Skip to content

Salt to configure Linux and Mac (x86_64, arm64) for the BBS

Notifications You must be signed in to change notification settings

Bioconductor/bioconductor_salt

Repository files navigation

Salt to Configure a Linux or Mac for the BBS

This repository contains the SaltStack formulas to configure an Ubuntu or a MacOS machine for the Bioconductor Build System.

It also builds BBS-like containers.

Simulating the BBS Ubuntu environment in a container

We are experimentally building and publishing containers under the name ghcr.io/bioconductor/bioconductor_salt, which can be used to mimic a BBS-like linux environment, in hopes of easing reproducibility and interactive debugging of the BBS environment for package developers. We currently offer containers for both release and devel Bioconductor versions with Ubuntu jammy (22.04). Container tags with various version pinnings can be used to acquire a particular environment, following the schema [ubuntu_version]-bioc-[bioc_version]-r-[r_version] eg jammy-bioc-3.18-r-4.3.2 or 22.04-bioc-3.18-r-4.3.2, where each level is optional. For example, one could use tag jammy-bioc-3.18 or 22.04-bioc-3.18 to get the latest 3.18, regardless of R version, or even simply jammy/22.04 to get the latest release container. devel- will prefix all devel container tags, followed by the same schema described above.

All containers will use the R command if no command is specified. Below are some examples for running the container.

# Interactive R session
docker run -it ghcr.io/bioconductor/bioconductor_salt:jammy
# is equivalent to
docker run -it ghcr.io/bioconductor/bioconductor_salt:jammy R

# Bash shell
docker run -it ghcr.io/bioconductor/bioconductor_salt:jammy bash

# Rscript
docker run -it ghcr.io/bioconductor/bioconductor_salt:jammy "Rscript --version"

Configuring for Ubuntu 22.04

  1. On the build machine, install the Salt minion and clone this repository:
    sudo apt install salt-minion
    

Note: If the minion is running as a daemon, you'll want to stop it as it will poll for the master periodically.

  1. Copy saltstack/minion.d/minion.conf to /etc/salt/minion.

  2. Copy the files in /saltstack to /srv.

  3. Copy ssh keys to /srv/salt/common/files.

  4. Comment add or remove any dependencies not needed for your system in /opt/salt/top.sls.

  5. Run salt, with debug or testing (test=True) if desired:

    sudo salt-call --local state.highstate -l debug
    
  6. Configure the BBS configuration files.

  7. Uncomment the desired builds in the crontab as biocbuild.

Configuring a Mac

  1. On the build machine, install Saltstack by downloading the file corresponding to your OS at https://docs.saltproject.io/salt/install-guide/en/latest/topics/install-by-operating-system/macos.html.

For example

```
curl -LO https://repo.saltproject.io/salt/py3/macos/latest/salt-3007.0-py3-x86_64.pkg
sudo installer -verbose -pkg salt-3007.0-py3-x86_64.pkg -target /
```

Log out and log back in then check if salt-call is available with which salt-call.

  1. Copy saltstack/minion.d/mac.minion.conf to /etc/salt/minion.

  2. Copy saltstack to /opt.

  3. Copy ssh keys to /opt/saltstack/salt/common/files.

  4. Comment add or remove any dependencies not needed for your system in /opt/saltstack/salt/top.sls.

  5. If creating user biocbuild, set the password in an environment variable:

    export BIOCBUILD_PASSWORD=myNewPass1

  6. Run salt, with debug or testing (test=True) if desired:

    sudo salt-call --local state.highstate -l debug
    
  7. Configure the BBS configuration files.

  8. Uncomment the desired builds in the crontab as biocbuild.

Updating R

Note: If macFuse is needed and it will be installed on the machine for the first time, you may need to enable kernel support for third party extensions. See https://github.com/macfuse/macfuse/wiki/Getting-Started.

You may also run individual states, such as to update R. After configuring the custom file for your machine, run the rlang states for your machine.

Replace the url for r_download with the new version of R in saltstack/pillar/custom/init.sls:

{% set branch = 'dev' %} {# Use 'release' or 'devel' #}
{% set version = '3.15' %}
{% set environment = 'dev' %} {# Use 'dev' or 'prod' #}
{% set r_download = 'https://stat.ethz.ch/R/daily/R-devel_2021-11-16.tar.gz' %}
{% set r_version = 'R-4.1.2' %}
{% set cycle = 'patch' %} {# Use 'devel' for Spring to Fall, 'patch' for Fall to Spring #}

Update any related variables, such as r_version. To perform the update, run

sudo salt-call --local state.apply rlang.linux

Confirm that your version of R has been updated

vagrant@nebbiolo2-dev:~$ /home/biocbuild/bbs-3.15-bioc/R/bin/R --version
R Under development (unstable) (2021-11-16 r81199) -- "Unsuffered Consequences"

Standalone Machine with BBS dependencies

If machine_type equals standalone in pillar/custom/init.sls, the machine will be configured with the dependencies needed for the build system but without the set up necessary to perform the official builds. A standalone build might be sufficient for testing R CMD INSTALL build or check. It will also reduce the time necessary for configuration.

Note: R will be along the bbs-<version>-bioc/R/bin/R path. For example, if the current version is 3.18 then the path will be bbs-3.18-bioc/R/bin/R

Salted Vagrant

Requirements

Salted Vagrant Quick Start

  1. Install Vagrant.

  2. Configure the settings in the Vagrantfile for your system.

  3. Copy saltstack/pillar/custom/example.sls to saltstack/pillar/custom/init.sls and edit the settings for your build system. Any added pillars in this file can overwrite other pillar values.

  4. To start the VM from the repository. This step will take time if it is the first time.

    vagrant up
    
  5. To access the VM

    vagrant ssh
    

    You will start as the vagrant user in the vagrant directory.

  6. Before running any builds, you should change the BBS configuration for your system. If the variable environment is set to dev in the pillar, the BBS will automatically be configured.

    Set the number of cores on your system. The build process requires a lot of resources and power.

  7. Add the builds you wish to test to the BBS/BBSreportutils.py function display_propagation_status to prevent propagation.

  8. You can vagrant halt to stop the VM or vagrant destroy to remove it.

Running builds in Vagrant

After the VM is running and Salt has reached a high state, you can run a build; however, you may want to edit file in the manifest for the packages you want to build. You should include the package and its dependencies. The following example assumes you're running 3.14 software builds.

sudo su - biocbuild
cd ~/bbs-3.14-bioc/manifest
# edit /home/biocbuild/bbs-3.14-bioc/manifest/software.txt
# prerun of build
cd /home/biocbuild/BBS/3.14/bioc/`hostname` && ./prerun.sh
>>/home/biocbuild/bbs-3.14-bioc/log/`hostname`-`date +\%Y\%m\%d`-prerun.log 2>&1
# Run of build
cd /home/biocbuild/BBS/3.14/bioc/`hostname` && ./run.sh
>>/home/biocbuild/bbs-3.14-bioc/log/`hostname`-`date +\%Y\%m\%d`-run.log 2>&1
# Postrun of build
cd /home/biocbuild/BBS/3.14/bioc/`hostname` && ./postrun.sh
>>/home/biocbuild/bbs-3.14-bioc/log/`hostname`-`date +\%Y\%m\%d`-postrun.log 2>&1

# You may want to check the log of each section; for example
tail -f ~/bbs-3.14-bioc/log/nebbiolo2-20211022-run.log

See https://github.com/Bioconductor/BBS/blob/master/Doc/Prepare-Ubuntu-20.04-HOWTO.md for more information on builds.

Notes

  • When using the VM, access the biocbuild user with sudo su - biocbuild to preserve environmental variables.
  • The prerun script will attempt to update the manifest, so you should update your manifest repository first then edit the file corresponding to the build you plan run.
  • You may want to increase the memory in the Vagrantfile if you plan to build several packages.
  • Still having issues installing Bioc package MMAPPR2.

About

Salt to configure Linux and Mac (x86_64, arm64) for the BBS

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

 
 
 

Languages