Basic XRootD

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Disclaimer

The information below is not meant to replace XRootD documentation. It may be helpful for experimentation with a small xrootd cluster and getting familiar with the basics of XRootD configuration.

Running a minicluster

Basic experimentation with XRootD can start with utilizing a few machines which aren't heavily loaded by other applications. It is often helpful to have the "sudo" privilege (e.g. for installation in standard directories and configuring auxiliary services) but strictly speaking this is not necessary.

It is convenient to control a few machines from one screen, and if security is not a concern (e.g. then the network is strictly local) telnet can be used as a quick solution. On Ubuntu one can install the necessary software in the following manner:

sudo apt-get install xinetd telnetd

...and start the service as follows:

sudo /etc/init.d/xinetd start

In Ubuntu, if you need to add a few applications to your desktop, this can be done as follows:

sudo cp /usr/share/applications/firefox.desktop  ~/Desktop/
sudo chmod +x ~/Desktop/firefox.desktop

Building XRootD

XRootD is packaged for installation for a few flavors of Linux. If your OS is not supported in this manner, building from source is a workable option and it not difficult. Follow the instructions on the official XRootD site and the README file included in the archive that you will have to download. A recent version of CMake shall be required for the build. The build script may be finicky when it's testing the features of the C++ compiler found on the system so you may need to upgrade the compiler or install another one and reconfigure PATH and some other elements of your setup correspondingly. It is to be expected that you'll need to take care of a few dependencies, for example install packages like zlib.

Running XRootD

Starting a simple instance of xrootd service

There is more than way to start the xrootd service (see documentation). The simplest way is to start the requisite daemon processes from the command line. Starting the xrootd daemon by itself is enough to serve data from a single node (i.e. without creating a storage cluster).

xrootd -c configFile.cfg /path/to/data &

The "/path/to/data" denotes the designated directory, from which it is allowed to serve the data. In xrootd terminology, this path is "exported".

In he above example the file configFile.cfg contains the necessary configuration. Without it present, some simple defaults will be assumed which will allow for testing, but the setup isn't likely to be very useful for real applications. The path which is to be exported can also be defined in the configuration file (which is optimal), in which case it's not necessary to put it in the command line. See the corresponding section below.

The "-b" option will start the process in the background by default, and the "-l" option can be used to specify the path to the log file (otherwise stderr will be assumed). Examples:

cmsd -b -l /path/to/log/cmsd.log -c client.cfg
xrootd -b -l /path/to/log/xrootd.log -c client.cfg

The "cmsd" is the clustering daemon which is explained in one of the following sections.


If the "path to data" is not explicitely defined, xrootd will default to /tmp which might work for initial testing but isn't practical otherwise. Whether xrootd is running as expected can be tested by using the xrdcp client from any machine from which the server is accessible, e.g.

xrdcp myFile.txt root://serverIP//path/to/data

Clustering

In a clustered environment, you also need to start the cluster manager daemon, e.g.

xrootd -c configFile.cfg /path/to/data &
cmsd -c configFile.cfg /path/to/data &

Alternatively,

cmsd -b -l /path/to/log/cmsd.log -c client.cfg
xrootd -b -l /path/to/log/xrootd.log -c client.cfg

...in which case the log files are explicitly defined on the command line (as opposed to the default stderr) and the processes are run as daemons.In this example the exported pat is defined in the config file so there is no need to put it in the command line.

The data in the cluster is exposed through the manager node, whose address is to be used in queries. Example:

xrdcp -f xroot://managerIP//my/path/foo local_foo

The file "foo" will be located and if it exists, will be copied to "local_foo" on the machine running the xrdcp client. Caveat: if multiple files exist in the system under the same path, the result (i.e. which one gets fetched) is random.

Configuration File

An example of a working configuration file suitable for a server node (not for the manager node):

all.role server
all.export /path/to/data
all.manager 192.168.0.191:3121
xrd.port 1094
acc.authdb /path/to/data/auth_file

In the example above the IP address for the manager needs to be set correctly, it's arbitrary in this sample.

authdb

The "authdb" bit is important, things mostly won't work without proper authorization (quite primitive in this case as it relies on a file with permissions). If all users are given access to all data, the content of the file can be as simple as

u * /path/to/data lr

Redirector

The redirector coordinates the function of the cluster. For example, it finds the data based on the path given by the clients such as xrdcp, without the client having to know which nodes contains this bit of data. A crude (but working) example of the redirector configuration (for cmsd):

all.manager managerIP:3121
all.role manager
xrd.port 3121
all.export /path/to/data
acc.authdb /path/to/data/auth_file

Note the port number. This is not the data port but the service port to used for communication inside the cluster (e.g. for metadata).

The configuration of the server (i.e. for xrootd) might look like this:

all.manager managerIP:3121
all.role manager
xrd.port 1094
all.export /path/to/data
acc.authdb /path/to/data/auth_file

The simplest way to initialize the redirector service on this node is as follows

xrootd -c server.cfg /path/to/data &
cmsd -c redir.cfg /path/to/data &

xrdfs

File Info

Filesystem functionality. Example:

xrdfs managerIP ls -l /my/path
xrdfs managerIP ls -u /my/path

In the above the first item performs similarly to "ls -l" in Linux shell, the second prints URLs of the files.

The following command locates the path, i.e. returns the address(es) of the server(s) which physically hold(s) the path - can be multiple machines:

xrdfs managerIP locate /my/path

Adding the "-r" option will force the server to refresh, i.e. to do a fresh query. Otherwise, a cached result will be used if it exists.

The "stat" command provides info similar to "stat":

xrdfs managerIP stat /my/path

The "rm" command does what the name suggest, with the usual caveat that if same path is present on a few machines, the result will be arbitrary - one of the files will be deleted at a time.

Host Info

xrdfs hostIP query config role

Checksum

XRootD hosts can report checksums for files, with a few checksum algorithms available. To enable this on a host a special line needs to be added to the configuration file, for example:

xrootd.chksum md5

As usual, it is only necessary to query the redirector in order to get this info by the xrdfs client:

xrdfs managerIP query checksum /my/path/to/file