Skip to content

pyhalov/oi-userland

 
 

Repository files navigation

	    Getting started with the Userland Consolidation


Getting Started

    This README provides a very brief overview of the gate, how to retrieve
    a copy, and how to build it.  Detailed documentation about the Userland
    gate can be found in the 'doc' directory.  Questions or comments about
    the gate can be addressed to [email protected].

Overview

    The Userland consolidation maintains a Git repository at

	https://github.com/OpenIndiana/oi-userland

    This gate contains build recipies, patches, IPS manifests, etc. necessary
    to download, prep, build, test, package and publish open source software.
    The build infrastructure is similiar to that of the SFW consolidation in
    that it makes use of herarchical Makefiles which provide dependency and
    recipe information for building the components.  In order to build the
    contents of the Userland gate, you need to clone it.  Since you are
    reading this, you probably already have.

Getting the Bits

    As mentioned, the gate is stored in a Git repository.  In order to
    build or develop in the gate, you will need to clone it.  You can do so
    with the following command

      $ git clone https://github.com/OpenIndiana/oi-userland.git /scratch/clone

    This will create a replica of the various pieces that are checked into the
    source code management system, but it does not retrieve the community
    source archives associated with the gate content.  To download the
    community source associated with your cloned workspace, you will need to
    execute the following:

      $ cd /scratch/clone/components
      $ gmake download

    This will use GNU make and the downloading tool in the gate to walk through
    all of the component directories downloading and validating the community
    source archives from the gate machine or their canonical source repository.

    There are two variation to this that you may find interesting.  First, you
    can cause gmake(1) to perform it's work in parallel by adding '-j (jobs)'
    to the command line.  Second, if you are only interested in working on a
    particular component, you can change directories to that component's
    directory and use 'gmake download' from that to only get it's source
    archive.

    Also, when you start to work with a new archive file - update the source
    version in an existing recipe component, or start a new one from scratch -
    you can use 'gmake fetch' to download the archive(s) defined in the new
    recipe, calculate the checksums and *NOT* remove the archive because its
    actual checksum does not match the value recorded in the recipe Makefile
    (if any) so the download is deemed corrupted while you know it is not.
    There is also a side-effect: by framework recipe, a file in the download
    location only depends on the component recipe Makefile. So once an archive
    is "fetched" (downloaded and not removed), it will not be re-verified -
    the downloading script is just not called. This is a moderate problem,
    since the "fetch" ability is a helper for recipe-makers doing initial
    archive downloads in a certain situation, to save some traffic and time
    on their workstations. You can still remove files fetched by a recipe
    using 'gmake clobber'.

Building the Bits

    You can build individual components or the contents of the entire gate.

  Integration with ccache to speed up re-builds

    If you happen to build the same sources several times (e.g. iterating
    attempts to produce a working recipe, or maintaining an automated build
    server), you can benefit from 'ccache' integration in 'oi-userland'.
    Note that this feature is currently experimental and off by default.

    The 'ccache' component is available as part of the project repository.
    Once you have the resulting package installed, you can pass the 'make'
    argument or environment variable 'ENABLE_CCACHE=true' to wrap the GNU
    compiler invocations with the caching program - so that the same inputs
    would re-produce same outputs quickly.

    You can pre-set this variable in your user account '~/.profile' like this:

       ### To speed up OI-userland re-builds
       ENABLE_CCACHE=true
       export ENABLE_CCACHE

    Note: be wary of ccache's own CCACHE_DISABLE environment variable: any
    value (empty, "false" etc.) is considered a "true" setting for ccache
    booleans (and so disables the program, falling through to real compiler).

  Keeping all sources in one place

    The Userland consolidation tools automate download of required source
    tarballs.  By older default they were kept in each component's directory,
    but you could centralize it by using the 'USERLAND_ARCHIVES' variable.
    Recently the defaults change to pre-initialize 'USERLAND_ARCHIVES' to
    point into '$(WS_TOP)/archives/' unless customized by the caller - for
    example, to share the common download area between multiple workspaces.

    You can pre-set this variable in your user account '~/.profile' like
    this (and note that the trailing slash is required):

       ### For oi-userland source files
       USERLAND_ARCHIVES="$HOME/Downloads/"
       export USERLAND_ARCHIVES

    See also the 'make-rules/shared-macros.mk' for 'INTERNAL_ARCHIVE_MIRROR',
    'EXTERNAL_ARCHIVE_MIRROR' and envvar 'DOWNLOAD_SEARCH_PATH' to get some
    ideas about using HTTP mirrors to e.g. reduce network load and lags if you
    can access a country- or organization-local mirror of opensource projects.

  Component build

    If you are only working on a single component, you can just build it using
    following:

      setup the workspace for building components

        $ cd (your-workspace)/components ; gmake setup

      build the individual component

        $ cd (component-dir) ; gmake publish

  Complete Top Down build

    Complete top down builds are also possible by simply running

      $ cd (your-workspace)/components
      $ gmake publish

    The 'publish' target will build each component and publish it to the
    workspace IPS repo.

    Tools to help facilitate build zone creation will be integrated
    shortly.  If the zone you create to build your workspace in does not have
    networking enabled, you can pre-download any community source archives into
    your workspace from the global with:

      $ cd (your-workspace)/components
      $ gmake download

    You can add parallelism to your builds by adding '-j (jobs)' to your gmake
    command line arguments.  Note that if the host is constrained on resources
    or the component source Makefiles are poorly thought out, parallel builds
    can fail - in this case subsequent single-job (sequential) builds should
    succeed to complete the missing build products.

    It is worth noting that the OpenIndiana Hipster build server uses the
    'COMPONENT_BUILD_ARGS=-j4' option by default for moderate parallelization
    of its builds.

    The gate should only incrementally build what it needs to based on what has
    changed since you last built it.

About

OI Userland

Resources

Security policy

Stars

Watchers

Forks

Packages

No packages published

Languages

  • C 39.6%
  • Makefile 27.2%
  • Roff 22.3%
  • HTML 4.2%
  • Shell 2.9%
  • Python 1.4%
  • Other 2.4%