DUNE DAQ Buildtools¶
This document was last edited Apr-18-2024
daq-buildtools is the toolset to simplify the development of DUNE DAQ packages. It provides environment and building utilities for the DAQ Suite.
System requirements¶
To get set up, you'll need access to the cvmfs areas /cvmfs/dunedaq.opensciencegrid.org and /cvmfs/dunedaq-development.opensciencegrid.org. This is the case, e.g., on the np04 cluster at CERN. By default, the environment variable SPACK_DISABLE_LOCAL_CONFIG is set to true, which allows spack to skip user configurations found under ~/.spack. In rare cases, if you want spack to pick up your local configurations, you can unset this environment variable by issuing unset SPACK_DISABLE_LOCAL_CONFIG. However, the recommended way of using customized spack configrations is via the use of a workarea with a local spack instance. Customizations to spack configurations can be directly put into that local instance. More details about how to create a workarea with a spack instance can be found in the "Advanced dbt-create options section" on this page.
Setup of daq-buildtools¶
Simply do:
source /cvmfs/dunedaq.opensciencegrid.org/setup_dunedaq.sh
setup_dbt latest
After running these two commands, then you'll see something like:
Added /cvmfs/dunedaq.opensciencegrid.org/tools/dbt/v8.0.0/bin -> PATH
Added /cvmfs/dunedaq.opensciencegrid.org/tools/dbt/v8.0.0/scripts -> PATH
DBT setuptools loaded
If you type dbt- followed by the <tab> key you'll see a listing of available commands, which include dbt-create, dbt-build, dbt-setup-release and dbt-workarea-env. These are all described in the following sections.
Each time that you log into a fresh Linux shell and want to either (1) set up an existing cvmfs-based DUNE DAQ software release or (2) develop code within a pre-existing DUNE DAQ work area, you'll need to set up daq-buildtools. These two cases are described in detail momentarily. For (1) you'd want to repeat the method above to set up daq-buildtools. For (2) it's easier instead to cd into the work area and source the file named env.sh.
Running a release from cvmfs¶
If you only want access to a DUNE DAQ software release (its executables, etc.) without actually developing DUNE DAQ software itself, you'll want to run a release from cvmfs. Please note that in general, frozen releases (especially patch frozen releases) are intended for this scenario, and not for development. After setting up daq-buildtools, you can simply run the following command if you wish to use a frozen release:
dbt-setup-release <release> # nddaq-v4.3.0-a9 the latest frozen release as of Dec-19-2023
v4.1.0 release of the stack, do not use the traditional convention of dunedaq-vX.Y.Z as the frozen release label, but instead, fddaq-vX.Y.Z and nddaq-vX.Y.Z.
Instead of a frozen release you can also set up nightly releases or candidate releases using the same arguments as are described later for dbt-create; e.g. if you want to set up candidate release fddaq-v4.3.0-rc2-a9 you can do:
dbt-setup-release -b candidate fddaq-v4.3.0-rc2-a9
dbt-setup-release will set up both the external packages and DAQ packages, as well as activate the Python virtual environment. Note that the Python virtual environment activated here is read-only.
Creating a work area¶
If you wish to develop DUNE DAQ software, you can start by creating a work area. Find a directory in which you want your work area to be a subdirectory (home directories are a popular choice) and cd into that directory. Then think of a good name for the work area (give it any name, but we'll refer to it as "MyTopDir" in this document).
Each work area is based on a DUNE DAQ software release, which defines what external and DUNE DAQ packages the code you develop in a work area are built against. Releases come in four categories:
-
Nightly Releases: packages in nightly releases are built each night using the heads of their
developandproduction/v4branches. Depending on whether it's the far detector stack or the near detector stack, and whether it's a develop or production build, these are generally labeled either asNFD_<branch>_<YY><MM><DD>_<OS>(far detector) orNND_<branch>_<YY><MM><DD>_<OS>(near detector). E.g.NFD_DEV_240213_A9is the AL9 nightly develop build for the far detector on February 13th, 2024, whileNFD_PROD4_240213_C8is the CentOS nightly production build for the far detector on the same date. Note that, prior to February 13th, 2024, the labeling convention isNFD<YY>-<MM>-<DD>for the far detector stack andNND<YY>-<MM>-<DD>for the near detector stack. -
Frozen Releases: a frozen release typically comes out every couple of months, and only after extensive testing supervised by a Release Coordinator. Depending on whether it's the far detector stack or the near detector stack, labeled as
fddaq-vX.Y.Xornddaq-vX.Y.Z. -
Candidate Releases: a type of release meant specifically for frozen release testing. Generally labeled as
fddaq-vX.Y.Z-rc<candidate iteration>-<OS>ornddaq-vX.Y.Z-rc<candidate iteration>-<OS>. For example,fddaq-v4.3.0-rc2-a9is the second release candidate for the AL9 build offddaq-v4.3.0. Note that, prior to February 13th, 2024, the labeling convention isfddaq-vX.Y.Z-c<candidate iteration>
The majority of work areas are set up to build against the most recent nightly release. To do so, run:
dbt-create -n <nightly release> <name of work area subdirectory> # E.g., NFD_DEV_240213_A9
dbt-create -l -n or dbt-create -l -b nightly.
If you want to build against a candidate release, run:
dbt-create -b candidate <candidate release> <name of work area subdirectory> # E.g., fddaq-v4.3.0-rc2-a9
dbt-create -l -b candidate.
And to build against a frozen release (not recommended, as the codebase changes fairly rapidly), you don't need the -b <release type> argument at all. You can just do:
dbt-create <frozen release> <name of work area subdirectory>
The structure of your work area will look like the following:
MyTopDir
├── build
├── dbt-workarea-constants.sh
├── env.sh
├── log
└── sourcecode
├── CMakeLists.txt
└── dbt-build-order.cmake
Advanced dbt-create options¶
Along with telling dbt-create what you want your work area to be named and what release you want it to be based off of, there are a few more options that give you finer-grained control over the work area. You can simply run dbt-create -h for a summary, but they're described in fuller detail here.
-
-s/--spack: Install a local Spack instance in the work area. This will allow you to install and load whatever Spack packages you wish into your work area. -
-q/--quick: Use this if you don't plan to develop a Python package. This is much quicker than the default behavior of dbt-create, which will actually copy the Python virtual environment over to your work area, thereby giving you write permission to the project's Python packages. With-q/--quick, the Python virtual environment your work area uses is in the (read-only) release area on cvmfs. -
-i/--install-pyvenv: With this option, there will be compilation/installation of python modules using thepyvenv_requirements.txtin the release directory. This is typically slower than cloning, but not always. You can take further control by combining it with the-p <requirements file>argument, though it's unlikely as a typical developer that you'd want a non-standard set of Python packages.
Cloning and building a package repo¶
The basics¶
First step: cd into the base of the work area you've created.
For the purposes of instruction, let's build the listrev package. Downloading it is simple:
cd sourcecode
git clone https://github.com/DUNE-DAQ/listrev.git
cd ..
Note that in a "real world" situation you'd be doing your development on a feature branch in which case you'd add -b <branch you want to work on> to the git clone command above.
We're about to build and install the listrev package. (🔴 Note: if you are working with other packages, have a look at the Working with more repos subsection before running the following build command.) By default, the scripts will create a subdirectory of MyTopDir called ./install and install any packages you build off your repos there. If you wish to install them in another location, you'll want to set the environment variable DBT_INSTALL_DIR to the desired installation path before source-ing the env.sh script described below. You'll also want to remember to set the variable during subsequent logins to the work area if you don't go with the default.
Now, do the following:
. ./env.sh # To set up your work area's environment
dbt-build
listrev in the local ./build subdirectory and then install it as a package either in the local ./install subdirectory or in whatever you pointed DBT_INSTALL_DIR to. env.sh performs two steps: it will both set up the daq-buildtools environment (if it hasn't already been set) and then it will update environment variables (LD_LIBRARY_PATH, etc.) to account for the packages in your work area. Note that whenever you add a new repo to your work area, you'll want to run the second of these two steps, dbt-workarea-env, so that environment variables such as LD_LIBRARY_PATH, etc, are again updated accordingly.
Working with more repos¶
To work with more repos, add them to the ./sourcecode subdirectory as we did with listrev. Be aware, though: if you're developing a new repo which itself depends on another new repo, daq-buildtools may not already know about this dependency. If this is the case, add the names of your new package(s) to the build_order list found in ./sourcecode/dbt-build-order.cmake, placing them in the list in the relative order in which you want them to be built.
As a reminder, once you've added your repos and built them, you'll want to run dbt-workarea-env so the environment picks up their applications, libraries, etc.
Useful build options¶
dbt-build will by default skip CMake's config+generate stages and go straight to the build stage unless either the CMakeCache.txt file isn't found in ./build or you've just added a new repo to ./sourcecode. If you want to remove all the contents of ./build and run config+generate+build, all you need to do is add the --clean option, i.e.
dbt-build --clean
And if, after the build, you want to run the unit tests, just add the --unittest option. Note that it can be used with or without --clean, so, e.g.:
dbt-build --clean --unittest # Blow away the contents of ./build, run config+generate+build, and then run the unit tests
./build, run config+generate+build, install the result in $DBT_INSTALL_DIR and then run the unit tests. Be aware that for many packages, unit tests will only (fully) work if you've also rerun dbt-workarea-env.
To check for deviations from the coding rules described in the DUNE C++ Style Guide, run with the --lint option:
dbt-build --lint
dbt-clang-format.sh in order to automatically fix whitespace issues in your code; type it at the command line without arguments to learn how to use it.
Note that unlike the other options to dbt-build, --lint and --unittest are both capable of taking an optional argument, which is the name of a specific repo in your work area which you'd like to either lint or run unit tests for. This can be useful if you're focusing on developing one of several repos in your work area; e.g. dbt-build --lint <repo you're working on>. With --lint you can get even more fine grained by passing it the name of a single file in your repository area; either the absolute path for the file or its path relative to the directory you ran dbt-build from will work.
If you want to see verbose output from the compiler, all you need to do is add the --cpp-verbose option:
dbt-build --cpp-verbose
If you want to change cmake message log level, you can use the --cmake-msg-lvl option:
dbt-build --cmake-msg-lvl=<ERROR|WARNING|NOTICE|STATUS|VERBOSE|DEBUG|TRACE>
By default the build is performed using gcc's O2 compilation flag. If you wish to use a different
dbt-build --optimize-flag O3 # Or Og, etc.
You can see all the options listed if you run the script with the --help command, i.e.
dbt-build --help
./log subdirectory. These files will have ASCII color codes which make them difficult to read with some tools; less -R <logfilename>, however, will display the colors and not the codes themselves.
Running¶
In order to access the applications, libraries and plugins built and installed into the $DBT_INSTALL_DIR area during the above procedure, the system needs to be instructed on where to look for them. This is accomplished via tha env.sh file you've already seen. E.g., log into a new shell, cd into your work area, then do the following:
export DBT_INSTALL_DIR=<your installation directory> # ONLY needed if you didn't use the default
. ./env.sh
./build - you'll need to run dbt-workarea-env.
Once the runtime environment is set, just run the application you need. listrev, however, has no applications; it's just a set of DAQ module plugins which get added to CET_PLUGIN_PATH.
Now that you know how to set up a work area, a classic option for learning about how to run DAQ modules in a work area is the listrev documentation.
In the listrev instructions you'll be running a program called nanorc to run the DAQ. To learn more about nanorc itself, take a look at the nanorc documentation.
Finding Info on Your Work Area¶
A couple of things need to be kept in mind when you're building code in a work area. The first is that when you call dbt-build, it will build your repos against a specific release of the DUNE DAQ software stack - namely, the release you (or someone else) provided to dbt-create when the work area was first created. Another is that the layout and behavior of a work area is a function of the version of daq-buildtools which was used to create it. As a work area ages it becomes increasingly likely that a problem will occur when you try to build a repo in it; this is natural and unavoidable.
As such, it's important to know the assumptions a work area makes when you use it to build code. This section covers ways to learn details about your work area and its contents.
dbt-info¶
A useful script to call to get immediate information on your development environment is dbt-info. For a full set of options you can simply run dbt-info --help, but for a quick summary, we have the following:
-
dbt-info release: tells you if it's a far detector or near detector release, what its name is (e.g.NFD_DEV_240213_A9), what the name of the base release is, and where the release is located in cvmfs. -
dbt-info package <package name>: tells you info about the DUNE DAQ package whose name you provide it (git commit hash of its code, etc.). Passing "all" as the package name gives you info for all the DUNE DAQ packages. -
dbt-info external <package name>:externalis same as thepackageoption, except you use it when you want info not on a DUNE DAQ package but an external package (e.g.,boost) -
dbt-info pymodule <python module>: get the version of a Python module. Response will differ depending on whether you have a local Python environment in your work area. -
dbt-info sourcecode: will tell you the branch each of the repos in your work area is on, as well as whether the code on the branch has been edited (indicated by an*) -
dbt-info release_size: tells you the # of packages and memory (in KB) used by each of the release, the base release, and the externals.
dbt-workarea-constants.sh¶
In the base of your work area is a file called dbt-workarea-constants.sh, which will look something like the following:
export SPACK_RELEASE="fddaq-v4.1.0"
export SPACK_RELEASES_DIR="/cvmfs/dunedaq.opensciencegrid.org/spack/releases"
export DBT_ROOT_WHEN_CREATED="/cvmfs/dunedaq.opensciencegrid.org/tools/dbt/v7.2.1"
export LOCAL_SPACK_DIR="/home/jcfree/daqbuild_fddaq-v4.1.0/.spack"
dbt-workarea-env, and it tells both the build system and the developer where they can find crucial information about the work areas' builds. Specifically, these environment variables mean the following:
-
$SPACK_RELEASE: this is the release of the DUNE DAQ software stack against which repos will build (e.g.fddaq-v4.3.0-rc2-a9,NFD_DEV_240213_A9, etc.) -
$SPACK_RELEASES_DIR: The base of the directory containing the DUNE DAQ software installations. -
DBT_ROOT_WHEN_CREATED: The directory containing theenv.shfile which was sourced before this work area was first created -
LOCAL_SPACK_DIR: If the-s/--spackwas passed todbt-createwhen the work area was built, this points to where the local Spack area is located
Useful Spack commands¶
There are also useful Spack commands which can be executed to learn about the versions of the individual packages you're working with, once you've run dbt-workarea-env or dbt-setup-release. An excellent Spack tutorial inside the official Spack documentation is worth a look, but a few Spack commands can be used right away to learn more about your environment. They're presented both for the case of you having set up a nightly release and a frozen release:
-
spack find --loaded -N | grep dunedaq-vX.Y.Zorspack find --loaded -N | grep NBwill tell you all the DUNE DAQ packages shared by both far- and near detector software which have been loaded bydbt-workarea-envordbt-setup-release -
spack find --loaded -N | grep fddaq-vX.Y.Zorspack find --loaded -N | grep FDfor far detector DUNE DAQ packages -
spack find --loaded -N | grep nddaq-vX.Y.Zorspack find --loaded -N | grep NDfor near detector DUNE DAQ packages -
spack find --loaded -N | grep dunedaq-externalsfor external packages not developed by DUNE collaborators -
spack find --loaded -p <package name>will tell you the path to the actual contents of a Spack-installed package
Finally, when dbt-build is run, a file called daq_app_rte.sh is
produced and placed in your installation area ($DBT_INSTALL_DIR). You generally don't need to think about daq_app_rte.sh unless you're curious; it's a sourceable file which contains environment variables that nanorc uses to launch processes when performing runs.
Next Step¶
- You can learn how to create a new package by taking a look at the daq-cmake documentation
Last git commit to the markdown source of this page:
Author: Andrew Mogan
Date: Thu Apr 18 11:15:59 2024 -0500
If you see a problem with the documentation on this page, please file an Issue at https://github.com/DUNE-DAQ/daq-buildtools/issues