EUPS Tutorial

EUPS—“Extended Unix Product System”—is a tool for managing multiple versions of interdependent software packages.

The LSST stack consists of many separate packages: lsst_apps alone depends on more than 50; other top level packages bring in more. The relationships between these packages can be complex (“lsst_apps version X depends on afw version Y which depends on boost version at least Z but no greater than Z+N”). Furthermore, it’s convenient to keep multiple versions of the packages installed and available simultaneously—the developer likely wants to develop targeting today’s version of the stack, while fixing bugs in yesterday’s; the scientist to run the latest versions of the algorithms while also being able to reproduce their results from last year. EUPS aims to make this situation tractable.

Here, we provide a tutorial-based introduction to basic EUPS functionality. Throughout, we use the % symbol to represent a shell prompt (i.e., it precedes commands one might type into a terminal).

Getting Started

Having installed the stack, you already have EUPS available. However, its internal database is pre-populated with knowledge about the stack packages you have installed. For simplicity, we begin by re-targeting it by setting the EUPS_PATH variable:

% . ${STACK_PATH}/loadLSST.bash
% eups path
${STACK_PATH}
% unsetup lsst
% export EUPS_PATH="/tmp/eups_demo"
% mkdir -p ${EUPS_PATH}/ups_db
% eups path
/tmp/eups_demo

Observe that the majority of EUPS commands follow the pattern eups <verb> <options> (reminiscent of Git, for example). (un)setup is the exception.

Building and Using a Simple EUPS Product

Assume we have a trivial software package — a — which we want to have EUPS manage as a “product”. Our package is about as simple as they come:

% cat python/a.py
__VERSION__ = 1

% cat bin/a
#!/usr/bin/env python

import a

if __name__ == "__main__":
    print("Package a with version %d" % (a.__VERSION__,))

This is stored in ${EUPS_PATH}/a/v1.

Adding an EUPS Table File

In order to make our package usable, we need EUPS to ensure:

  • That a.py is on PYTHONPATH (so that we can import it);
  • That bin/a is on PATH (so that we can execute it).

We communicate this to EUPS through a table file, located in the eups directory within the product (in this case, ${EUPS_PATH}/a/v1/ups/a.table). Our file contains:

% cat ups/a.table
envPrepend(PYTHONPATH ${PRODUCT_DIR}/python)
envPrepend(PATH ${PRODUCT_DIR}/bin)

When we ask EUPS to enable (“set up”) the product, it will manipulate the environment in the obvious way. Of course, pre-pending things to environment variables (envPrepend) isn’t all it can do: we’ll see some more commands shortly.

Declaring the Product to EUPS

We next declare the product to EUPS, causing it to read the table file and record information about the product in its database. The general form of the declaration command is:

% eups declare [PRODUCT_NAME] [VERSION] -r [PATH]

In this case we execute:

% eups declare a v1 -r ${EUPS_PATH}/a/v1

Having thus declared the product, we can query the EUPS database for the list of all products it is tracking:

% eups list
a                      v1                  current

And then we can set up the product using the setup command, use it, and tear it down again with unsetup:

% setup a

% echo $PATH
/tmp/eups_demo/a/v1/bin:…

% a
Package a with version 1

% eups list -s # Only lists products which have been set up.
a                     v1                 current setup

% unsetup a

% a
-bash: a: command not found

Managing Versions of Products

Being able to (un)setup a single version of a single product is of limited practical utility. However, EUPS lets us easily switch between different versions of the same product. We construct v2 of a by simply copying the source to ${EUPS_PATH}/a/v2 and incrementing the version number in the source. We then declare it to EUPS as before:

% eups declare a v2 -r ${EUPS_PATH}/a/v2

% eups list
a                     v1                 current
a                     v2

Note that EUPS is now tracking two versions of a. v1 is marked as current: this indicates the version we get if we setup a without further qualification:

% setup a

% a
Package a with version 1

% unsetup a

% setup a v2

% a
Package a with version 2

Tags

The current moniker we encountered above is just one example of a tag: a name associated with a particular combination of products and versions. EUPS defines some standard tags by default:

% eups tags
current latest stable user:${username}
current
If you don’t do anything “clever”, you’ll get the version tagged current when you set up a product.
latest
Reserved for special purposes: users should not interact with this tag.
stable
You can apply this tag at will; you might find it semantically meaningful.
user:${username}
Personal tag; apply at will. Omit the “user” when referring to it.

We can apply tags to particular versions using eups declare and then pass them as arguments to (un)setup:

% eups list
a                     v1                current
a                     v2

% eups declare -t stable a v1

$ eups declare -t ${USER} a v2

% eups list
a                     v1                current stable
a                     v2                ${USER}

% setup -t ${USER} a

% a
Package a with version 2

% setup a

% a
Package a with version 1

Note that when we don’t specify a tag, we default to current.

Dependent Products

Frustrated by the limitations of a, we now want to augment it with an additional product: b. Again, the code is quite straightforward:

% cat bin/b
#!/usr/bin/env python

import a

if __name__ == "__main__":
    print("Package b is using a version %d" % (a.__VERSION__,))

Note, though, that b imports a: it is not possible to use b unless a has already been set up. We specify this dependency in the table file using the setupRequired command:

% cat ups/b.table
setupRequired(a)
envPrepend(PATH, ${PRODUCT_DIR}/bin)

We can declare and setup b, and a is automatically loaded when required. Using the -v (“verbose”) option with setup makes this obvious:

% eups declare b v1 -r ${EUPS_PATH}/b/v1

% eups list
a                     v1            current
a                     v2
b                     v1            current

% setup -v b
Setting up: b                               Flavor: Darwin X86  Version: v1
Setting up: |a                              Flavor: Darwin X86  Version: v1

% b
Package b is using a version 1

Versioned Dependencies

Since we weren’t specific about the version of a required by b, EUPS just gives us the version tagged current. We could override this in b’s table file if required:

setupRequired(a v2)

Sometimes, it’s not enough to simply hard-code a versioned dependency in advance. For example, when dealing with compiled code, the version required may depend on the ABI baked in at build time. EUPS provides the eups expandtable command command to annotate a table file with the detailed state of the environment: it can be run at build time and the results stored for later use. For example:

% eups expandtable ups/b.table
if (type == exact) {
   setupRequired(a               -j v2)
} else {
    setupRequired(a v2 [>= v2])
}
envPrepend(PATH, ${PRODUCT_DIR}/bin)

Passing the --exact flag to setup on the command line will set up only the exact versions that are specified in the expanded table file; otherwise, EUPS assumes that any greater version is equally acceptable. For example, if we added a v3 of a and removed v2, an --exact setup would balk:

% eups list
a                     v1
a                     v3
b                     v1                 current

% setup --exact b
setup: in file /tmp/eups_demo/b/v1/ups/b.table: Product a v2 not found

% setup -v --inexact b
Setting up: b                               Flavor: Darwin X86  Version v1
Setting up: |a                              Flavor: Darwin X86  Version v3

Version Resolution

Earlier we saw that we get the version tagged current unless we do something “clever”. So what counts as clever?

In fact, EUPS decides which version to load based on a user-configurable “Version Resolution Order” or VRO (analogous to Python’s MRO). The default VRO is:

% eups vro
type:exact commandLine version versionExpr current

This says:

  • Set things up in exact mode;
  • If possible, set up the version specified on the command line;
  • Otherwise, set up an explicit version specified elsewhere (e.g. in the table file);
  • Otherwise, choose a version based on an expression (e.g., >= 2.0) specified in the table file or elsewhere;
  • Otherwise, set up the version tagged current.

It is possible for users to customize the VRO, but this is only necessarily in exceptional cases and is outside the scope of this guide.

The LSST Stack

We can now apply all the above to understand the structure of the LSST stack. eups list will tell us about all the packages known to our copy of the stack, including tags and versions:

% . ${STACK_PATH}/loadLSST.bash
% eups list
activemqcpp           10.1           2015_05 b1327 b1326 […]
[…]

Be aware that there are generally many packages and many, many tags, corresponding to different CI runs, official releases, and so on.

Setting up the lsst_apps product will, by default, give us the current version, and pull in all the products upon which it depends:

% setup -v lsst_apps
Setting up: lsst_apps                       Flavor: DarwinX86  Version: 11.0+3
Setting up: |meas_deblender                 Flavor: DarwinX86  Version: 11.0+3
[…]

It’s equally possible to request other versions or tags of lsst_apps when required, and to apply tags like current or the user: tag to versions of particular interest for convenient access.

It’s occasionally informative to inspect the expanded table files of the installed products to see how version information was baked into the build:

% more ${LSST_APPS_DIR}/ups/lsst_apps.table
if (type == exact) {
   setupRequired(meas_deblender  -j 11.0+3)
   setupRequired(utils           -j 11.0-1-g47edd16)
[…]

eups distrib

eups distrib is a package distribution mechanism which provides a convenient way of installing and updating the LSST stack. It is distinct from the core EUPS functionality described above, but is closely integrated and shares many concepts.

eups distrib reads details about available packages from a remote server. The appropriate location for finding LSST software is https://eups.lsst.codes/stack/src. We can use eups distrib list to list available software, and eups distrib install to install it:

% eups distrib path
https://eups.lsst.codes/stack/src

% eups distrib list lsst_apps
lsst_apps            generic    8.0.0.1+2
lsst_apps            generic    8.0.0.1+3
[…]

% eups distrib install -t v11_0 lsst_apps

Note that eups distrib list does not list tags, even though eups distrib install accepts a tag as a command line option (-t v11_0). The most convenient way to see a list of available tags is to visit the distribution server (https://eups.lsst.codes/stack/src/tags) in a web browser.

Further Information

EUPS is developed outside the LSST stack in an independent GitHub repository which provides its own issue tracker. However, it is important to track problems with installing the stack in JIRA, even if they are already known in the EUPS tracker.

EUPS ships with a manual, but it can be hard to read when getting started. There are also some tips on the old LSST wiki.