic linux commands you need to know like breathing air
ls
- list the contents of the current directorypwd
- print the present working directory - which restaurant am I at right now - the format is something like/home/myID
- just like on most computer systems, this represents leaves on the tree of the file system structure, also called a "path".cd <whereto>
- change the present working directory to<whereto>
- pick up my drive-thru window (shell) and move it so that I'm now looking thru to the directory<whereto>
- Some special
<wheretos>
:..
(period, period) means "up one level". ~ (tilde) means "my home directory".~myfriend
(tilde "myfriend) means "myfriend's home directory".
- Some special
df
shows you the top level of the directory structure of the system you're working on, along with how much disk space is availablehead <file>
andtail <file>
shows you the top or bottom 10 lines of a file<file>
more <file>
andless <file>
both display the contents of<file>
in nice ways. Read the bit above aboutman
to figure out how to navigate and search when usingless
file <file>
tells you what kind of file<file>
is.cat <file>
outputs all the contents of<file>
- CAUTION - only use on small files.rm <file>
deletes a file. This is permanent - not a "trash can" deletion.cp <source> <destination>
copies the filesource
to the location and/or file namedestination
}. Using.
(period) means "here, with the same name". *cp -r <dirname> <destination>
will recursively copy the directorydirname
and all its contents to the directorydestination
.scp <user>@<host>:<source> <destination>
works just like cp but copiessource
from the useruser
's directory on remote machinehost
to the local filedestination
mkdir <dirname>
andrmdir <dirname>
make and remove the directory "dirname". This only removes empty directories - "rm -r <dirname>" will remove everything.wget <url>
fetches a file with a valid URL. It's not that common but we'll usewget
to pull data from one of TACC's web-based storage devices.
Wildcards and special file names.
The shell has shorthand to refer to groups of files by allowing wildcards in file names. *
(asterisk) is the most common; it is a wildcard meaning "any length of any characters". Other useful ones are []
to allow for any character in the set <characters>> and {{
[]
for a range of characters.
For example: ls
*.bam
lists all files in the current directory that end in .bam
; ls
[A-Za-z]*.bam
does the same, but only if the first character of the file is a capital letter.
Three special file names:
.
(single period) means "this directory"...
(two periods) means "directory above current." Sols -l ..
means "list contents of the parent directory."- ~ (tilde) means "my home directory".
Exercises:
Scavenger hunt practice; on Lonestar issue the following commands:
cp -r /corral-repl/utexas/BioITeam/linuxpractice . cd linuxpractice cd what cat readme
and follow the instructions. Hints: use <tab><tab>
to fill in filenames as much as you can.
Options: the lifeblood of linux commands
Sitting at the computer, you should have some idea what you need to do. There's probably a command to do it. If you have some idea what it starts with, you can type a few characters and hit tab
twice to get some help. If you have no idea, you google it or ask someone else. But soon you want those commands to do a bit more - like seeing the sizes of files in addition to their names.
Most commands in linux use a common syntax to ask more of a command; they usually add a dash "-" followed by a code letter that means "do the basic command, but with a bit more..."
ls -l ls -lh ls -t
These little toggle-like things are often called "command line switches"; there can be other options, like filenames, that aren't switches.
Almost all commands, and especially NGS tools, use options heavily.
Like dialects in a language, there are at least three basic schemes commands/programs accept options in:
- One letter options which can sometimes be combined, or other single options like:
Examples of different option types
head -10 ls -lhtS (equivalent to ls -l -h -t -S)
- Word options, like
-d64
and-Xms512m
in this command, that are never combined (this is the GATK command to call SNPs):Examples of word optionsjava -d64 -Xms512m -Xmx4g -jar /work/01866/phr254/gshare/Tools_And_Programs/bin/GenomeAnalysisTK.jar -glm BOTH -R $reference -T UnifiedGenotyper -I $outprefix.realigned.recal.bam --dbsnp $dbsnp -o $outprefix.snps.vcf -metrics snps.metrics -stand_call_conf 50.0 -stand_emit_conf 10.0 -dcov 1000 -A DepthOfCoverage -A AlleleBalance
- "Long option" forms, using the convention that a single dash - precedes single-letter options, and double dashes-
-
precede word options, like this command to run the mira assembler:Example of long optionsmira --project=ct --job=denovo,genome,accurate,454 -SK:not=8
man
pages should detail all options available for a command. Unless there's no man
page.
More help please
Sometimes man
lets you down - no man page. Don't fret, try one of these:
- Just type in the command and hit return - it will usually try to help you.
- Type the command followed by one of:
-h
-help
--help
-?
and may give you some help.
Sometimes the command by itself will give you short help, and will list the magic option for full help.
Exercise
First do:
module load blast
Now figure out how to run some kind of blast program on lonestar with options. Hints: try <tab><tab>
, man
, running some blast command, use options to figure out other options.
I've put nr, nt, and refseq_rna blast databases on Lonestar here:
/corral-repl/utexas/BioITeam/blastdb/
along with a test sequence: the human JAG1 gene, here:
/corral-repl/utexas/BioITeam/sphsmith/jag1.fa
Now let's go on to establishing a useful login profile on Lonestar.
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