Transferring files with remote computers
Overview
Teaching: 15 min
Exercises: 15 minQuestions
How do I transfer files to (and from) the cluster?
Objectives
Transfer files to and from a computing cluster.
Performing work on a remote computer is not very useful if we cannot get files to or from the cluster. There are several options for transferring data between computing resources using CLI and GUI utilities, a few of which we will cover.
Download Lesson Files From the Internet
One of the most straightforward ways to download files is to use either curl
or wget
. One of these is usually installed in most Linux shells, on Mac OS
terminal and in GitBash. Any file that can be downloaded in your web browser
through a direct link can be downloaded using curl
or wget
. This is a
quick way to download datasets or source code. The syntax for these commands is
wget [-O new_name] https://some/link/to/a/file
curl [-o new_name] https://some/link/to/a/file
Try it out by downloading some material we’ll use later on, from a terminal on your local machine, using the URL of the current codebase:
https://github.com/hpc-carpentry/amdahl/tarball/main
Download the “Tarball”
The word “tarball” in the above URL refers to a compressed archive format commonly used on Linux, which is the operating system the majority of HPC cluster machines run. A tarball is a lot like a
.zip
file. The actual file extension is.tar.gz
, which reflects the two-stage process used to create the file: the files or folders are merged into a single file usingtar
, which is then compressed usinggzip
, so the file extension is “tar-dot-g-z.” That’s a mouthful, so people often say “the xyz tarball” instead.You may also see the extension
.tgz
, which is just an abbreviation of.tar.gz
.By default,
curl
andwget
download files to the same name as the URL: in this case,main
. Use one of the above commands to save the tarball asamdahl.tar.gz
.
wget
andcurl
Commands[user@laptop ~]$ wget -O amdahl.tar.gz https://github.com/hpc-carpentry/amdahl/tarball/main # or [user@laptop ~]$ curl -o amdahl.tar.gz https://github.com/hpc-carpentry/amdahl/tarball/main
After downloading the file, use ls
to see it in your working directory:
[user@laptop ~]$ ls
Archiving Files
One of the biggest challenges we often face when transferring data between remote HPC systems is that of large numbers of files. There is an overhead to transferring each individual file and when we are transferring large numbers of files these overheads combine to slow down our transfers to a large degree.
The solution to this problem is to archive multiple files into smaller
numbers of larger files before we transfer the data to improve our transfer
efficiency.
Sometimes we will combine archiving with compression to reduce the amount of
data we have to transfer and so speed up the transfer.
The most common archiving command you will use on a (Linux) HPC cluster is
tar
.
tar
can be used to combine files and folders into a single archive file and,
optionally, compress the result.
Let’s look at the file we downloaded from the lesson site, amdahl.tar.gz
.
The .gz
part stands for gzip, which is a compression library.
It’s common (but not necessary!) that this kind of file can be interpreted by
reading its name: it appears somebody took files and folders relating to
something called “amdahl,” wrapped them all up into a single file with tar
,
then compressed that archive with gzip
to save space.
Let’s see if that is the case, without unpacking the file.
tar
prints the “table of contents” with the -t
flag, for the file
specified with the -f
flag followed by the filename.
Note that you can concatenate the two flags: writing -t -f
is interchangeable
with writing -tf
together.
However, the argument following -f
must be a filename, so writing -ft
will
not work.
[user@laptop ~]$ tar -tf amdahl.tar.gz
hpc-carpentry-amdahl-46c9b4b/
hpc-carpentry-amdahl-46c9b4b/.github/
hpc-carpentry-amdahl-46c9b4b/.github/workflows/
hpc-carpentry-amdahl-46c9b4b/.github/workflows/python-publish.yml
hpc-carpentry-amdahl-46c9b4b/.gitignore
hpc-carpentry-amdahl-46c9b4b/LICENSE
hpc-carpentry-amdahl-46c9b4b/README.md
hpc-carpentry-amdahl-46c9b4b/amdahl/
hpc-carpentry-amdahl-46c9b4b/amdahl/__init__.py
hpc-carpentry-amdahl-46c9b4b/amdahl/__main__.py
hpc-carpentry-amdahl-46c9b4b/amdahl/amdahl.py
hpc-carpentry-amdahl-46c9b4b/requirements.txt
hpc-carpentry-amdahl-46c9b4b/setup.py
This example output shows a folder which contains a few files, where 46c9b4b
is an 8-character git commit hash that will change when the source
material is updated.
Now let’s unpack the archive. We’ll run tar
with a few common flags:
-x
to extract the archive-v
for verbose output-z
for gzip compression-f «tarball»
for the file to be unpacked
Extract the Archive
Using the flags above, unpack the source code tarball into a new directory named “amdahl” using
tar
.[user@laptop ~]$ tar -xvzf amdahl.tar.gz
hpc-carpentry-amdahl-46c9b4b/ hpc-carpentry-amdahl-46c9b4b/.github/ hpc-carpentry-amdahl-46c9b4b/.github/workflows/ hpc-carpentry-amdahl-46c9b4b/.github/workflows/python-publish.yml hpc-carpentry-amdahl-46c9b4b/.gitignore hpc-carpentry-amdahl-46c9b4b/LICENSE hpc-carpentry-amdahl-46c9b4b/README.md hpc-carpentry-amdahl-46c9b4b/amdahl/ hpc-carpentry-amdahl-46c9b4b/amdahl/__init__.py hpc-carpentry-amdahl-46c9b4b/amdahl/__main__.py hpc-carpentry-amdahl-46c9b4b/amdahl/amdahl.py hpc-carpentry-amdahl-46c9b4b/requirements.txt hpc-carpentry-amdahl-46c9b4b/setup.py
Note that we did not need to type out
-x -v -z -f
, thanks to flag concatenation, though the command works identically either way – so long as the concatenated list ends withf
, because the next string must specify the name of the file to extract.
The folder has an unfortunate name, so let’s change that to something more convenient.
[user@laptop ~]$ mv hpc-carpentry-amdahl-46c9b4b amdahl
Check the size of the extracted directory and compare to the compressed
file size, using du
for “disk usage”.
[user@laptop ~]$ du -sh amdahl.tar.gz
8.0K amdahl.tar.gz
[user@laptop ~]$ du -sh amdahl
48K amdahl
Text files (including Python source code) compress nicely: the “tarball” is one-sixth the total size of the raw data!
If you want to reverse the process – compressing raw data instead of
extracting it – set a c
flag instead of x
, set the archive filename,
then provide a directory to compress:
[user@laptop ~]$ tar -cvzf compressed_code.tar.gz amdahl
amdahl/
amdahl/.github/
amdahl/.github/workflows/
amdahl/.github/workflows/python-publish.yml
amdahl/.gitignore
amdahl/LICENSE
amdahl/README.md
amdahl/amdahl/
amdahl/amdahl/__init__.py
amdahl/amdahl/__main__.py
amdahl/amdahl/amdahl.py
amdahl/requirements.txt
amdahl/setup.py
If you give amdahl.tar.gz
as the filename in the above command, tar
will
update the existing tarball with any changes you made to the files.
That would mean adding the new amdahl
folder to the existing folder
(hpc-carpentry-amdahl-46c9b4b
) inside the tarball, doubling the size of the
archive!
Working with Windows
When you transfer text files from a Windows system to a Unix system (Mac, Linux, BSD, Solaris, etc.) this can cause problems. Windows encodes its files slightly different than Unix, and adds an extra character to every line.
On a Unix system, every line in a file ends with a
\n
(newline). On Windows, every line in a file ends with a\r\n
(carriage return + newline). This causes problems sometimes.Though most modern programming languages and software handles this correctly, in some rare instances, you may run into an issue. The solution is to convert a file from Windows to Unix encoding with the
dos2unix
command.You can identify if a file has Windows line endings with
cat -A filename
. A file with Windows line endings will have^M$
at the end of every line. A file with Unix line endings will have$
at the end of a line.To convert the file, just run
dos2unix filename
. (Conversely, to convert back to Windows format, you can rununix2dos filename
.)
Transferring Single Files and Folders With scp
To copy a single file to or from the cluster, we can use scp
(“secure copy”).
The syntax can be a little complex for new users, but we’ll break it down.
The scp
command is a relative of the ssh
command we used to
access the system, and can use the same public-key authentication
mechanism.
To upload to another computer, the template command is
[user@laptop ~]$ scp local_file yourUsername@mr-french.nist.gov:remote_destination
in which @
and :
are field separators and remote_destination
is a path
relative to your remote home directory, or a new filename if you wish to change
it, or both a relative path and a new filename.
If you don’t have a specific folder in mind you can omit the
remote_destination
and the file will be copied to your home directory on the
remote computer (with its original name).
If you include a remote_destination
, note that scp
interprets this the same
way cp
does when making local copies:
if it exists and is a folder, the file is copied inside the folder; if it
exists and is a file, the file is overwritten with the contents of
local_file
; if it does not exist, it is assumed to be a destination filename
for local_file
.
Upload the lesson material to your remote home directory like so:
[user@laptop ~]$ scp amdahl.tar.gz yourUsername@mr-french.nist.gov:
Why Not Download on mr-french Directly?
Most computer clusters are protected from the open internet by a firewall. For enhanced security, some are configured to allow traffic inbound, but not outbound. This means that an authenticated user can send a file to a cluster machine, but a cluster machine cannot retrieve files from a user’s machine or the open Internet.
Try downloading the file directly. Note that it may well fail, and that’s OK!
Commands
[user@laptop ~]$ ssh yourUsername@mr-french.nist.gov 501 mr-french% wget -O amdahl.tar.gz https://github.com/hpc-carpentry/amdahl/tarball/main # or 501 mr-french% curl -o amdahl.tar.gz https://github.com/hpc-carpentry/amdahl/tarball/main
Did it work? If not, what does the terminal output tell you about what happened?
Transferring a Directory
To transfer an entire directory, we add the -r
flag for “recursive”:
copy the item specified, and every item below it, and every item below those…
until it reaches the bottom of the directory tree rooted at the folder name you
provided.
[user@laptop ~]$ scp -r amdahl yourUsername@mr-french.nist.gov:
Caution
For a large directory – either in size or number of files – copying with
-r
can take a long time to complete.
When using scp
, you may have noticed that a :
always follows the remote
computer name.
A string after the :
specifies the remote directory you wish to transfer
the file or folder to, including a new name if you wish to rename the remote
material.
If you leave this field blank, scp
defaults to your home directory and the
name of the local material to be transferred.
On Linux computers, /
is the separator in file or directory paths.
A path starting with a /
is called absolute, since there can be nothing
above the root /
.
A path that does not start with /
is called relative, since it is not
anchored to the root.
If you want to upload a file to a location inside your home directory –
which is often the case – then you don’t need a leading /
. After the :
,
you can type the destination path relative to your home directory.
If your home directory is the destination, you can leave the destination
field blank, or type ~
– the shorthand for your home directory – for
completeness.
With scp
, a trailing slash on the target directory is optional, and has
no effect. It is important for other commands, like rsync
.
A Note on
rsync
As you gain experience with transferring files, you may find the
scp
command limiting. The rsync utility provides advanced features for file transfer and is typically faster compared to bothscp
andsftp
(see below). It is especially useful for transferring large and/or many files and for synchronizing folder contents between computers.The syntax is similar to
scp
. To transfer to another computer with commonly used options:[user@laptop ~]$ rsync -avP amdahl.tar.gz yourUsername@mr-french.nist.gov:
The options are:
-a
(archive) to preserve file timestamps, permissions, and folders, among other things; implies recursion-v
(verbose) to get verbose output to help monitor the transfer-P
(partial/progress) to preserve partially transferred files in case of an interruption and also displays the progress of the transfer.To recursively copy a directory, we can use the same options:
[user@laptop ~]$ rsync -avP amdahl yourUsername@mr-french.nist.gov:~/
As written, this will place the local directory and its contents under your home directory on the remote system. If the trailing slash is omitted on the destination, a new directory corresponding to the transferred directory will not be created, and the contents of the source directory will be copied directly into the destination directory.
To download a file, we simply change the source and destination:
[user@laptop ~]$ rsync -avP yourUsername@mr-french.nist.gov:amdahl ./
File transfers using both scp
and rsync
use SSH to encrypt data sent through
the network. So, if you can connect via SSH, you will be able to transfer
files. By default, SSH uses network port 22. If a custom SSH port is in use,
you will have to specify it using the appropriate flag, often -p
, -P
, or
--port
. Check --help
or the man
page if you’re unsure.
Change the Rsync Port
Say we have to connect
rsync
through port 768 instead of 22. How would we modify this command?[user@laptop ~]$ rsync amdahl.tar.gz yourUsername@mr-french.nist.gov:
Hint: check the
man
page or “help” forrsync
.Solution
[user@laptop ~]$ man rsync [user@laptop ~]$ rsync --help | grep port --port=PORT specify double-colon alternate port number See http://rsync.samba.org/ for updates, bug reports, and answers [user@laptop ~]$ rsync --port=768 amdahl.tar.gz yourUsername@mr-french.nist.gov:
(Note that this command will fail, as the correct port in this case is the default: 22.)
Transferring Files Interactively with FileZilla
FileZilla is a cross-platform client for downloading and uploading files to and
from a remote computer. It is absolutely fool-proof and always works quite
well. It uses the sftp
protocol. You can read more about using the sftp
protocol in the command line in the
lesson discussion.
Download and install the FileZilla client from https://filezilla-project.org. After installing and opening the program, you should end up with a window with a file browser of your local system on the left hand side of the screen. When you connect to the cluster, your cluster files will appear on the right hand side.
To connect to the cluster, we’ll just need to enter our credentials at the top of the screen:
- Host:
sftp://mr-french.nist.gov
- User: Your cluster username
- Password: Your cluster password
- Port: (leave blank to use the default port)
Hit “Quickconnect” to connect. You should see your remote files appear on the right hand side of the screen. You can drag-and-drop files between the left (local) and right (remote) sides of the screen to transfer files.
Finally, if you need to move large files (typically larger than a gigabyte)
from one remote computer to another remote computer, SSH in to the computer
hosting the files and use scp
or rsync
to transfer over to the other. This
will be more efficient than using FileZilla (or related applications) that
would copy from the source to your local machine, then to the destination
machine.
Key Points
wget
andcurl -O
download a file from the internet.
scp
andrsync
transfer files to and from your computer.