Differences between revisions 46 and 57 (spanning 11 versions)
Revision 46 as of 2022-11-07 20:58:47
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Editor: TunayDurmaz
Comment:
Revision 57 as of 2022-11-07 23:36:46
Size: 8843
Editor: TunayDurmaz
Comment:
Deletions are marked like this. Additions are marked like this.
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Login info
Jobs
Settings, Plugins
Binary builds require conda-build, constructor		  1. Login info: 10.10.11.176:8080/ username: eman2
 1. Jobs
 1. Settings, Plugins ?
 1. Binary builds require conda-build, constructor
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eman-dev
eman-deps
pydusa

General instructions
Existing feedstocks
Files to edit: recipe/, conda-build.yaml, conda-forge.yaml
conda create -n smithy conda-smithy -c conda-forge
conda-smithy rerender
More info in conda-smithy/README.md, conda smithy -h, conda-forge.org/docs
New feedstocks
conda-smithy/README.md, conda smithy -h

== Docker ? ==







= Build System Notes =


== CMake ==

 1. ''libpython'' can be linked statically or dynamically when python is built. It is important for python extensions to be aware of the type of linking in order to avoid segfaults. This can be accomplished by querying Py_ENABLE_SHARED.

 {{{#!highlight bash
python -c "import sysconfig; print(sysconfig.get_config_var('Py_ENABLE_SHARED'))"
}}}

 In EMAN, it is done in [[https://github.com/cryoem/eman2/blob/master/cmake/FindPython.cmake#L29-L73|cmake/FindPython.cmake]]

 1. OpenGL detection when Anaconda's compilers are used is done using a [[https://github.com/cryoem/eman2/blob/master/recipe/cross-linux.cmake|cmake toolchain file]].

 1. glext.h file needed for OpenGL related module compilation is already present on Linux and Mac. On Windows, it is manually copied once into C:\Program Files\Microsoft SDKs\Windows\v6.0A\Include\gl. On Appveyor it is downloaded as part of env setup every time a test is run.

 1. Compiler warnings are turned off by default and can be turned on by setting ENABLE_WARNINGS=ON
 {{{#!highlight bash
cmake <source-dir> -DENABLE_WARNINGS=ON
}}}

 1. Setting compiler and linker options by {{{include_directories, add_definitions}}} that have global affects are avoided and target-focused design employing modern cmake concepts like interface libraries are used as much as possible.


== Anaconda ==

Dependencies not available on anaconda or conda-forge are available [[https://anaconda.org/cryoem/|cryoem]]. The binaries are built and uploaded using [[https://conda-forge.org/|conda-forge's]] [[https://github.com/conda-forge/conda-smithy|conda-smithy]]. [[https://github.com/conda-forge/conda-smithy|conda-smithy]] takes care of generating feedstocks, registering them on !GitHub and online CI services and building conda recipes.

Feedstocks
Line 68: Line 17:
==== Initial Setup ====
==== Maintenance ====		 === General instructions ===
 1. Existing feedstocks
 1. Files to edit: recipe/, conda-build.yaml, conda-forge.yaml
 1. conda create -n smithy conda-smithy -c conda-forge
 1. conda-smithy rerender
 1. More info in conda-smithy/README.md, conda smithy -h, conda-forge.org/docs
 1. New feedstocks
 1. conda-smithy/README.md, conda smithy -h
Line 114: Line 69:





== Anaconda ==

Dependencies not available on anaconda or conda-forge are available [[https://anaconda.org/cryoem/|cryoem]]. The binaries are built and uploaded using [[https://conda-forge.org/|conda-forge's]] [[https://github.com/conda-forge/conda-smithy|conda-smithy]]. [[https://github.com/conda-forge/conda-smithy|conda-smithy]] takes care of generating feedstocks, registering them on !GitHub and online CI services and building conda recipes.
Line 143: Line 106:


EMAN2 is built with `conda-build` using binaries from https://anaconda.org, packaged into an installer with [[https://github.com/cryoem/constructor.git|constructor]] as of '''v2.2'''.

 1. [[https://github.com/conda/conda|conda]] is the package manager.
 1. https://anaconda.org is the online repository of binaries.
 1. [[https://github.com/conda/conda-build|conda-build]] is the tool to build from source.
 1. [[https://github.com/cryoem/constructor.git|constructor]] is the tool to package eman2 and dependency binaries into a single installer file.

EMAN2 is distributed as a single installer which includes all its dependencies.

== Conda ==

Packages that are available on https://anaconda.org can be installed into any conda environment by issuing the command {{{conda install <package>}}}. Conda installs the package along with its dependencies. In order for packages to benefit from this automation, they need to be packaged in a specific way. That can be done with {{{conda-build}}}. {{{conda-build}}} builds packages according to instructions provided in a {{{recipe}}}. A recipe consists of a file with package metadata, {{{meta.yaml}}}, and any other necessary resources like build scripts, ({{{build.sh}}}, {{{bld.bat}}}), patches and so on.

== Recipes, Feedstocks and anaconda.org channel: cryoem ==

Most of EMAN2 dependencies can be found on anaconda's channels, {{{defaults}}} and {{{conda-forge}}}. A few that do not exist or need to be customized have been built and uploaded to channel [[https://anaconda.org/cryoem/dashboard|cryoem]]. The recipes are hosted in separate repositories on [[https://github.com/cryoem/|GitHub]]. Every recipe repository follows the feedstock approach of [[http://conda-forge.github.io/|conda-forge]]. See [[https://github.com/cryoem?utf8=%E2%9C%93&q=-feedstock&type=&language=|here]] for a complete list.


== Binary Distribution ==

=== Constructor ===

Packaging is done with {{{constructor}}}, a tool for making installers from conda packages.




= Build System Notes =


== CMake ==

 1. ''libpython'' can be linked statically or dynamically when python is built. It is important for python extensions to be aware of the type of linking in order to avoid segfaults. This can be accomplished by querying Py_ENABLE_SHARED.

 {{{#!highlight bash
python -c "import sysconfig; print(sysconfig.get_config_var('Py_ENABLE_SHARED'))"
}}}

 In EMAN, it is done in [[https://github.com/cryoem/eman2/blob/master/cmake/FindPython.cmake#L29-L73|cmake/FindPython.cmake]]

 1. OpenGL detection when Anaconda's compilers are used is done using a [[https://github.com/cryoem/eman2/blob/master/recipe/cross-linux.cmake|cmake toolchain file]].

 1. glext.h file needed for OpenGL related module compilation is already present on Linux and Mac. On Windows, it is manually copied once into C:\Program Files\Microsoft SDKs\Windows\v6.0A\Include\gl. On Appveyor it is downloaded as part of env setup every time a test is run.
Line 161: Line 171:
= Under Construction =
Line 191: Line 200:
= Distribution =

== Binaries on cryoem.bcm.edu ==

== EMAN2 on anaconda.org ==


{{{#!wiki comment
= Build System Components =

digraph build_system_components {
    a [label = "Source code"]
    //=== CMake and Anaconda ===

    b [label = "Binaries"]
    //=== Test and CI ===
    d [label = "Test"]

    c [label = "Distribute"]
    c1 [label = "Package with Constructor"]
    c2 [label = "Conda recipe"]
    c3 [label = "Docker Image"]

    a -> b [ label = "CMake" ]
    b -> c
    b -> d -> c

    c -> c1
    c -> c2
    c -> c3

}


{{attachment:build_system_components.png}}
}}}





= Under Construction =


EMAN2 is built with `conda-build` using binaries from https://anaconda.org, packaged into an installer with [[https://github.com/cryoem/constructor.git|constructor]] as of '''v2.2'''.

 1. [[https://github.com/conda/conda|conda]] is the package manager.
 1. https://anaconda.org is the online repository of binaries.
 1. [[https://github.com/conda/conda-build|conda-build]] is the tool to build from source.
 1. [[https://github.com/cryoem/constructor.git|constructor]] is the tool to package eman2 and dependency binaries into a single installer file.

EMAN2 is distributed as a single installer which includes all its dependencies. However, EMAN2 is not available as a conda-package on https://anaconda.org. In other words it is not possible to install EMAN2 by typing {{{conda install eman2}}}.

== Conda ==

Packages that are available on https://anaconda.org can be installed into any conda environment by issuing the command {{{conda install <package>}}}. Conda installs the package along with its dependencies. In order for packages to benefit from this automation, they need to be packaged in a specific way. That can be done with {{{conda-build}}}. {{{conda-build}}} builds packages according to instructions provided in a {{{recipe}}}. A recipe consists of a file with package metadata, {{{meta.yaml}}}, and any other necessary resources like build scripts, ({{{build.sh}}}, {{{bld.bat}}}), patches and so on.

== Recipes, Feedstocks and anaconda.org channel: cryoem ==

Most of EMAN2 dependencies can be found on anaconda's channels, {{{defaults}}} and {{{conda-forge}}}. A few that do not exist or need to be customized have been built and uploaded to channel [[https://anaconda.org/cryoem/dashboard|cryoem]]. The recipes are hosted in separate repositories on [[https://github.com/cryoem/|GitHub]]. Every recipe repository follows the feedstock approach of [[http://conda-forge.github.io/|conda-forge]]. See [[https://github.com/cryoem?utf8=%E2%9C%93&q=-feedstock&type=&language=|here]] for a complete list.


== Binary Distribution ==

=== Constructor ===

Packaging is done with {{{constructor}}}, a tool for making installers from conda packages. In order to slightly customize the installers the project was forked. The customized project is at https://github.com/cryoem/constructor. The input files for {{{constructor}}} are maintained at --(https://github.com/cryoem/docker-images )-- https://github.com/cryoem/build-scripts.

The installer has additional tools like {{{conda}}}, {{{conda-build}}}, {{{pip}}} bundled. The installer is setup so that the packages are kept in the installed EMAN2 conda environment cache for convenience.

Contents

    1. Jenkins
    2. Feedstocks
      1. General instructions
      2. Conda-smithy Workflow
    3. Anaconda
  2. Continuous Integration
    1. Conda
    2. Recipes, Feedstocks and anaconda.org channel: cryoem
    3. Binary Distribution
      1. Constructor
  3. Build System Notes
    1. CMake
  4. Jenkins Setup
      1. Jenkins Setup on Linux
  5. Jenkins Setup
    1. Linux
    2. Mac
    3. Windows
        1. Docker

Jenkins

  1. Login info: 10.10.11.176:8080/ username: eman2
  2. Jobs
  3. Settings, Plugins ?
  4. Binary builds require conda-build, constructor

Feedstocks

General instructions

  1. Existing feedstocks
  2. Files to edit: recipe/, conda-build.yaml, conda-forge.yaml
  3. conda create -n smithy conda-smithy -c conda-forge
  4. conda-smithy rerender
  5. More info in conda-smithy/README.md, conda smithy -h, conda-forge.org/docs
  6. New feedstocks
  7. conda-smithy/README.md, conda smithy -h

Conda-smithy Workflow

Conda smithy uses tokens to authenticate with GitHub. 

  •    1 # conda-forge.yml
   2 
   3 channels:
   4   sources: [cryoem, defaults, conda-forge]
   5   targets:
   6   - [cryoem, main]
   7 
   8 github:
   9   user_or_org: cryoem
  10   repo_name: <package>-feedstock
  11 
  12 provider:
  13   linux: circle
  14   osx: travis
  15   win: appveyor
  16 
  17 azure:
  18   build_id: blank

       1 # recipe/conda_build_config.yaml
   2 
   3 channel_sources:
   4 - cryoem, defaults,conda-forge
   5 channel_targets:
   6 - cryoem dev

Conda-smithy commands: 

  •    1 conda create -n smithy conda-smithy
   2 conda activate smithy
   3 conda smithy init <recipe_directory>
   4 conda smithy register-github <feedstock_directory> --organization cryoem
   5 conda smithy register-ci --organization cryoem --without-azure --without-drone
   6 conda smithy rerender --no-check-uptodate

Anaconda

Dependencies not available on anaconda or conda-forge are available cryoem. The binaries are built and uploaded using conda-forge's conda-smithy. conda-smithy takes care of generating feedstocks, registering them on GitHub and online CI services and building conda recipes.

Continuous Integration

  1. GitHub webhooks are setup to send notifications to blake. Blake forwards those to three build machines, although only Linux is sufficient. Linux runs the server that drives the the Jenkins jobs.

  2. Binary builds on local build machines.

    1. Manually triggered by including "[ci build]" anywhere in the last commit message. Manually triggered builds on master branch are uploaded as continuous builds and builds triggered from any other branch are uploaded to testing area.

    2. Triggered by cron builds daily.

    3. Any branch in the form of "release-" triggers continuous builds without having to include "[ci build]" in the commit message. Once the release branch is ready, release binaries are manually copied from cont. builds folder into the release folder on the server.
  3. CI configurations files:

    1. CircleCI: .circleci/config.yml

    2. TravisCI: .travis.yml

    3. Appveyor: appveyor.yml

    4. JenkinsCI: Jenkinsfile

      1. Secrets like ssh keys are stored locally in Jenkins
      2. Some env vars need to be set by agents:
        1. HOME_DIR, DEPLOY_PATH, PATH+EXTRA (to add miniconda to PATH).
        2. PATH+EXTRA is not set on win. (?)
          1. Now, it is set on win, too. 
      3.  Launch method: via SSH
   Advanced:
     Prefix Start Agent Command: "D: && "
      4. On windows for sh calls in jenkins to work "Git for Windows" might need to be installed.

EMAN2 is built with conda-build using binaries from https://anaconda.org, packaged into an installer with constructor as of v2.2.

  1. conda is the package manager.

  2. https://anaconda.org is the online repository of binaries.

  3. conda-build is the tool to build from source.

  4. constructor is the tool to package eman2 and dependency binaries into a single installer file.

EMAN2 is distributed as a single installer which includes all its dependencies.

Conda

Packages that are available on https://anaconda.org can be installed into any conda environment by issuing the command conda install <package>. Conda installs the package along with its dependencies. In order for packages to benefit from this automation, they need to be packaged in a specific way. That can be done with conda-build. conda-build builds packages according to instructions provided in a recipe. A recipe consists of a file with package metadata, meta.yaml, and any other necessary resources like build scripts, (build.sh, bld.bat), patches and so on.

Recipes, Feedstocks and anaconda.org channel: cryoem

Most of EMAN2 dependencies can be found on anaconda's channels, defaults and conda-forge. A few that do not exist or need to be customized have been built and uploaded to channel cryoem. The recipes are hosted in separate repositories on GitHub. Every recipe repository follows the feedstock approach of conda-forge. See here for a complete list.

Binary Distribution

Constructor

Packaging is done with constructor, a tool for making installers from conda packages.

Build System Notes

CMake

  1. libpython can be linked statically or dynamically when python is built. It is important for python extensions to be aware of the type of linking in order to avoid segfaults. This can be accomplished by querying Py_ENABLE_SHARED. 

       1 python -c "import sysconfig; print(sysconfig.get_config_var('Py_ENABLE_SHARED'))"

    In EMAN, it is done in cmake/FindPython.cmake

  2. OpenGL detection when Anaconda's compilers are used is done using a cmake toolchain file.

  3. glext.h file needed for OpenGL related module compilation is already present on Linux and Mac. On Windows, it is manually copied once into C:\Program Files\Microsoft SDKs\Windows\v6.0A\Include\gl. On Appveyor it is downloaded as part of env setup every time a test is run.

Jenkins Setup

Jenkins run command(?)

Server on Linux, agents on Linux, Mac and Windows

Jobs:

  • multi: Triggers job cryoem-eman2 on agents
  • cryoem-eman2: Test(?) and binary builds
  • eman-dev(?): Triggers new build of eman-dev

Jenkins Setup on Linux

Credentials

PATH

Jenkins Setup

  1. Jenkins master needs PATH prepended with $CONDA_PREFIX/bin
  2. docker-compose.yml at home dir in build machines

  3. TZ: https://stackoverflow.com/a/46384925

  4. Agent nodes setup
  5. Server and agent per machine vs single server and os agents

Linux

docker run -d -u root -p 8080:8080 -p 50000:50000 --restart unless-stopped -v /home/eman2/jenkins_home:/var/jenkins_home -v /var/run/docker.sock:/var/run/docker.sock jenkins/jenkins:lts &

docker run -d -u root --name jenkins-master -p 8080:8080 -p 50000:50000 --restart unless-stopped -v /home/eman2/jenkins_home:/var/jenkins_home -v /var/run/docker.sock:/var/run/docker.sock -e PLUGINS_FORCE_UPGRADE=true -e TRY_UPGRADE_IF_NO_MARKER=true --restart unless-stopped cryoem/jenkins:dev

Mac

slave clock sync https://blog.shameerc.com/2017/03/quick-tip-fixing-time-drift-issue-on-docker-for-mac docker run --rm --privileged alpine hwclock -s

Windows

OPENGL: https://github.com/conda/conda-recipes/blob/master/qt5/notes.md

Docker

Docker images and helper scripts are at https://github.com/cryoem/docker-images https://github.com/cryoem/build-scripts.

Command to run docker with GUI support, CentOS7: 

xhost + local:root

docker run -it -v /tmp/.X11-unix:/tmp/.X11-unix -e DISPLAY=unix$DISPLAY cryoem/eman-nvidia-cuda8-centos7

# When done with eman
xhost - local:root

:FIXME: Runs as root on Linux. chown doesn't work, the resulting installer has root ownership.

EMAN2/BuildSystem (last edited 2022-12-12 03:42:44 by TunayDurmaz)