summaryrefslogtreecommitdiff
path: root/doc/pkgsrc.txt
blob: 650954bd52f5f76c9212d9edb3ff671937ded2e6 (plain)
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The pkgsrc guide

Documentation on the NetBSD packages system

Alistair Crooks

<agc@NetBSD.org>

Hubert Feyrer

<hubertf@NetBSD.org>

The pkgsrc Developers

Copyright   1994-2020 The NetBSD Foundation, Inc

$NetBSD: pkgsrc.xml,v 1.36 2020/01/03 15:55:24 leot Exp $

Abstract

pkgsrc is a centralized package management system for Unix-like operating
systems. This guide provides information for users and developers of pkgsrc. It
covers installation of binary and source packages, creation of binary and
source packages and a high-level overview about the infrastructure.

-------------------------------------------------------------------------------

Table of Contents

1. What is pkgsrc?

    1.1. Introduction

        1.1.1. Why pkgsrc?
        1.1.2. Supported platforms

    1.2. Overview
    1.3. Terminology

        1.3.1. Roles involved in pkgsrc

    1.4. Typography

I. The pkgsrc user's guide

    2. Getting help
    3. Where to get pkgsrc and how to keep it up-to-date

        3.1. Getting pkgsrc for the first time

            3.1.1. As tar archive
            3.1.2. Via anonymous CVS

        3.2. Keeping pkgsrc up-to-date

            3.2.1. Via tar files
            3.2.2. Via CVS

    4. Using pkgsrc on systems other than NetBSD

        4.1. Binary distribution
        4.2. Bootstrapping pkgsrc

    5. Using pkgsrc

        5.1. Using binary packages

            5.1.1. Finding binary packages
            5.1.2. Installing binary packages
            5.1.3. Deinstalling packages
            5.1.4. Getting information about installed packages
            5.1.5. Checking for security vulnerabilities in installed packages
            5.1.6. Finding if newer versions of your installed packages are in
                pkgsrc
            5.1.7. Other administrative functions

        5.2. Building packages from source

            5.2.1. Requirements
            5.2.2. Fetching distfiles
            5.2.3. How to build and install

    6. Configuring pkgsrc

        6.1. General configuration
        6.2. Variables affecting the build process
        6.3. Variables affecting the installation process
        6.4. Selecting and configuring the compiler

            6.4.1. Selecting the compiler
            6.4.2. Additional flags to the compiler (CFLAGS)
            6.4.3. Additional flags to the linker (LDFLAGS)

        6.5. Developer/advanced settings
        6.6. Selecting Build Options

    7. Creating binary packages

        7.1. Building a single binary package
        7.2. Settings for creation of binary packages

    8. Creating binary packages for everything in pkgsrc (bulk builds)

        8.1. Preparations
        8.2. Running a pbulk-style bulk build

            8.2.1. Configuration

        8.3. Requirements of a full bulk build
        8.4. Creating a multiple CD-ROM packages collection

            8.4.1. Example of cdpack

    9. Directory layout of the installed files

        9.1. File system layout in ${LOCALBASE}
        9.2. File system layout in ${VARBASE}

    10. Frequently Asked Questions

        10.1. Are there any mailing lists for pkg-related discussion?
        10.2. Utilities for package management (pkgtools)
        10.3. How to use pkgsrc as non-root
        10.4. How to resume transfers when fetching distfiles?
        10.5. How can I install/use modular X.org from pkgsrc?
        10.6. How to fetch files from behind a firewall
        10.7. How to fetch files from HTTPS sites
        10.8. How do I tell make fetch to do passive FTP?
        10.9. How to fetch all distfiles at once
        10.10. What does "Don't know how to make /usr/share/tmac/tmac.andoc"
            mean?
        10.11. What does "Could not find bsd.own.mk" mean?
        10.12. Using 'sudo' with pkgsrc
        10.13. How do I change the location of configuration files?
        10.14. Automated security checks
        10.15. Why do some packages ignore my CFLAGS?
        10.16. A package does not build. What shall I do?
        10.17. What does "Makefile appears to contain unresolved cvs/rcs/???
            merge conflicts" mean?

II. The pkgsrc developer's guide

    11. Getting help
    12. Creating a new pkgsrc package from scratch

        12.1. Common types of packages

            12.1.1. Perl modules
            12.1.2. Python modules and programs
            12.1.3. R packages
            12.1.4. TeXlive packages

        12.2. Examples

            12.2.1. How the www/nvu package came into pkgsrc

    13. Package components - files, directories and contents

        13.1. Makefile
        13.2. distinfo
        13.3. patches/*

            13.3.1. Structure of a single patch file
            13.3.2. Creating patch files
            13.3.3. Sources where the patch files come from
            13.3.4. Patching guidelines
            13.3.5. Feedback to the author

        13.4. Other mandatory files
        13.5. Optional files

            13.5.1. Files affecting the binary package
            13.5.2. Files affecting the build process
            13.5.3. Files affecting nothing at all

        13.6. work*
        13.7. files/*

    14. Programming in Makefiles

        14.1. Caveats
        14.2. Makefile variables

            14.2.1. Naming conventions

        14.3. Code snippets

            14.3.1. Adding things to a list
            14.3.2. Echoing a string exactly as-is
            14.3.3. Passing CFLAGS to GNU configure scripts
            14.3.4. Handling possibly empty variables

    15. PLIST issues

        15.1. RCS ID
        15.2. Semi-automatic PLIST generation
        15.3. Tweaking output of make print-PLIST
        15.4. Variable substitution in PLIST
        15.5. Man page compression
        15.6. Changing PLIST source with PLIST_SRC
        15.7. Platform-specific and differing PLISTs
        15.8. Build-specific PLISTs
        15.9. Sharing directories between packages

    16. Buildlink methodology

        16.1. Converting packages to use buildlink3
        16.2. Writing buildlink3.mk files

            16.2.1. Anatomy of a buildlink3.mk file
            16.2.2. Updating BUILDLINK_API_DEPENDS.pkg and
                BUILDLINK_ABI_DEPENDS.pkg in buildlink3.mk files

        16.3. Writing builtin.mk files

            16.3.1. Anatomy of a builtin.mk file
            16.3.2. Global preferences for native or pkgsrc software

    17. The pkginstall framework

        17.1. Files and directories outside the installation prefix

            17.1.1. Directory manipulation
            17.1.2. File manipulation

        17.2. Configuration files

            17.2.1. How PKG_SYSCONFDIR is set
            17.2.2. Telling the software where configuration files are
            17.2.3. Patching installations
            17.2.4. Disabling handling of configuration files

        17.3. System startup scripts

            17.3.1. Disabling handling of system startup scripts

        17.4. System users and groups
        17.5. System shells

            17.5.1. Disabling shell registration

        17.6. Fonts

            17.6.1. Disabling automatic update of the fonts databases

    18. Options handling

        18.1. Global default options
        18.2. Converting packages to use bsd.options.mk
        18.3. Option Names
        18.4. Determining the options of dependencies

    19. The build process

        19.1. Introduction
        19.2. Program location
        19.3. Directories used during the build process
        19.4. Running a phase
        19.5. The fetch phase

            19.5.1. What to fetch and where to get it from
            19.5.2. How are the files fetched?

        19.6. The checksum phase
        19.7. The extract phase
        19.8. The patch phase
        19.9. The tools phase
        19.10. The wrapper phase
        19.11. The configure phase
        19.12. The build phase
        19.13. The test phase
        19.14. The install phase
        19.15. The package phase
        19.16. Cleaning up
        19.17. Other helpful targets

    20. Tools needed for building or running

        20.1. Tools for pkgsrc builds
        20.2. Tools needed by packages
        20.3. Tools provided by platforms

    21. Making your package work

        21.1. General operation

            21.1.1. How to pull in user-settable variables from mk.conf
            21.1.2. User interaction
            21.1.3. Handling licenses
            21.1.4. Restricted packages
            21.1.5. Handling dependencies
            21.1.6. Handling conflicts with other packages
            21.1.7. Packages that cannot or should not be built
            21.1.8. Packages which should not be deleted, once installed
            21.1.9. Handling packages with security problems
            21.1.10. How to handle incrementing versions when fixing an
                existing package
            21.1.11. Substituting variable text in the package files (the SUBST
                framework)

        21.2. The fetch phase

            21.2.1. Packages whose distfiles aren't available for plain
                downloading
            21.2.2. How to handle modified distfiles with the 'old' name
            21.2.3. Packages hosted on github.com

        21.3. The configure phase

            21.3.1. Shared libraries - libtool
            21.3.2. Using libtool on GNU packages that already support libtool
            21.3.3. GNU Autoconf/Automake

        21.4. Programming languages

            21.4.1. C, C++, and Fortran
            21.4.2. Java
            21.4.3. Packages containing perl scripts
            21.4.4. Packages containing shell scripts
            21.4.5. Other programming languages

        21.5. The build phase

            21.5.1. Compiling C and C++ code conditionally
            21.5.2. How to handle compiler bugs
            21.5.3. Undefined reference to "..."
            21.5.4. Running out of memory

        21.6. The install phase

            21.6.1. Creating needed directories
            21.6.2. Where to install documentation
            21.6.3. Installing highscore files
            21.6.4. Adding DESTDIR support to packages
            21.6.5. Packages with hardcoded paths to other interpreters
            21.6.6. Packages installing perl modules
            21.6.7. Packages installing info files
            21.6.8. Packages installing man pages
            21.6.9. Packages installing GConf data files
            21.6.10. Packages installing scrollkeeper/rarian data files
            21.6.11. Packages installing X11 fonts
            21.6.12. Packages installing GTK2 modules
            21.6.13. Packages installing SGML or XML data
            21.6.14. Packages installing extensions to the MIME database
            21.6.15. Packages using intltool
            21.6.16. Packages installing startup scripts
            21.6.17. Packages installing TeX modules
            21.6.18. Packages supporting running binaries in emulation
            21.6.19. Packages installing hicolor theme icons
            21.6.20. Packages installing desktop files

        21.7. Marking packages as having problems

    22. Debugging
    23. Submitting and Committing

        23.1. Submitting binary packages
        23.2. Submitting source packages (for non-NetBSD-developers)
        23.3. General notes when adding, updating, or removing packages
        23.4. Commit Messages
        23.5. Committing: Adding a package to CVS
        23.6. Updating a package to a newer version
        23.7. Renaming a package in pkgsrc
        23.8. Moving a package in pkgsrc

    24. Frequently Asked Questions
    25. GNOME packaging and porting

        25.1. Meta packages
        25.2. Packaging a GNOME application
        25.3. Updating GNOME to a newer version
        25.4. Patching guidelines

III. The pkgsrc infrastructure internals

    26. Design of the pkgsrc infrastructure

        26.1. The meaning of variable definitions
        26.2. Avoiding problems before they arise
        26.3. Variable evaluation

            26.3.1. At load time
            26.3.2. At runtime

        26.4. How can variables be specified?
        26.5. Designing interfaces for Makefile fragments

            26.5.1. Procedures with parameters
            26.5.2. Actions taken on behalf of parameters

        26.6. The order in which files are loaded

            26.6.1. The order in bsd.prefs.mk
            26.6.2. The order in bsd.pkg.mk

    27. Regression tests

        27.1. Running the regression tests
        27.2. Adding a new regression test

            27.2.1. Overridable functions
            27.2.2. Helper functions

    28. Porting pkgsrc

        28.1. Porting pkgsrc to a new operating system

A. A simple example package: bison

    A.1. files

        A.1.1. Makefile
        A.1.2. DESCR
        A.1.3. PLIST
        A.1.4. Checking a package with pkglint

    A.2. Steps for building, installing, packaging

B. Build logs

    B.1. Building figlet
    B.2. Packaging figlet

C. Directory layout of the pkgsrc FTP server

    C.1. distfiles: The distributed source files
    C.2. misc: Miscellaneous things
    C.3. packages: Binary packages
    C.4. reports: Bulk build reports
    C.5. current, stable, pkgsrc-20xxQy: source packages

D. Help topics
E. Editing guidelines for the pkgsrc guide

    E.1. Make targets
    E.2. Procedure

List of Tables

1.1. Platforms supported by pkgsrc
13.1. Patching examples
25.1. PLIST handling for GNOME packages

Chapter 1. What is pkgsrc?

Table of Contents

1.1. Introduction

    1.1.1. Why pkgsrc?
    1.1.2. Supported platforms

1.2. Overview
1.3. Terminology

    1.3.1. Roles involved in pkgsrc

1.4. Typography

1.1. Introduction

There is a lot of software freely available for Unix-based systems, which is
usually available in form of the source code. Before such software can be used,
it needs to be configured to the local system, compiled and installed, and this
is exactly what The NetBSD Packages Collection (pkgsrc) does. pkgsrc also has
some basic commands to handle binary packages, so that not every user has to
build the packages for himself, which is a time-costly task.

pkgsrc currently contains several thousand packages, including:

  * www/apache24 - The Apache web server

  * www/firefox - The Firefox web browser

  * meta-pkgs/gnome - The GNOME Desktop Environment

  * meta-pkgs/kde4 - The K Desktop Environment

? just to name a few.

pkgsrc has built-in support for handling varying dependencies, such as pthreads
and X11, and extended features such as IPv6 support on a range of platforms.

1.1.1. Why pkgsrc?

pkgsrc provides the following key features:

  * Easy building of software from source as well as the creation and
    installation of binary packages. The source and latest patches are
    retrieved from a master or mirror download site, checksum verified, then
    built on your system. Support for binary-only distributions is available
    for both native platforms and NetBSD emulated platforms.

  * All packages are installed in a consistent directory tree, including
    binaries, libraries, man pages and other documentation.

  * Tracking of package dependencies automatically, including when performing
    updates, to ensure required packages are installed. The configuration files
    of various packages are handled automatically during updates, so local
    changes are preserved.

  * Like NetBSD, pkgsrc is designed with portability in mind and consists of
    highly portable code. This allows the greatest speed of development when
    porting to a new platform. This portability also ensures that pkgsrc is 
    consistent across all platforms.

  * The installation prefix, acceptable software licenses, international
    encryption requirements and build-time options for a large number of
    packages are all set in a simple, central configuration file.

  * The entire source (not including the distribution files) is freely
    available under a BSD license, so you may extend and adapt pkgsrc to your
    needs. Support for local packages and patches is available right out of the
    box, so you can configure it specifically for your environment.

The following principles are basic to pkgsrc:

  * "It should only work if it's right." ? That means, if a package contains
    bugs, it's better to find them and to complain about them rather than to
    just install the package and hope that it works. There are numerous checks
    in pkgsrc that try to find such bugs: Static analysis tools (pkgtools/
    pkglint), build-time checks (portability of shell scripts), and
    post-installation checks (installed files, references to shared libraries,
    script interpreters).

  * "If it works, it should work everywhere" ? Like NetBSD has been ported to
    many hardware architectures, pkgsrc has been ported to many operating
    systems. Care is taken that packages behave the same on all platforms.

1.1.2. Supported platforms

pkgsrc consists of both a source distribution and a binary distribution for
these operating systems. After retrieving the required source or binaries, you
can be up and running with pkgsrc in just minutes!

pkgsrc was derived from FreeBSD's ports system, and initially developed for
NetBSD only. Since then, pkgsrc has grown a lot, and now supports the following
platforms:

Table 1.1. Platforms supported by pkgsrc

+-----------------------------------------------------------------------------+
|               Platform               | Date Support  |        Notes         |
|                                      |     Added     |                      |
|--------------------------------------+---------------+----------------------|
|NetBSD                                |   Aug 1997    |                      |
|--------------------------------------+---------------+----------------------|
|Solaris                               |   Mar 1999    |README.Solaris        |
|--------------------------------------+---------------+----------------------|
|Linux                                 |   Jun 1999    |README.Linux          |
|--------------------------------------+---------------+----------------------|
|Darwin / Mac OS X / OS X / macOS      |   Oct 2001    |README.MacOSX         |
|--------------------------------------+---------------+----------------------|
|FreeBSD                               |   Nov 2002    |README.FreeBSD        |
|--------------------------------------+---------------+----------------------|
|OpenBSD                               |   Nov 2002    |README.OpenBSD        |
|--------------------------------------+---------------+----------------------|
|IRIX                                  |   Dec 2002    |README.IRIX           |
|                                      |               |README.IRIX5.3        |
|--------------------------------------+---------------+----------------------|
|BSD/OS                                |   Dec 2003    |                      |
|--------------------------------------+---------------+----------------------|
|AIX                                   |   Dec 2003    |README.AIX            |
|--------------------------------------+---------------+----------------------|
|Interix (Microsoft Windows Services   |   Mar 2004    |README.Interix        |
|for Unix)                             |               |                      |
|--------------------------------------+---------------+----------------------|
|DragonFlyBSD                          |   Oct 2004    |                      |
|--------------------------------------+---------------+----------------------|
|OSF/1                                 |   Nov 2004    |README.OSF1           |
|--------------------------------------+---------------+----------------------|
|HP-UX                                 |   Apr 2007    |README.HPUX           |
|--------------------------------------+---------------+----------------------|
|Haiku                                 |   Sep 2010    |README.Haiku          |
|--------------------------------------+---------------+----------------------|
|MirBSD                                |   Jan 2011    |                      |
|--------------------------------------+---------------+----------------------|
|Minix3                                |   Nov 2011    |README.Minix3         |
|--------------------------------------+---------------+----------------------|
|Cygwin                                |   Mar 2013    |README.Cygwin         |
|--------------------------------------+---------------+----------------------|
|GNU/kFreeBSD                          |   Jul 2013    |README.GNUkFreeBSD    |
|--------------------------------------+---------------+----------------------|
|Bitrig                                |   Jun 2014    |README.Bitrig         |
+-----------------------------------------------------------------------------+


1.2. Overview

This document is divided into three parts. The first, The pkgsrc user's guide,
describes how one can use one of the packages in the Package Collection, either
by installing a precompiled binary package, or by building one's own copy using
the NetBSD package system. The second part, The pkgsrc developer's guide,
explains how to prepare a package so it can be easily built by other NetBSD
users without knowing about the package's building details. The third part, The
pkgsrc infrastructure internals is intended for those who want to understand
how pkgsrc is implemented.

This document is available in various formats: HTML, PDF, PS, TXT.

1.3. Terminology

There has been a lot of talk about "ports", "packages", etc. so far. Here is a
description of all the terminology used within this document.

Package

    A set of files and building instructions that describe what's necessary to
    build a certain piece of software using pkgsrc. Packages are traditionally
    stored under /usr/pkgsrc, but may be stored in any location, referred to as
    PKGSRCDIR.

The NetBSD package system

    This is the former name of "pkgsrc". It is part of the NetBSD operating
    system and can be bootstrapped to run on non-NetBSD operating systems as
    well. It handles building (compiling), installing, and removing of
    packages.

Distfile

    This term describes the file or files that are provided by the author of
    the piece of software to distribute his work. All the changes necessary to
    build on NetBSD are reflected in the corresponding package. Usually the
    distfile is in the form of a compressed tar-archive, but other types are
    possible, too. Distfiles are usually stored below /usr/pkgsrc/distfiles.

Port

    This is the term used by FreeBSD and OpenBSD people for what we call a
    package. In NetBSD terminology, "port" refers to a different architecture.

Precompiled/binary package

    A set of binaries built with pkgsrc from a distfile and stuffed together in
    a single .tgz file so it can be installed on machines of the same machine
    architecture without the need to recompile. Packages are usually generated
    in /usr/pkgsrc/packages; there is also an archive on ftp.NetBSD.org.

    Sometimes, this is referred to by the term "package" too, especially in the
    context of precompiled packages.

Program

    The piece of software to be installed which will be constructed from all
    the files in the distfile by the actions defined in the corresponding
    package.

1.3.1. Roles involved in pkgsrc

pkgsrc users

    The pkgsrc users are people who use the packages provided by pkgsrc.
    Typically they are system administrators. The people using the software
    that is inside the packages (maybe called "end users") are not covered by
    the pkgsrc guide.

    There are two kinds of pkgsrc users: Some only want to install pre-built
    binary packages. Others build the pkgsrc packages from source, either for
    installing them directly or for building binary packages themselves. For
    pkgsrc users Part I, "The pkgsrc user's guide" should provide all necessary
    documentation.

package maintainers

    A package maintainer creates packages as described in Part II, "The pkgsrc
    developer's guide".

infrastructure developers

    These people are involved in all those files that live in the mk/ directory
    and below. Only these people should need to read through Part III, "The
    pkgsrc infrastructure internals", though others might be curious, too.

1.4. Typography

When giving examples for commands, shell prompts are used to show if the
command should/can be issued as root, or if "normal" user privileges are
sufficient. We use a # for root's shell prompt, a % for users' shell prompt,
assuming they use the C-shell or tcsh and a $ for bourne shell and derivatives.

Part I. The pkgsrc user's guide

Table of Contents

2. Getting help
3. Where to get pkgsrc and how to keep it up-to-date

    3.1. Getting pkgsrc for the first time

        3.1.1. As tar archive
        3.1.2. Via anonymous CVS

    3.2. Keeping pkgsrc up-to-date

        3.2.1. Via tar files
        3.2.2. Via CVS

4. Using pkgsrc on systems other than NetBSD

    4.1. Binary distribution
    4.2. Bootstrapping pkgsrc

5. Using pkgsrc

    5.1. Using binary packages

        5.1.1. Finding binary packages
        5.1.2. Installing binary packages
        5.1.3. Deinstalling packages
        5.1.4. Getting information about installed packages
        5.1.5. Checking for security vulnerabilities in installed packages
        5.1.6. Finding if newer versions of your installed packages are in
            pkgsrc
        5.1.7. Other administrative functions

    5.2. Building packages from source

        5.2.1. Requirements
        5.2.2. Fetching distfiles
        5.2.3. How to build and install

6. Configuring pkgsrc

    6.1. General configuration
    6.2. Variables affecting the build process
    6.3. Variables affecting the installation process
    6.4. Selecting and configuring the compiler

        6.4.1. Selecting the compiler
        6.4.2. Additional flags to the compiler (CFLAGS)
        6.4.3. Additional flags to the linker (LDFLAGS)

    6.5. Developer/advanced settings
    6.6. Selecting Build Options

7. Creating binary packages

    7.1. Building a single binary package
    7.2. Settings for creation of binary packages

8. Creating binary packages for everything in pkgsrc (bulk builds)

    8.1. Preparations
    8.2. Running a pbulk-style bulk build

        8.2.1. Configuration

    8.3. Requirements of a full bulk build
    8.4. Creating a multiple CD-ROM packages collection

        8.4.1. Example of cdpack

9. Directory layout of the installed files

    9.1. File system layout in ${LOCALBASE}
    9.2. File system layout in ${VARBASE}

10. Frequently Asked Questions

    10.1. Are there any mailing lists for pkg-related discussion?
    10.2. Utilities for package management (pkgtools)
    10.3. How to use pkgsrc as non-root
    10.4. How to resume transfers when fetching distfiles?
    10.5. How can I install/use modular X.org from pkgsrc?
    10.6. How to fetch files from behind a firewall
    10.7. How to fetch files from HTTPS sites
    10.8. How do I tell make fetch to do passive FTP?
    10.9. How to fetch all distfiles at once
    10.10. What does "Don't know how to make /usr/share/tmac/tmac.andoc" mean?
    10.11. What does "Could not find bsd.own.mk" mean?
    10.12. Using 'sudo' with pkgsrc
    10.13. How do I change the location of configuration files?
    10.14. Automated security checks
    10.15. Why do some packages ignore my CFLAGS?
    10.16. A package does not build. What shall I do?
    10.17. What does "Makefile appears to contain unresolved cvs/rcs/??? merge
        conflicts" mean?

Chapter 2. Getting help

To get help when using pkgsrc, the definitive source is this document, the
pkgsrc guide. If you don't find anything here, there are alternatives:

  * The built-in pkgsrc help, which is available after bootstrapping pkgsrc.
    Run bmake help topic=? to get help for any topic, such as a variable name
    like BUILD_DEFS, a make target like do-build, a missing C or C++ function
    like strcasecmp or any other topic.

    The available help topics are listed in Appendix D, Help topics.

  * To see the value of a single variable, run bmake show-var VARNAME=X.

  * To see the values of the most common variables, run bmake show-all. These
    variables are grouped by topic. To see the variables for a single topic,
    run bmake show-all-topic, for example bmake show-all-fetch.

  * The pkgsrc-users mailing list, to which you can subscribe and then ask your
    questions.

  * The #pkgsrc IRC channel, which is accessible via a web browser or by using
    a specialized chat program such as XChat. Pick any user name and join the
    channel #pkgsrc.

Chapter 3. Where to get pkgsrc and how to keep it up-to-date

Table of Contents

3.1. Getting pkgsrc for the first time

    3.1.1. As tar archive
    3.1.2. Via anonymous CVS

3.2. Keeping pkgsrc up-to-date

    3.2.1. Via tar files
    3.2.2. Via CVS

Before you download and extract the files, you need to decide where you want to
extract them. When using pkgsrc as root user, pkgsrc is usually installed in /
usr/pkgsrc. You are though free to install the sources and binary packages
wherever you want in your filesystem, provided that the pathname does not
contain white-space or other characters that are interpreted specially by the
shell and some other programs. A safe bet is to use only letters, digits,
underscores and dashes.

3.1. Getting pkgsrc for the first time

Before you download any pkgsrc files, you should decide whether you want the 
current branch or the stable branch. The latter is forked on a quarterly basis
from the current branch and only gets modified for security updates. The names
of the stable branches are built from the year and the quarter, for example
2019Q4.

The second step is to decide how you want to download pkgsrc. You can get it as
a tar file or via CVS. Both ways are described here.

Note that tar archive contains CVS working copy. Thus you can switch to using
CVS at any later time.

3.1.1. As tar archive

The primary download location for all pkgsrc files is https://cdn.NetBSD.org/
pub/pkgsrc/ or ftp://ftp.NetBSD.org/pub/pkgsrc/ (it points to the same
location). There are a number of subdirectories for different purposes, which
are described in detail in Appendix C, Directory layout of the pkgsrc FTP
server.

The tar archive for the current branch is in the directory current and is
called pkgsrc.tar.gz. It is autogenerated weekly.

To save download time we provide bzip2- and xz-compressed archives which are
published at pkgsrc.tar.bz2 and pkgsrc.tar.xz respectively.

You can fetch the same files using FTP.

The tar file for the stable branch 2019Q4 is in the directory pkgsrc-2019Q4 and
is also called pkgsrc.tar.gz.

To download the latest pkgsrc stable tarball, run:

$ ftp ftp://ftp.NetBSD.org/pub/pkgsrc/pkgsrc-2019Q4/pkgsrc.tar.gz

If you prefer, you can also fetch it using "wget", "curl", or your web browser.

Then, extract it with:

$ tar -xzf pkgsrc.tar.gz -C /usr

This will create the directory pkgsrc/ in /usr/ and all the package source will
be stored under /usr/pkgsrc/.

To download pkgsrc-current, run:

$ ftp ftp://ftp.NetBSD.org/pub/pkgsrc/current/pkgsrc.tar.gz

3.1.2. Via anonymous CVS

To fetch a specific pkgsrc stable branch, run:

$ cd /usr && cvs -q -z2 -d anoncvs@anoncvs.NetBSD.org:/cvsroot checkout -r pkgsrc-2019Q4 -P pkgsrc

This will create the directory pkgsrc/ in your /usr/ directory and all the
package source will be stored under /usr/pkgsrc/.

To fetch the pkgsrc current branch, run:

$ cd /usr && cvs -q -z2 -d anoncvs@anoncvs.NetBSD.org:/cvsroot checkout -P pkgsrc

Refer to the list of available mirrors to choose a faster CVS mirror, if
needed.

If you get error messages from rsh, you need to set CVS_RSH variable. E.g.:

$ cd /usr && env CVS_RSH=ssh cvs -q -z2 -d anoncvs@anoncvs.NetBSD.org:/cvsroot checkout -P pkgsrc

Refer to documentation on your command shell how to set CVS_RSH=ssh
permanently. For Bourne shells, you can set it in your .profile or better
globally in /etc/profile:

# set CVS remote shell command
CVS_RSH=ssh
export CVS_RSH

By default, CVS doesn't do things like most people would expect it to do. But
there is a way to convince CVS, by creating a file called .cvsrc in your home
directory and saving the following lines to it. This file will save you lots of
headache and some bug reports, so we strongly recommend it. You can find an
explanation of this file in the CVS documentation.

# recommended CVS configuration file from the pkgsrc guide
cvs -q
checkout -P
update -dP
diff -upN
rdiff -u
release -d

3.2. Keeping pkgsrc up-to-date

The preferred way to keep pkgsrc up-to-date is via CVS (which also works if you
have first installed it via a tar file). It saves bandwidth and hard disk
activity, compared to downloading the tar file again.

3.2.1. Via tar files

Warning

When updating from a tar file, you first need to completely remove the old
pkgsrc directory. Otherwise those files that have been removed from pkgsrc in
the mean time will not be removed on your local disk, resulting in
inconsistencies. When removing the old files, any changes that you have done to
the pkgsrc files will be lost after updating. Therefore updating via CVS is
strongly recommended.

Note that by default the distfiles and the binary packages are saved in the
pkgsrc tree, so don't forget to rescue them before updating. You can also
configure pkgsrc to store distfiles and packages in directories outside the
pkgsrc tree by setting the DISTDIR and PACKAGES variables. See Chapter 6, 
Configuring pkgsrc for the details.

To update pkgsrc from a tar file, download the tar file as explained above.
Then, make sure that you have not made any changes to the files in the pkgsrc
directory. Remove the pkgsrc directory and extract the new tar file. Done.

3.2.2. Via CVS

To update pkgsrc via CVS, change to the pkgsrc directory and run cvs:

$ cd /usr/pkgsrc && cvs update -dP

If you get error messages from rsh, you need to set CVS_RSH variable as
described above. E.g.:

$ cd /usr/pkgsrc && env CVS_RSH=ssh cvs up -dP

3.2.2.1. Switching between different pkgsrc branches

When updating pkgsrc, the CVS program keeps track of the branch you selected.
But if you, for whatever reason, want to switch from the stable branch to the
current one, you can do it by adding the option "-A" after the "update"
keyword. To switch from the current branch back to the stable branch, add the "
-rpkgsrc-2019Q4" option.

3.2.2.2. What happens to my changes when updating?

When you update pkgsrc, the CVS program will only touch those files that are
registered in the CVS repository. That means that any packages that you created
on your own will stay unmodified. If you change files that are managed by CVS,
later updates will try to merge your changes with those that have been done by
others. See the CVS manual, chapter "update" for details.

Chapter 4. Using pkgsrc on systems other than NetBSD

Table of Contents

4.1. Binary distribution
4.2. Bootstrapping pkgsrc

4.1. Binary distribution

See Section 5.1, "Using binary packages".

4.2. Bootstrapping pkgsrc

pkgsrc can be bootstrapped for use in two different modes: privileged and
unprivileged one. In unprivileged mode in contrast to privileged one all
programs are installed under one particular user and cannot utilise privileged
operations (packages don't create special users and all special file
permissions like setuid are ignored).

Installing the bootstrap kit from source should be as simple as:

# env CVS_RSH=ssh cvs -d anoncvs@anoncvs.NetBSD.org:/cvsroot checkout -P pkgsrc
# cd pkgsrc/bootstrap
# ./bootstrap


To bootstrap in unprivileged mode pass "--unprivileged" flag to bootstrap

By default, in privileged mode pkgsrc uses /usr/pkg for prefix where programs
will be installed in, and /usr/pkg/pkgdb for the package database directory
where pkgsrc will do its internal bookkeeping, /var is used as varbase, where
packages install their persistent data. In unprivileged mode pkgsrc uses ~/pkg
for prefix, ~/pkg/pkgdb for the package database, and ~/pkg/var for varbase.

You can change default layout using command-line arguments. Run "./bootstrap
--help" to get details.

Note

The bootstrap installs a bmake tool. Use this bmake when building via pkgsrc.
For examples in this guide, use bmake instead of "make".

Note

It is possible to bootstrap multiple instances of pkgsrc using non-intersecting
directories. Use bmake corresponding to the installation you're working with to
build and install packages.

Chapter 5. Using pkgsrc

Table of Contents

5.1. Using binary packages

    5.1.1. Finding binary packages
    5.1.2. Installing binary packages
    5.1.3. Deinstalling packages
    5.1.4. Getting information about installed packages
    5.1.5. Checking for security vulnerabilities in installed packages
    5.1.6. Finding if newer versions of your installed packages are in pkgsrc
    5.1.7. Other administrative functions

5.2. Building packages from source

    5.2.1. Requirements
    5.2.2. Fetching distfiles
    5.2.3. How to build and install

Basically, there are two ways of using pkgsrc. The first is to only install the
package tools and to use binary packages that someone else has prepared. This
is the "pkg" in pkgsrc. The second way is to install the "src" of pkgsrc, too.
Then you are able to build your own packages, and you can still use binary
packages from someone else.

5.1. Using binary packages

On the cdn.NetBSD.org site and mirrors, there are collections of binary
packages, ready to be installed. These binary packages have been built using
the default settings for the directories, that is:

  * /usr/pkg for LOCALBASE, where most of the files are installed,

  * /usr/pkg/etc for configuration files,

  * /var for VARBASE, where those files are installed that may change after
    installation.

If you cannot use these directories for whatever reasons (maybe because you're
not root), you cannot use these binary packages, but have to build the packages
yourself, which is explained in Section 4.2, "Bootstrapping pkgsrc".

5.1.1. Finding binary packages

To install binary packages, you first need to know from where to get them. The
first place where you should look is on the main pkgsrc FTP server in the
directory /pub/pkgsrc/packages.

This directory contains binary packages for multiple platforms. First, select
your operating system. (Ignore the directories with version numbers attached to
it, they just exist for legacy reasons.) Then, select your hardware
architecture, and in the third step, the OS version and the "version" of
pkgsrc.

In this directory, you often find a file called bootstrap.tar.gz which contains
the package management tools. If the file is missing, it is likely that your
operating system already provides those tools. Download the file and extract it
in the / directory. It will create the directories /usr/pkg (containing the
tools for managing binary packages and the database of installed packages).

5.1.2. Installing binary packages

In the directory from the last section, there is a subdirectory called All/,
which contains all the binary packages that are available for the platform,
excluding those that may not be distributed via FTP or CDROM (depending on
which medium you are using).

To install packages directly from an FTP or HTTP server, run the following
commands in a Bourne-compatible shell (be sure to su to root first):

# PATH="/usr/pkg/sbin:$PATH"
# PKG_PATH="http://cdn.NetBSD.org/pub/pkgsrc/packages/OPSYS/ARCH/VERSIONS/All/"
# export PATH PKG_PATH

Instead of URLs, you can also use local paths, for example if you are
installing from a set of CDROMs, DVDs or an NFS-mounted repository. If you want
to install packages from multiple sources, you can separate them by a semicolon
in PKG_PATH.

After these preparations, installing a package is very easy:

# pkg_add libreoffice
# pkg_add ap24-php71-*

Note that any prerequisite packages needed to run the package in question will
be installed, too, assuming they are present where you install from.

Adding packages might install vulnerable packages. Thus you should run 
pkg_admin audit regularly, especially after installing new packages, and verify
that the vulnerabilities are acceptable for your configuration.

After you've installed packages, be sure to have /usr/pkg/bin and /usr/pkg/sbin
in your PATH so you can actually start the just installed program.

5.1.3. Deinstalling packages

To deinstall a package, it does not matter whether it was installed from source
code or from a binary package. The pkg_delete command does not know it anyway.
To delete a package, you can just run pkg_delete package-name. The package name
can be given with or without version number. Wildcards can also be used to
deinstall a set of packages, for example *emacs*. Be sure to include them in
quotes, so that the shell does not expand them before pkg_delete sees them.

The -r option is very powerful: it removes all the packages that require the
package in question and then removes the package itself. For example:

# pkg_delete -r jpeg


will remove jpeg and all the packages that used it; this allows upgrading the
jpeg package.

5.1.4. Getting information about installed packages

The pkg_info shows information about installed packages or binary package
files.

5.1.5. Checking for security vulnerabilities in installed packages

The pkgsrc Security Team and Packages Groups maintain a list of known security
vulnerabilities to packages which are (or have been) included in pkgsrc. The
list is available from the NetBSD FTP site at http://ftp.NetBSD.org/pub/NetBSD/
packages/vulns/pkg-vulnerabilities.

Through pkg_admin fetch-pkg-vulnerabilities, this list can be downloaded
automatically, and a security audit of all packages installed on a system can
take place.

There are two components to auditing. The first step, pkg_admin
fetch-pkg-vulnerabilities, is for downloading the list of vulnerabilities from
the NetBSD FTP site. The second step, pkg_admin audit, checks to see if any of
your installed packages are vulnerable. If a package is vulnerable, you will
see output similar to the following:

Package samba-2.0.9 has a local-root-shell vulnerability, see
    http://www.samba.org/samba/whatsnew/macroexploit.html

You may wish to have the vulnerabilities file downloaded daily so that it
remains current. This may be done by adding an appropriate entry to the root
users crontab(5) entry. For example the entry

# Download vulnerabilities file
0 3 * * * /usr/pkg/sbin/pkg_admin fetch-pkg-vulnerabilities >/dev/null 2>&1
# Audit the installed packages and email results to root
9 3 * * * /usr/pkg/sbin/pkg_admin audit |mail -s "Installed package audit result" \
            root >/dev/null 2>&1


will update the vulnerability list every day at 3AM, followed by an audit at
3:09AM. The result of the audit are then emailed to root. On NetBSD this may be
accomplished instead by adding the following line to /etc/daily.conf:

fetch_pkg_vulnerabilities=YES


to fetch the vulnerability list from the daily security script. The system is
set to audit the packages by default but can be set explicitly, if desired (not
required), by adding the following line to /etc/security.conf:

check_pkg_vulnerabilities=YES


see daily.conf(5) and security.conf(5) for more details.

5.1.6. Finding if newer versions of your installed packages are in pkgsrc

Install pkgtools/lintpkgsrc and run lintpkgsrc with the "-i" argument to check
if your packages are up-to-date, e.g.

% lintpkgsrc -i
...
Version mismatch: 'tcsh' 6.09.00 vs 6.10.00


You can then use make update to update the package on your system and rebuild
any dependencies.

5.1.7. Other administrative functions

The pkg_admin executes various administrative functions on the package system.

5.2. Building packages from source

After obtaining pkgsrc, the pkgsrc directory now contains a set of packages,
organized into categories. You can browse the online index of packages, or run 
make readme from the pkgsrc directory to build local README.html files for all
packages, viewable with any web browser such as www/lynx or www/firefox.

The default prefix for installed packages is /usr/pkg. If you wish to change
this, you should do so by setting LOCALBASE in mk.conf. You should not try to
use multiple different LOCALBASE definitions on the same system (inside a
chroot is an exception).

The rest of this chapter assumes that the package is already in pkgsrc. If it
is not, see Part II, "The pkgsrc developer's guide" for instructions how to
create your own packages.

5.2.1. Requirements

To build packages from source, you need a working C compiler. On NetBSD, you
need to install the "comp" and the "text" distribution sets. If you want to
build X11-related packages, the "xbase" and "xcomp" distribution sets are
required, too.

5.2.2. Fetching distfiles

The first step for building a package is downloading the distfiles (i.e. the
unmodified source). If they have not yet been downloaded, pkgsrc will fetch
them automatically.

If you have all files that you need in the distfiles directory, you don't need
to connect. If the distfiles are on CD-ROM, you can mount the CD-ROM on /cdrom
and add:

DISTDIR=/cdrom/pkgsrc/distfiles

to your mk.conf.

By default a list of distribution sites will be randomly intermixed to prevent
huge load on servers which holding popular packages (for example,
SourceForge.net mirrors). Thus, every time when you need to fetch yet another
distfile all the mirrors will be tried in new (random) order. You can turn this
feature off by setting MASTER_SORT_RANDOM=NO (for PKG_DEVELOPERs it's already
disabled).

You can overwrite some of the major distribution sites to fit to sites that are
close to your own. By setting one or two variables you can modify the order in
which the master sites are accessed. MASTER_SORT contains a whitespace
delimited list of domain suffixes. MASTER_SORT_REGEX is even more flexible, it
contains a whitespace delimited list of regular expressions. It has higher
priority than MASTER_SORT. Have a look at pkgsrc/mk/defaults/mk.conf to find
some examples. This may save some of your bandwidth and time.

You can change these settings either in your shell's environment, or, if you
want to keep the settings, by editing the mk.conf file, and adding the
definitions there.

If a package depends on many other packages (such as meta-pkgs/kde4), the build
process may alternate between periods of downloading source, and compiling. To
ensure you have all the source downloaded initially you can run the command:

% make fetch-list | sh

which will output and run a set of shell commands to fetch the necessary files
into the distfiles directory. You can also choose to download the files
manually.

5.2.3. How to build and install

Once the software has downloaded, any patches will be applied, then it will be
compiled for you. This may take some time depending on your computer, and how
many other packages the software depends on and their compile time.

Note

If using bootstrap or pkgsrc on a non-NetBSD system, use the pkgsrc bmake
command instead of "make" in the examples in this guide.

For example, type

% cd misc/figlet
% make


at the shell prompt to build the various components of the package.

The next stage is to actually install the newly compiled program onto your
system. Do this by entering:

% make install


while you are still in the directory for whatever package you are installing.

Installing the package on your system may require you to be root. However,
pkgsrc has a just-in-time-su feature, which allows you to only become root for
the actual installation step.

That's it, the software should now be installed and setup for use. You can now
enter:

% make clean


to remove the compiled files in the work directory, as you shouldn't need them
any more. If other packages were also added to your system (dependencies) to
allow your program to compile, you can tidy these up also with the command:

% make clean-depends


Taking the figlet utility as an example, we can install it on our system by
building as shown in Appendix B, Build logs.

The program is installed under the default root of the packages tree - /usr/
pkg. Should this not conform to your tastes, set the LOCALBASE variable in your
environment, and it will use that value as the root of your packages tree. So,
to use /usr/local, set LOCALBASE=/usr/local in your environment. Please note
that you should use a directory which is dedicated to packages and not shared
with other programs (i.e., do not try and use LOCALBASE=/usr). Also, you should
not try to add any of your own files or directories (such as src/, obj/, or
pkgsrc/) below the LOCALBASE tree. This is to prevent possible conflicts
between programs and other files installed by the package system and whatever
else may have been installed there.

Some packages look in mk.conf to alter some configuration options at build
time. Have a look at pkgsrc/mk/defaults/mk.conf to get an overview of what will
be set there by default. Environment variables such as LOCALBASE can be set in
mk.conf to save having to remember to set them each time you want to use
pkgsrc.

Occasionally, people want to "look under the covers" to see what is going on
when a package is building or being installed. This may be for debugging
purposes, or out of simple curiosity. A number of utility values have been
added to help with this.

 1. If you invoke the make(1) command with PKG_DEBUG_LEVEL=2, then a huge
    amount of information will be displayed. For example,

    make patch PKG_DEBUG_LEVEL=2

    will show all the commands that are invoked, up to and including the "patch
    " stage.

 2. If you want to know the value of a certain make(1) definition, then the
    VARNAME definition should be used, in conjunction with the show-var target.
    e.g. to show the expansion of the make(1) variable LOCALBASE:

    % make show-var VARNAME=LOCALBASE
    /usr/pkg
    %


If you want to install a binary package that you've either created yourself
(see next section), that you put into pkgsrc/packages manually or that is
located on a remote FTP server, you can use the "bin-install" target. This
target will install a binary package - if available - via pkg_add(1), else do a
make package. The list of remote FTP sites searched is kept in the variable
BINPKG_SITES, which defaults to ftp.NetBSD.org. Any flags that should be added
to pkg_add(1) can be put into BIN_INSTALL_FLAGS. See pkgsrc/mk/defaults/mk.conf
for more details.

A final word of warning: If you set up a system that has a non-standard setting
for LOCALBASE, be sure to set that before any packages are installed, as you
cannot use several directories for the same purpose. Doing so will result in
pkgsrc not being able to properly detect your installed packages, and fail
miserably. Note also that precompiled binary packages are usually built with
the default LOCALBASE of /usr/pkg, and that you should not install any if you
use a non-standard LOCALBASE.

Chapter 6. Configuring pkgsrc

Table of Contents

6.1. General configuration
6.2. Variables affecting the build process
6.3. Variables affecting the installation process
6.4. Selecting and configuring the compiler

    6.4.1. Selecting the compiler
    6.4.2. Additional flags to the compiler (CFLAGS)
    6.4.3. Additional flags to the linker (LDFLAGS)

6.5. Developer/advanced settings
6.6. Selecting Build Options

The whole pkgsrc system is configured in a single file, usually called mk.conf.
In which directory pkgsrc looks for that file depends on the installation. On
NetBSD, when you use make(1) from the base system, it is in the directory /etc
/. In all other cases the default location is ${PREFIX}/etc/, depending on
where you told the bootstrap program to install the binary packages.

The format of the configuration file is that of the usual BSD-style Makefiles.
The whole pkgsrc configuration is done by setting variables in this file. Note
that you can define all kinds of variables, and no special error checking (for
example for spelling mistakes) takes place.

6.1. General configuration

The following variables apply to all pkgsrc packages. A complete list of the
variables that can be configured by the user is available in mk/defaults/
mk.conf, together with some comments that describe each variable's intent.

  * LOCALBASE: Where packages will be installed. The default is /usr/pkg. Do
    not mix binary packages with different LOCALBASEs!

  * CROSSBASE: Where "cross" category packages will be installed. The default
    is ${LOCALBASE}/cross.

  * X11BASE: Where X11 is installed on the system. The default is /usr/X11R7.

  * DISTDIR: Where to store the downloaded copies of the original source
    distributions used for building pkgsrc packages. The default is $
    {PKGSRCDIR}/distfiles.

  * PKG_DBDIR: Where the database about installed packages is stored. The
    default is /usr/pkg/pkgdb.

  * MASTER_SITE_OVERRIDE: If set, override the packages' MASTER_SITES with this
    value.

  * MASTER_SITE_BACKUP: Backup location(s) for distribution files and patch
    files if not found locally or in ${MASTER_SITES} or ${PATCH_SITES}
    respectively. The defaults is ftp://ftp.NetBSD.org/pub/pkgsrc/distfiles/$
    {DIST_SUBDIR}/.

  * BINPKG_SITES: List of sites carrying binary pkgs. rel and arch are replaced
    with OS release ("2.0", etc.) and architecture ("mipsel", etc.).

  * ACCEPTABLE_LICENSES: List of acceptable licenses. License names are
    case-sensitive. Whenever you try to build a package whose license is not in
    this list, you will get an error message. If the license condition is
    simple enough, the error message will include specific instructions on how
    to change this variable.

6.2. Variables affecting the build process

  * PACKAGES: The top level directory for the binary packages. The default is $
    {PKGSRCDIR}/packages.

  * WRKOBJDIR: The top level directory where, if defined, the separate working
    directories will get created, and symbolically linked to from ${WRKDIR}
    (see below). This is useful for building packages on several architectures,
    then ${PKGSRCDIR} can be NFS-mounted while ${WRKOBJDIR} is local to every
    architecture. (It should be noted that PKGSRCDIR should not be set by the
    user ? it is an internal definition which refers to the root of the pkgsrc
    tree. It is possible to have many pkgsrc tree instances.)

  * LOCALPATCHES: Directory for local patches that aren't part of pkgsrc. See
    Section 13.3, "patches/*" for more information.

  * PKGMAKECONF: Location of the mk.conf file used by a package's BSD-style
    Makefile. If this is not set, MAKECONF is set to /dev/null to avoid picking
    up settings used by builds in /usr/src.

6.3. Variables affecting the installation process

  * PKGSRC_KEEP_BIN_PKGSRC: By default, binary packages of built packages are
    preserved in ${PACKAGES}/All. Setting this variable to "no" prevents this.

Packages have to support installation into a subdirectory of WRKDIR. This
allows a package to be built, before the actual filesystem is touched. DESTDIR
support exists in two variations:

  * Basic DESTDIR support means that the package installation and packaging is
    still run as root.

  * Full DESTDIR support can run the complete build, installation and packaging
    as normal user. Root privileges are only needed to add packages.

With basic DESTDIR support, make clean needs to be run as root.

Considering the foo/bar package, DESTDIR full support can be tested using the
following commands

$ id
uid=1000(myusername) gid=100(users) groups=100(users),0(wheel)
$ mkdir $HOME/packages
$ cd $PKGSRCDIR/foo/bar

Verify DESTDIR full support, no root privileges should be needed

$ make stage-install

Create a package without root privileges

$ make PACKAGES=$HOME/packages package

For the following command, you must be able to gain root privileges using su(1)

$ make PACKAGES=$HOME/packages install

Then, as a simple user

$ make clean

6.4. Selecting and configuring the compiler

6.4.1. Selecting the compiler

By default, pkgsrc will use GCC to build packages. This may be overridden by
setting the following variables in /etc/mk.conf:

PKGSRC_COMPILER:

    This is a list of values specifying the chain of compilers to invoke when
    building packages. Valid values are:

      + ccc: Compaq C Compilers (Tru64)

      + ccache: compiler cache (chainable)

      + clang: Clang C and Objective-C compiler

      + distcc: distributed C/C++ (chainable)

      + f2c: Fortran 77 to C compiler (chainable)

      + icc: Intel C++ Compiler (Linux)

      + ido: SGI IRIS Development Option cc (IRIX 5)

      + gcc: GNU C/C++ Compiler

      + hp: HP-UX C/aC++ compilers

      + mipspro: Silicon Graphics, Inc. MIPSpro (n32/n64)

      + mipspro-ucode: Silicon Graphics, Inc. MIPSpro (o32)

      + sunpro: Sun Microsystems, Inc. WorkShip/Forte/Sun ONE Studio

      + xlc: IBM's XL C/C++ compiler suite

    The default is "gcc". You can use ccache and/or distcc with an appropriate
    PKGSRC_COMPILER setting, e.g. "ccache gcc". This variable should always be
    terminated with a value for a real compiler. Note that only one real
    compiler should be listed (e.g. "sunpro gcc" is not allowed).

GCC_REQD:

    This specifies the minimum version of GCC to use when building packages. If
    the system GCC doesn't satisfy this requirement, then pkgsrc will build and
    install one of the GCC packages to use instead.

PYTHON_VERSION_DEFAULT:

    Specifies which version of python to use when several options are
    available.

PKGSRC_FORTRAN:

    Specifies the fortran compiler to use. The default is g95, and gfortran is
    an alternative.

GFORTRAN_VERSION:

    If PKGSRC_FORTRAN= gfortran is used, this option specifies which version to
    use.

6.4.2. Additional flags to the compiler (CFLAGS)

If you wish to set the CFLAGS variable, please make sure to use the += operator
instead of the = operator:

CFLAGS+=        -your -flags

Using CFLAGS= (i.e. without the "+") may lead to problems with packages that
need to add their own flags. You may want to take a look at the devel/cpuflags
package if you're interested in optimization specifically for the current CPU.

6.4.3. Additional flags to the linker (LDFLAGS)

If you want to pass flags to the linker, both in the configure step and the
build step, you can do this in two ways. Either set LDFLAGS or LIBS. The
difference between the two is that LIBS will be appended to the command line,
while LDFLAGS come earlier. LDFLAGS is pre-loaded with rpath settings for ELF
machines depending on the setting of USE_IMAKE or the inclusion of mk/
x11.buildlink3.mk. As with CFLAGS, if you do not wish to override these
settings, use the += operator:

LDFLAGS+=        -your -linkerflags

6.5. Developer/advanced settings

  * PKG_DEVELOPER: Run some sanity checks that package developers want:

      + make sure patches apply with zero fuzz

      + run check-shlibs to see that all binaries will find their shared libs.

  * PKG_DEBUG_LEVEL: The level of debugging output which is displayed whilst
    making and installing the package. The default value for this is 0, which
    will not display the commands as they are executed (normal, default, quiet
    operation); the value 1 will display all shell commands before their
    invocation, and the value 2 will display both the shell commands before
    their invocation, as well as their actual execution progress with set -x.

6.6. Selecting Build Options

Some packages have build time options, usually to select between different
dependencies, enable optional support for big dependencies or enable
experimental features.

To see which options, if any, a package supports, and which options are
mutually exclusive, run make show-options, for example:

    The following options are supported by this package:
        ssl      Enable SSL support.
    Exactly one of the following gecko options is required:
        firefox  Use firefox as gecko rendering engine.
        mozilla  Use mozilla as gecko rendering engine.
    At most one of the following database options may be selected:
        mysql    Enable support for MySQL database.
        pgsql    Enable support for PostgreSQL database.

    These options are enabled by default: firefox
    These options are currently enabled: mozilla ssl

The following variables can be defined in mk.conf to select which options to
enable for a package: PKG_DEFAULT_OPTIONS, which can be used to select or
disable options for all packages that support them, and PKG_OPTIONS.pkgbase,
which can be used to select or disable options specifically for package pkgbase
. Options listed in these variables are selected, options preceded by "-" are
disabled. A few examples:

$ grep "PKG.*OPTION" mk.conf
PKG_DEFAULT_OPTIONS=    -arts -dvdread -esound
PKG_OPTIONS.kdebase=    debug -sasl
PKG_OPTIONS.apache=     suexec

It is important to note that options that were specifically suggested by the
package maintainer must be explicitly removed if you do not wish to include the
option. If you are unsure you can view the current state with make show-options
.

The following settings are consulted in the order given, and the last setting
that selects or disables an option is used:

 1. the default options as suggested by the package maintainer

 2. the options implied by the settings of legacy variables (see below)

 3. PKG_DEFAULT_OPTIONS

 4. PKG_OPTIONS.pkgbase

For groups of mutually exclusive options, the last option selected is used, all
others are automatically disabled. If an option of the group is explicitly
disabled, the previously selected option, if any, is used. It is an error if no
option from a required group of options is selected, and building the package
will fail.

Before the options framework was introduced, build options were selected by
setting a variable (often named USE_FOO) in mk.conf for each option. To ease
transition to the options framework for the user, these legacy variables are
converted to the appropriate options setting (PKG_OPTIONS.pkgbase)
automatically. A warning is issued to prompt the user to update mk.conf to use
the options framework directly. Support for the legacy variables will be
removed eventually.

Chapter 7. Creating binary packages

Table of Contents

7.1. Building a single binary package
7.2. Settings for creation of binary packages

7.1. Building a single binary package

Once you have built and installed a package, you can create a binary package
which can be installed on another system with pkg_add(1). This saves having to
build the same package on a group of hosts and wasting CPU time. It also
provides a simple means for others to install your package, should you
distribute it.

To create a binary package, change into the appropriate directory in pkgsrc,
and run make package:

$ cd misc/figlet
$ make package

This will build and install your package (if not already done), and then build
a binary package from what was installed. You can then use the pkg_* tools to
manipulate it. Binary packages are created by default in /usr/pkgsrc/packages,
in the form of a gzipped tar file. See Section B.2, "Packaging figlet" for a
continuation of the above misc/figlet example.

See Chapter 23, Submitting and Committing for information on how to submit such
a binary package.

7.2. Settings for creation of binary packages

See Section 19.17, "Other helpful targets".

Chapter 8. Creating binary packages for everything in pkgsrc (bulk builds)

Table of Contents

8.1. Preparations
8.2. Running a pbulk-style bulk build

    8.2.1. Configuration

8.3. Requirements of a full bulk build
8.4. Creating a multiple CD-ROM packages collection

    8.4.1. Example of cdpack

For a number of reasons you may want to build binary packages for a large
selected set of packages in pkgsrc or even for all pkgsrc packages. For
instance, when you have multiple machines that should run the same software, it
is wasted time if they all build their packages themselves from source. Or you
may want to build a list of packages you want and check them before deploying
onto production system. There is a way of getting a set of binary packages: The
bulk build system, or pbulk ("p" stands for "parallel"). This chapter describes
how to set it up.

8.1. Preparations

First of all, you have to decide whether you build all packages or a limited
set of them. Full bulk builds usually consume a lot more resources, both space
and time, than builds for some practical sets of packages. There exists a
number of particularly heavy packages that are not actually interesting to a
wide audience. For a limited bulk builds you need to make a list of packages
you want to build. Note that all their dependencies will be built, so you don't
need to track them manually.

During bulk builds various packages are installed and deinstalled in /usr/pkg
(or whatever LOCALBASE is), so make sure that you don't need any package during
the builds. Essentially, you should provide a fresh system, either a chroot
environment or something even more restrictive, depending on what the operating
system provides, or dedicate the whole physical machine. As a useful side
effect this makes sure that bulk builds cannot break anything in your system.
There have been numerous cases where certain packages tried to install files
outside the LOCALBASE or wanted to edit some files in /etc.

8.2. Running a pbulk-style bulk build

Running a pbulk-style bulk build works roughly as follows:

  * First, build the pbulk infrastructure in a fresh pkgsrc location.

  * Then, build each of the packages from a clean installation directory using
    the infrastructure.

8.2.1. Configuration

To simplify configuration, we provide the helper script mk/pbulk/pbulk.sh.

In order to use it, prepare a clear system (real one, chroot environment, jail,
zone, virtual machine). Configure network access to fetch distribution files.
Create a user with name "pbulk".

Fetch and extract pkgsrc. Use a command like one of these:

# (cd /usr && ftp -o - https://cdn.NetBSD.org/pub/pkgsrc/current/pkgsrc.tar.gz | tar -zxf-)
# (cd /usr && fetch -o - https://cdn.NetBSD.org/pub/pkgsrc/current/pkgsrc.tar.gz | tar -zxf-)
# (cd /usr && cvs -Q -z3 -d anoncvs@anoncvs.NetBSD.org:/cvsroot get -P pkgsrc)

Or any other way that fits (e.g., curl, wget).

Deploy and configure pbulk tools, e.g.:

# sh pbulk.sh -n # use native make, no bootstrap kit needed (for use on NetBSD)
# sh pbulk.sh -n -c mk.conf.frag # native, apply settings from given mk.conf fragment
# sh pbulk.sh -nlc mk.conf.frag # native, apply settings, configure for limited build

Note

mk.conf.frag is a fragment of mk.conf that contains settings you want to apply
to packages you build. For instance,

PKG_DEVELOPER=          yes     # perform more checks
X11_TYPE=               modular # use pkgsrc X11
SKIP_LICENSE_CHECK=     yes     # accept all licences (useful
                                # when building all packages)

If configured for limited list, replace the list in /usr/pbulk/etc/pbulk.list
with your list of packages, one per line without empty lines or comments. E.g.:

www/firefox
mail/thunderbird
misc/libreoffice4

At this point you can also review configuration in /usr/pbulk/etc and make
final amendments, if wanted.

Start it:

# /usr/pbulk/bin/bulkbuild

After it finishes, you'll have /mnt filled with distribution files, binary
packages, and reports, plain text summary in /mnt/bulklog/meta/report.txt

Note

The pbulk.sh script does not cover all possible use cases. While being ready to
run, it serves as a good starting point to understand and build more complex
setups. The script is kept small enough for better understanding.

Note

The pbulk.sh script supports running unprivileged bulk build and helps
configuring distributed bulk builds.

8.3. Requirements of a full bulk build

A complete bulk build requires lots of disk space. Some of the disk space can
be read-only, some other must be writable. Some can be on remote filesystems
(such as NFS) and some should be local. Some can be temporary filesystems,
others must survive a sudden reboot.

  * 40 GB for the distfiles (read-write, remote, temporary)

  * 30 GB for the binary packages (read-write, remote, permanent)

  * 1 GB for the pkgsrc tree (read-only, remote, permanent)

  * 5 GB for LOCALBASE (read-write, local, temporary)

  * 10 GB for the log files (read-write, remote, permanent)

  * 5 GB for temporary files (read-write, local, temporary)

8.4. Creating a multiple CD-ROM packages collection

After your pkgsrc bulk-build has completed, you may wish to create a CD-ROM set
of the resulting binary packages to assist in installing packages on other
machines. The pkgtools/cdpack package provides a simple tool for creating the
ISO 9660 images. cdpack arranges the packages on the CD-ROMs in a way that
keeps all the dependencies for a given package on the same CD as that package.

8.4.1. Example of cdpack

Complete documentation for cdpack is found in the cdpack(1) man page. The
following short example assumes that the binary packages are left in /usr/
pkgsrc/packages/All and that sufficient disk space exists in /u2 to hold the
ISO 9660 images.

# mkdir /u2/images
# pkg_add /usr/pkgsrc/packages/All/cdpack
# cdpack /usr/pkgsrc/packages/All /u2/images


If you wish to include a common set of files (COPYRIGHT, README, etc.) on each
CD in the collection, then you need to create a directory which contains these
files. e.g.

# mkdir /tmp/common
# echo "This is a README" > /tmp/common/README
# echo "Another file" > /tmp/common/COPYING
# mkdir /tmp/common/bin
# echo "#!/bin/sh" > /tmp/common/bin/myscript
# echo "echo Hello world" >> /tmp/common/bin/myscript
# chmod 755 /tmp/common/bin/myscript


Now create the images:

# cdpack -x /tmp/common /usr/pkgsrc/packages/All /u2/images

Each image will contain README, COPYING, and bin/myscript in their root
directories.

Chapter 9. Directory layout of the installed files

Table of Contents

9.1. File system layout in ${LOCALBASE}
9.2. File system layout in ${VARBASE}

The files that are installed by pkgsrc are organized in a way that is similar
to what you find in the /usr directory of the base system. But some details are
different. This is because pkgsrc initially came from FreeBSD and had adopted
its file system hierarchy. Later it was largely influenced by NetBSD. But no
matter which operating system you are using pkgsrc with, you can expect the
same layout for pkgsrc.

There are mainly four root directories for pkgsrc, which are all configurable
in the bootstrap/bootstrap script. When pkgsrc has been installed as root, the
default locations are:

LOCALBASE=              /usr/pkg
PKG_SYSCONFBASE=        /usr/pkg/etc
VARBASE=                /var
PKG_DBDIR=              /usr/pkg/pkgdb

In unprivileged mode (when pkgsrc has been installed as any other user), the
default locations are:

LOCALBASE=              ${HOME}/pkg
PKG_SYSCONFBASE=        ${HOME}/pkg/etc
VARBASE=                ${HOME}/pkg/var
PKG_DBDIR=              ${HOME}/pkg/pkgdb

What these four directories are for, and what they look like is explained
below.

  * LOCALBASE corresponds to the /usr directory in the base system. It is the "
    main" directory where the files are installed and contains the well-known
    subdirectories like bin, include, lib, share and sbin.

  * VARBASE corresponds to /var in the base system. Some programs (especially
    games, network daemons) need write access to it during normal operation.

  * PKG_SYSCONFDIR corresponds to /etc in the base system. It contains
    configuration files of the packages, as well as pkgsrc's mk.conf itself.

9.1. File system layout in ${LOCALBASE}

The following directories exist in a typical pkgsrc installation in $
{LOCALBASE}.

bin

    Contains executable programs that are intended to be directly used by the
    end user.

emul

    Contains files for the emulation layers of various other operating systems,
    especially for NetBSD.

etc (the usual location of ${PKG_SYSCONFDIR})

    Contains the configuration files.

include

    Contains headers for the C and C++ programming languages.

info

    Contains GNU info files of various packages.

lib

    Contains shared and static libraries.

libdata

    Contains data files that don't change after installation. Other data files
    belong into ${VARBASE}.

libexec

    Contains programs that are not intended to be used by end users, such as
    helper programs or network daemons.

libexec/cgi-bin

    Contains programs that are intended to be executed as CGI scripts by a web
    server.

man (the usual value of ${PKGMANDIR})

    Contains brief documentation in form of manual pages.

sbin

    Contains programs that are intended to be used only by the super-user.

share

    Contains platform-independent data files that don't change after
    installation.

share/doc

    Contains documentation files provided by the packages.

share/examples

    Contains example files provided by the packages. Among others, the original
    configuration files are saved here and copied to ${PKG_SYSCONFDIR} during
    installation.

share/examples/rc.d

    Contains the original files for rc.d scripts.

var (the usual location of ${VARBASE})

    Contains files that may be modified after installation.

9.2. File system layout in ${VARBASE}

db/pkg (the usual location of ${PKG_DBDIR})

    Contains information about the currently installed packages.

games

    Contains highscore files.

log

    Contains log files.

run

    Contains informational files about daemons that are currently running.

Chapter 10. Frequently Asked Questions

Table of Contents

10.1. Are there any mailing lists for pkg-related discussion?
10.2. Utilities for package management (pkgtools)
10.3. How to use pkgsrc as non-root
10.4. How to resume transfers when fetching distfiles?
10.5. How can I install/use modular X.org from pkgsrc?
10.6. How to fetch files from behind a firewall
10.7. How to fetch files from HTTPS sites
10.8. How do I tell make fetch to do passive FTP?
10.9. How to fetch all distfiles at once
10.10. What does "Don't know how to make /usr/share/tmac/tmac.andoc" mean?
10.11. What does "Could not find bsd.own.mk" mean?
10.12. Using 'sudo' with pkgsrc
10.13. How do I change the location of configuration files?
10.14. Automated security checks
10.15. Why do some packages ignore my CFLAGS?
10.16. A package does not build. What shall I do?
10.17. What does "Makefile appears to contain unresolved cvs/rcs/??? merge
    conflicts" mean?

This section contains hints, tips & tricks on special things in pkgsrc that we
didn't find a better place for in the previous chapters, and it contains items
for both pkgsrc users and developers.

10.1. Are there any mailing lists for pkg-related discussion?

The following mailing lists may be of interest to pkgsrc users:

  * pkgsrc-users: This is a general purpose list for most issues regarding
    pkgsrc, regardless of platform, e.g. soliciting user help for pkgsrc
    configuration, unexpected build failures, using particular packages,
    upgrading pkgsrc installations, questions regarding the pkgsrc release
    branches, etc. General announcements or proposals for changes that impact
    the pkgsrc user community, e.g. major infrastructure changes, new features,
    package removals, etc., may also be posted.

  * pkgsrc-bulk: A list where the results of pkgsrc bulk builds are sent and
    discussed.

  * pkgsrc-changes: This list is for those who are interested in getting a
    commit message for every change committed to pkgsrc. It is also available
    in digest form, meaning one daily message containing all commit messages
    for changes to the package source tree in that 24 hour period.

To subscribe, do:

% echo subscribe listname | mail majordomo@NetBSD.org

Archives for all these mailing lists are available from http://
mail-index.NetBSD.org/.

10.2. Utilities for package management (pkgtools)

The directory pkgsrc/pkgtools contains a number of useful utilities for both
users and developers of pkgsrc. This section attempts only to make the reader
aware of some of the utilities and when they might be useful, and not to
duplicate the documentation that comes with each package.

Utilities used by pkgsrc (automatically installed when needed):

  * pkgtools/x11-links: Symlinks for use by buildlink.

OS tool augmentation (automatically installed when needed):

  * pkgtools/digest: Calculates various kinds of checksums (including SHA3).

  * pkgtools/libnbcompat: Compatibility library for pkgsrc tools.

  * pkgtools/mtree: Installed on non-BSD systems due to lack of native mtree.

  * pkgtools/pkg_install: Up-to-date replacement for /usr/sbin/pkg_install, or
    for use on operating systems where pkg_install is not present.

Utilities used by pkgsrc (not automatically installed):

  * pkgtools/pkg_tarup: Create a binary package from an already-installed
    package. Used by make replace to save the old package.

  * pkgtools/dfdisk: Adds extra functionality to pkgsrc, allowing it to fetch
    distfiles from multiple locations. It currently supports the following
    methods: multiple CD-ROMs and network FTP/HTTP connections.

  * devel/cpuflags: Determine the best compiler flags to optimise code for your
    current CPU and compiler.

Utilities for keeping track of installed packages, being up to date, etc:

  * pkgtools/pkgin: A package update tool similar to apt(1). Download, install,
    and upgrade binary packages easily.

  * pkgtools/pkg_chk: Reports on packages whose installed versions do not match
    the latest pkgsrc entries.

  * pkgtools/pkgdep: Makes dependency graphs of packages, to aid in choosing a
    strategy for updating.

  * pkgtools/pkgdepgraph: Makes graphs from the output of pkgtools/pkgdep (uses
    graphviz).

  * pkgtools/pkglint: The pkglint(1) program checks a pkgsrc entry for errors.

  * pkgtools/lintpkgsrc: The lintpkgsrc(1) program does various checks on the
    complete pkgsrc system.

  * pkgtools/pkgsurvey: Report what packages you have installed.

Utilities for people maintaining or creating individual packages:

  * pkgtools/pkgdiff: Automate making and maintaining patches for a package
    (includes pkgdiff, pkgvi, mkpatches, etc.).

  * pkgtools/url2pkg: Aids in converting to pkgsrc.

Utilities for people maintaining pkgsrc (or: more obscure pkg utilities)

  * pkgtools/pkg_comp: Build packages in a chrooted area.

  * pkgtools/libkver: Spoof kernel version for chrooted cross builds.

10.3. How to use pkgsrc as non-root

To install packages from source as a non-root user, download pkgsrc as
described in Chapter 3, Where to get pkgsrc and how to keep it up-to-date, cd
into that directory and run the command ./bootstrap/bootstrap --unprivileged.

This will install the binary part of pkgsrc to ~/pkg and put the pkgsrc
configuration mk.conf into ~/pkg/etc.

For more details, see mk/unprivileged.mk.

10.4. How to resume transfers when fetching distfiles?

By default, resuming transfers in pkgsrc is disabled, but you can enable this
feature by adding the option PKG_RESUME_TRANSFERS=YES into mk.conf. If, during
a fetch step, an incomplete distfile is found, pkgsrc will try to resume it.

You can also use a different program than the platform default program by
changing the FETCH_USING variable. You can specify the program by using of ftp,
fetch, wget or curl. Alternatively, fetching can be disabled by using the value
manual. A value of custom disables the system defaults and dependency tracking
for the fetch program. In that case you have to provide FETCH_CMD,
FETCH_BEFORE_ARGS, FETCH_RESUME_ARGS, FETCH_OUTPUT_ARGS, FETCH_AFTER_ARGS.

For example, if you want to use wget to download, you'll have to use something
like:

FETCH_USING=    wget

10.5. How can I install/use modular X.org from pkgsrc?

If you want to use modular X.org from pkgsrc instead of your system's own X11
(/usr/X11R6, /usr/openwin, ...) you will have to add the following line into
mk.conf:

X11_TYPE=modular

10.6. How to fetch files from behind a firewall

If you are sitting behind a firewall which does not allow direct connections to
Internet hosts (i.e. non-NAT), you may specify the relevant proxy hosts. This
is done using an environment variable in the form of a URL, e.g. in Amdahl, the
machine "orpheus.amdahl.com" is one of the firewalls, and it uses port 80 as
the proxy port number. So the proxy environment variables are:

ftp_proxy=ftp://orpheus.amdahl.com:80/
http_proxy=http://orpheus.amdahl.com:80/

10.7. How to fetch files from HTTPS sites

Some fetch tools are not prepared to support HTTPS by default (for example, the
one in NetBSD 6.0), or the one installed by the pkgsrc bootstrap (to avoid an
openssl dependency that low in the dependency graph).

Usually you won't notice, because distribution files are mirrored weekly to "
ftp.NetBSD.org", but that might not be often enough if you are following
pkgsrc-current. In that case, set FETCH_USING in your mk.conf file to "curl" or
"wget", which are both compiled with HTTPS support by default. Of course, these
tools need to be installed before you can use them this way.

10.8. How do I tell make fetch to do passive FTP?

This depends on which utility is used to retrieve distfiles. From bsd.pkg.mk,
FETCH_CMD is assigned the first available command from the following list:

  * ${LOCALBASE}/bin/ftp

  * /usr/bin/ftp

On a default NetBSD installation, this will be /usr/bin/ftp, which
automatically tries passive connections first, and falls back to active
connections if the server refuses to do passive. For the other tools, add the
following to your mk.conf file: PASSIVE_FETCH=1.

Having that option present will prevent /usr/bin/ftp from falling back to
active transfers.

10.9. How to fetch all distfiles at once

You would like to download all the distfiles in a single batch from work or
university, where you can't run a make fetch. There is an archive of distfiles
on ftp.NetBSD.org, but downloading the entire directory may not be appropriate.

The answer here is to do a make fetch-list in /usr/pkgsrc or one of its
subdirectories, carry the resulting list to your machine at work/school and use
it there. If you don't have a NetBSD-compatible ftp(1) (like tnftp) at work,
don't forget to set FETCH_CMD to something that fetches a URL:

At home:

% cd /usr/pkgsrc
% make fetch-list FETCH_CMD=wget DISTDIR=/tmp/distfiles >/tmp/fetch.sh
% scp /tmp/fetch.sh work:/tmp

At work:

% sh /tmp/fetch.sh

then tar up /tmp/distfiles and take it home.

If you have a machine running NetBSD, and you want to get all distfiles (even
ones that aren't for your machine architecture), you can do so by using the
above-mentioned make fetch-list approach, or fetch the distfiles directly by
running:

% make mirror-distfiles

If you even decide to ignore NO_{SRC,BIN}_ON_{FTP,CDROM}, then you can get
everything by running:

% make fetch NO_SKIP=yes

10.10. What does "Don't know how to make /usr/share/tmac/tmac.andoc" mean?

When compiling the pkgtools/pkg_install package, you get the error from make
that it doesn't know how to make /usr/share/tmac/tmac.andoc? This indicates
that you don't have installed the "text" set (nroff, ...) from the NetBSD base
distribution on your machine. It is recommended to do that to format man pages.

In the case of the pkgtools/pkg_install package, you can get away with setting
NOMAN=YES either in the environment or in mk.conf.

10.11. What does "Could not find bsd.own.mk" mean?

You didn't install the compiler set, comp.tgz, when you installed your NetBSD
machine. Please get and install it, by extracting it in /:

# cd /
# tar --unlink -zxvpf .../comp.tgz

comp.tgz is part of every NetBSD release. Get the one that corresponds to your
release (determine via uname -r).

10.12. Using 'sudo' with pkgsrc

When installing packages as non-root user and using the just-in-time su(1)
feature of pkgsrc, it can become annoying to type in the root password for each
required package installed. To avoid this, the sudo package can be used, which
does password caching over a limited time. To use it, install sudo (either as
binary package or from security/sudo) and then put the following into your
mk.conf, somewhere after the definition of the LOCALBASE variable:

.if exists(${LOCALBASE}/bin/sudo)
SU_CMD=        ${LOCALBASE}/bin/sudo /bin/sh -c
.endif

10.13. How do I change the location of configuration files?

As the system administrator, you can choose where configuration files are
installed. The default settings make all these files go into ${PREFIX}/etc or
some of its subdirectories; this may be suboptimal depending on your
expectations (e.g., a read-only, NFS-exported PREFIX with a need of per-machine
configuration of the provided packages).

In order to change the defaults, you can modify the PKG_SYSCONFBASE variable
(in mk.conf) to point to your preferred configuration directory; some common
examples include /etc or /etc/pkg.

Furthermore, you can change this value on a per-package basis by setting the
PKG_SYSCONFDIR.${PKG_SYSCONFVAR} variable. PKG_SYSCONFVAR's value usually
matches the name of the package you would like to modify, that is, the contents
of PKGBASE.

Note that after changing these settings, you must rebuild and reinstall any
affected packages.

10.14. Automated security checks

Please be aware that there can often be bugs in third-party software, and some
of these bugs can leave a machine vulnerable to exploitation by attackers. In
an effort to lessen the exposure, the NetBSD packages team maintains a database
of known-exploits to packages which have at one time been included in pkgsrc.
The database can be downloaded automatically, and a security audit of all
packages installed on a system can take place. To do this, refer to the
following two tools (installed as part of the pkgtools/pkg_install package):

 1. pkg_admin fetch-pkg-vulnerabilities, an easy way to download a list of the
    security vulnerabilities information. This list is kept up to date by the
    pkgsrc security team, and is distributed from the NetBSD ftp server:

    ftp://ftp.NetBSD.org/pkgsrc/distfiles/pkg-vulnerabilities

 2. pkg_admin audit, an easy way to audit the current machine, checking each
    known vulnerability. If a vulnerable package is installed, it will be shown
    by output to stdout, including a description of the type of vulnerability,
    and a URL containing more information.

Use of these tools is strongly recommended! See Section 5.1.5, "Checking for
security vulnerabilities in installed packages" for instructions on how to
automate checking and reporting.

If this database is installed, pkgsrc builds will use it to perform a security
check before building any package.

10.15. Why do some packages ignore my CFLAGS?

When you add your own preferences to the CFLAGS variable in your mk.conf, these
flags are passed in environment variables to the ./configure scripts and to
make(1). Some package authors ignore the CFLAGS from the environment variable
by overriding them in the Makefiles of their package.

Currently there is no solution to this problem. If you really need the package
to use your CFLAGS you should run make patch in the package directory and then
inspect any Makefile and Makefile.in for whether they define CFLAGS explicitly.
Usually you can remove these lines. But be aware that some "smart" programmers
write so bad code that it only works for the specific combination of CFLAGS
they have chosen.

10.16. A package does not build. What shall I do?

 1. Make sure that your copy of pkgsrc is consistent. A case that occurs often
    is that people only update pkgsrc in parts, because of performance reasons.
    Since pkgsrc is one large system, not a collection of many small systems,
    there are sometimes changes that only work when the whole pkgsrc tree is
    updated.

 2. Make sure that you don't have any CVS conflicts. Search for "<<<<<<" or "
    >>>>>>" in all your pkgsrc files.

 3. Make sure that you don't have old copies of the packages extracted. Run 
    make clean clean-depends to verify this.

 4. If you are a package developer who wants to invest some work, have a look
    at Chapter 21, Making your package work.

 5. If the problem still exists, write a mail to the pkgsrc-users mailing list.

10.17. What does "Makefile appears to contain unresolved cvs/rcs/??? merge
conflicts" mean?

You have modified a file from pkgsrc, and someone else has modified that same
file afterwards in the CVS repository. Both changes are in the same region of
the file, so when you updated pkgsrc, the cvs command marked the conflicting
changes in the file. Because of these markers, the file is no longer a valid
Makefile.

Have a look at that file, and if you don't need your local changes anymore, you
can remove that file and run cvs -q update -dP in that directory to download
the current version.

Part II. The pkgsrc developer's guide

This part of the book deals with creating and modifying packages. It starts
with a "HOWTO"-like guide on creating a new package. The remaining chapters are
more like a reference manual for pkgsrc.

Table of Contents

11. Getting help
12. Creating a new pkgsrc package from scratch

    12.1. Common types of packages

        12.1.1. Perl modules
        12.1.2. Python modules and programs
        12.1.3. R packages
        12.1.4. TeXlive packages

    12.2. Examples

        12.2.1. How the www/nvu package came into pkgsrc

13. Package components - files, directories and contents

    13.1. Makefile
    13.2. distinfo
    13.3. patches/*

        13.3.1. Structure of a single patch file
        13.3.2. Creating patch files
        13.3.3. Sources where the patch files come from
        13.3.4. Patching guidelines
        13.3.5. Feedback to the author

    13.4. Other mandatory files
    13.5. Optional files

        13.5.1. Files affecting the binary package
        13.5.2. Files affecting the build process
        13.5.3. Files affecting nothing at all

    13.6. work*
    13.7. files/*

14. Programming in Makefiles

    14.1. Caveats
    14.2. Makefile variables

        14.2.1. Naming conventions

    14.3. Code snippets

        14.3.1. Adding things to a list
        14.3.2. Echoing a string exactly as-is
        14.3.3. Passing CFLAGS to GNU configure scripts
        14.3.4. Handling possibly empty variables

15. PLIST issues

    15.1. RCS ID
    15.2. Semi-automatic PLIST generation
    15.3. Tweaking output of make print-PLIST
    15.4. Variable substitution in PLIST
    15.5. Man page compression
    15.6. Changing PLIST source with PLIST_SRC
    15.7. Platform-specific and differing PLISTs
    15.8. Build-specific PLISTs
    15.9. Sharing directories between packages

16. Buildlink methodology

    16.1. Converting packages to use buildlink3
    16.2. Writing buildlink3.mk files

        16.2.1. Anatomy of a buildlink3.mk file
        16.2.2. Updating BUILDLINK_API_DEPENDS.pkg and BUILDLINK_ABI_DEPENDS.
            pkg in buildlink3.mk files

    16.3. Writing builtin.mk files

        16.3.1. Anatomy of a builtin.mk file
        16.3.2. Global preferences for native or pkgsrc software

17. The pkginstall framework

    17.1. Files and directories outside the installation prefix

        17.1.1. Directory manipulation
        17.1.2. File manipulation

    17.2. Configuration files

        17.2.1. How PKG_SYSCONFDIR is set
        17.2.2. Telling the software where configuration files are
        17.2.3. Patching installations
        17.2.4. Disabling handling of configuration files

    17.3. System startup scripts

        17.3.1. Disabling handling of system startup scripts

    17.4. System users and groups
    17.5. System shells

        17.5.1. Disabling shell registration

    17.6. Fonts

        17.6.1. Disabling automatic update of the fonts databases

18. Options handling

    18.1. Global default options
    18.2. Converting packages to use bsd.options.mk
    18.3. Option Names
    18.4. Determining the options of dependencies

19. The build process

    19.1. Introduction
    19.2. Program location
    19.3. Directories used during the build process
    19.4. Running a phase
    19.5. The fetch phase

        19.5.1. What to fetch and where to get it from
        19.5.2. How are the files fetched?

    19.6. The checksum phase
    19.7. The extract phase
    19.8. The patch phase
    19.9. The tools phase
    19.10. The wrapper phase
    19.11. The configure phase
    19.12. The build phase
    19.13. The test phase
    19.14. The install phase
    19.15. The package phase
    19.16. Cleaning up
    19.17. Other helpful targets

20. Tools needed for building or running

    20.1. Tools for pkgsrc builds
    20.2. Tools needed by packages
    20.3. Tools provided by platforms

21. Making your package work

    21.1. General operation

        21.1.1. How to pull in user-settable variables from mk.conf
        21.1.2. User interaction
        21.1.3. Handling licenses
        21.1.4. Restricted packages
        21.1.5. Handling dependencies
        21.1.6. Handling conflicts with other packages
        21.1.7. Packages that cannot or should not be built
        21.1.8. Packages which should not be deleted, once installed
        21.1.9. Handling packages with security problems
        21.1.10. How to handle incrementing versions when fixing an existing
            package
        21.1.11. Substituting variable text in the package files (the SUBST
            framework)

    21.2. The fetch phase

        21.2.1. Packages whose distfiles aren't available for plain downloading
        21.2.2. How to handle modified distfiles with the 'old' name
        21.2.3. Packages hosted on github.com

    21.3. The configure phase

        21.3.1. Shared libraries - libtool
        21.3.2. Using libtool on GNU packages that already support libtool
        21.3.3. GNU Autoconf/Automake

    21.4. Programming languages

        21.4.1. C, C++, and Fortran
        21.4.2. Java
        21.4.3. Packages containing perl scripts
        21.4.4. Packages containing shell scripts
        21.4.5. Other programming languages

    21.5. The build phase

        21.5.1. Compiling C and C++ code conditionally
        21.5.2. How to handle compiler bugs
        21.5.3. Undefined reference to "..."
        21.5.4. Running out of memory

    21.6. The install phase

        21.6.1. Creating needed directories
        21.6.2. Where to install documentation
        21.6.3. Installing highscore files
        21.6.4. Adding DESTDIR support to packages
        21.6.5. Packages with hardcoded paths to other interpreters
        21.6.6. Packages installing perl modules
        21.6.7. Packages installing info files
        21.6.8. Packages installing man pages
        21.6.9. Packages installing GConf data files
        21.6.10. Packages installing scrollkeeper/rarian data files
        21.6.11. Packages installing X11 fonts
        21.6.12. Packages installing GTK2 modules
        21.6.13. Packages installing SGML or XML data
        21.6.14. Packages installing extensions to the MIME database
        21.6.15. Packages using intltool
        21.6.16. Packages installing startup scripts
        21.6.17. Packages installing TeX modules
        21.6.18. Packages supporting running binaries in emulation
        21.6.19. Packages installing hicolor theme icons
        21.6.20. Packages installing desktop files

    21.7. Marking packages as having problems

22. Debugging
23. Submitting and Committing

    23.1. Submitting binary packages
    23.2. Submitting source packages (for non-NetBSD-developers)
    23.3. General notes when adding, updating, or removing packages
    23.4. Commit Messages
    23.5. Committing: Adding a package to CVS
    23.6. Updating a package to a newer version
    23.7. Renaming a package in pkgsrc
    23.8. Moving a package in pkgsrc

24. Frequently Asked Questions
25. GNOME packaging and porting

    25.1. Meta packages
    25.2. Packaging a GNOME application
    25.3. Updating GNOME to a newer version
    25.4. Patching guidelines

Chapter 11. Getting help

To get help when developing pkgsrc, the definitive source is this document, the
pkgsrc guide. If you don't find anything here, there are alternatives:

  * The built-in pkgsrc help, which is available after bootstrapping pkgsrc.
    Run bmake help topic=? to get help for any topic, such as a variable name
    like BUILD_DEFS, a make target like do-build, a missing C or C++ function
    like strcasecmp or any other topic.

    The available help topics are listed in Appendix D, Help topics.

  * To see the value of a single variable, run bmake show-var VARNAME=X.

  * To see the values of the most common variables, run bmake show-all. These
    variables are grouped by topic. To see the variables for a single topic,
    run bmake show-all-topic, for example bmake show-all-fetch.

  * The tech-pkg mailing list, to which you can subscribe and then ask your
    questions.

  * The #pkgsrc IRC channel, which is accessible via a web browser or by using
    a specialized chat program such as XChat. Pick any user name and join the
    channel #pkgsrc.

Chapter 12. Creating a new pkgsrc package from scratch

Table of Contents

12.1. Common types of packages

    12.1.1. Perl modules
    12.1.2. Python modules and programs
    12.1.3. R packages
    12.1.4. TeXlive packages

12.2. Examples

    12.2.1. How the www/nvu package came into pkgsrc

When you find a package that is not yet in pkgsrc, you most likely have a URL
from where you can download the source code. Starting with this URL, creating a
package involves only a few steps.

 1. First, install the packages pkgtools/url2pkg and pkgtools/pkglint.

 2. Then, choose one of the top-level directories as the category in which you
    want to place your package. You can also create a directory of your own
    (maybe called local). In that category directory, create another directory
    for your package and change into it.

 3. Run the program url2pkg, which will ask you for a URL. Enter the URL of the
    distribution file (in most cases a .tar.gz file) and watch how the basic
    ingredients of your package are created automatically. The distribution
    file is extracted automatically to fill in some details in the Makefile
    that would otherwise have to be done manually.

 4. Examine the extracted files to determine the dependencies of your package.
    Ideally, this is mentioned in some README file, but things may differ. For
    each of these dependencies, look where it exists in pkgsrc, and if there is
    a file called buildlink3.mk in that directory, add a line to your package
    Makefile which includes that file just before the last line. If the
    buildlink3.mk file does not exist, it must be created first. The
    buildlink3.mk file makes sure that the package's include files and
    libraries are provided.

    If you just need binaries from a package, add a DEPENDS line to the
    Makefile, which specifies the version of the dependency and where it can be
    found in pkgsrc. This line should be placed in the third paragraph. If the
    dependency is only needed for building the package, but not when using it,
    use TOOL_DEPENDS or BUILD_DEPENDS instead of DEPENDS. The difference
    between TOOL_DEPENDS and BUILD_DEPENDS occurs when cross-compiling:
    TOOL_DEPENDS are native packages, i.e. packages for the architecture where
    the package is built; BUILD_DEPENDS are target packages, i.e. packages for
    the architecture for which the package is built. Your package may then look
    like this:

    [...]

    TOOL_DEPENDS+=  libxslt-[0-9]*:../../textproc/libxslt
    DEPENDS+=       screen-[0-9]*:../../misc/screen
    DEPENDS+=       screen>=4.0:../../misc/screen

    [...]

    .include "../../category/package/buildlink3.mk"
    .include "../../devel/glib2/buildlink3.mk"
    .include "../../mk/bsd.pkg.mk"

 5. Run pkglint to see what things still need to be done to make your package a
    "good" one. If you don't know what pkglint's warnings want to tell you, try
    pkglint --explain or pkglint -e, which outputs additional explanations.

 6. In many cases the package is not yet ready to build. You can find
    instructions for the most common cases in the next section, Section 12.1,
    "Common types of packages". After you have followed the instructions over
    there, you can hopefully continue here.

 7. Run bmake clean to clean the working directory from the extracted files.
    Besides these files, a lot of cache files and other system information has
    been saved in the working directory, which may become wrong after you
    edited the Makefile.

 8. Now, run bmake to build the package. For the various things that can go
    wrong in this phase, consult Chapter 21, Making your package work.

 9. When the package builds fine, the next step is to install the package. Run 
    bmake install and hope that everything works.

10. Up to now, the file PLIST, which contains a list of the files that are
    installed by the package, is nearly empty. Run bmake print-PLIST >PLIST to
    generate a probably correct list. Check the file using your preferred text
    editor to see if the list of files looks plausible.

11. Run pkglint again to see if the generated PLIST contains garbage or not.

12. When you ran bmake install, the package has been registered in the database
    of installed files, but with an empty list of files. To fix this, run bmake
    deinstall and bmake install again. Now the package is registered with the
    list of files from PLIST.

13. Run bmake package to create a binary package from the set of installed
    files.

12.1. Common types of packages

12.1.1. Perl modules

Simple Perl modules are handled automatically by url2pkg, including
dependencies.

12.1.2. Python modules and programs

Python modules and programs packages are easily created using a set of
predefined variables.

If some Python versions are not supported by the software, set the
PYTHON_VERSIONS_INCOMPATIBLE variable to the Python versions that are not
supported, e.g.

PYTHON_VERSIONS_INCOMPATIBLE=       27

If the packaged software is a Python module, include one of ../../lang/python/
egg.mk, ../../lang/python/distutils.mk, or ../../lang/python/extension.mk.

Most Python packages use either "distutils" or easy-setup/setuptools ("eggs").
if the packaged software is using setuptools, you only need to include "../../
lang/python/egg.mk". Otherwise, if the software uses "distutils", include "..
/../lang/python/distutils.mk". so pkgsrc will use this framework. "distutils"
uses a script called setup.py, if the "distutils" driver is not called
setup.py, set the PYSETUP variable to the name of the script.

Either way, the package directory should be called "py-software" and PKGNAME
should be set to "${PYPKGPREFIX}-${DISTNAME}", e.g.

DISTNAME=   foopymodule-1.2.10
PKGNAME=    ${PYPKGPREFIX}-${DISTNAME}

If it is an application, include "../../lang/python/application.mk". In order
to correctly set the path to the Python interpreter, use the REPLACE_PYTHON
variable and set it to the list of files (paths relative to WRKSRC) that must
be corrected. For example:

REPLACE_PYTHON=   *.py

Some Python modules have separate distributions for Python-2.x and Python-3.x
support. In pkgsrc this is handled by the versioned_dependencies.mk file. Set
PYTHON_VERSIONED_DEPENDENCIES to the list of packages that should be depended
upon and include "../../lang/python/versioned_dependencies.mk", then the pkgsrc
infrastructure will depend on the appropriate package version. For example:

PYTHON_VERSIONED_DEPENDENCIES=dialog

Look inside versioned_dependencies.mk for a list of supported packages.

12.1.3. R packages

Simple R packages from CRAN are handled automatically by R2pkg, which is
available in pkgtools/R2pkg. Individual packages (and optionally their
dependencies) may be created and updated. R packages generally follow the same
form, and most of the relevant information needed is contained in a DESCRIPTION
file as part of each R package on CRAN. Consequently, R2pkg downloads that
information and creates or updates a package in the canonical form. The
resulting package should be reviewed for correctness.

12.1.4. TeXlive packages

TeXlive packages from CTAN are handled automatically by texlive2pkg, which is
available in pkgtools/texlive2pkg.

If the TeXlive package name is not known, it may be useful to search CTAN. A "
Contained in" field on the package page typically identifies the basename of
the package file in the TeXlive archive.

If the TeXlive package name is known, download the files from the TeXlive
archive. For package foo, you will need to download foo.tar.xz. Most TeXlive
packages also have associated documentation packages, so download
foo.doc.tar.xz at the same time. These files should be placed in the
appropriate category directory, which is often but not always print. Then run
the following command in the category directory.

texlive2pkg foo.tar.xz foo.doc.tar.xz

This will create two packages, tex-foo and tex-foo-doc. Be sure to check that
both packages are correct.

Finally, CTAN currently does not include version information in package
filenames and changes their contents periodically when updates occur.
Consequently, pkgsrc avoids downloading distfiles directly from CTAN and
instead relies on the pkgsrc archives. For each new or updated TeXlive package,
e.g., the main one and the corresponding documentation, upload the distfiles
with the following command in each package directory.

make upload-distfiles

12.2. Examples

12.2.1. How the www/nvu package came into pkgsrc

12.2.1.1. The initial package

Looking at the file pkgsrc/doc/TODO, I saw that the "nvu" package has not yet
been imported into pkgsrc. As the description says it has to do with the web,
the obvious choice for the category is "www".

$ mkdir www/nvu
$ cd www/nvu

The web site says that the sources are available as a tar file, so I fed that
URL to the url2pkg program:

$ url2pkg http://cvs.nvu.com/download/nvu-1.0-sources.tar.bz2

My editor popped up, and I added a PKGNAME line below the DISTNAME line, as the
package name should not have the word "sources" in it. I also filled in the
MAINTAINER, HOMEPAGE and COMMENT fields. Then the package Makefile looked like
that:

# $NetBSD $
#

DISTNAME=       nvu-1.0-sources
PKGNAME=        nvu-1.0
CATEGORIES=     www
MASTER_SITES=   http://cvs.nvu.com/download/
EXTRACT_SUFX=   .tar.bz2

MAINTAINER=     rillig@NetBSD.org
HOMEPAGE=       http://cvs.nvu.com/
COMMENT=        Web Authoring System

# url2pkg-marker (please do not remove this line.)
.include "../../mk/bsd.pkg.mk"

On the first line of output above, an artificial space has been added between
NetBSD and $, this is a workaround to prevent CVS expanding to the filename of
the guide.

Then, I quit the editor and watched pkgsrc downloading a large source archive:

url2pkg> Running "make makesum" ...
=> Required installed package digest>=20010302: digest-20060826 found
=> Fetching nvu-1.0-sources.tar.bz2
Requesting http://cvs.nvu.com/download/nvu-1.0-sources.tar.bz2
100% |*************************************| 28992 KB  150.77 KB/s00:00 ETA
29687976 bytes retrieved in 03:12 (150.77 KB/s)
url2pkg> Running "make extract" ...
=> Required installed package digest>=20010302: digest-20060826 found
=> Checksum SHA1 OK for nvu-1.0-sources.tar.bz2
=> Checksum RMD160 OK for nvu-1.0-sources.tar.bz2
work.bacc -> /tmp/roland/pkgsrc/www/nvu/work.bacc
===> Installing dependencies for nvu-1.0
===> Overriding tools for nvu-1.0
===> Extracting for nvu-1.0
url2pkg> Adjusting the Makefile.

Remember to correct CATEGORIES, HOMEPAGE, COMMENT, and DESCR when you're done!

Good luck! (See pkgsrc/doc/pkgsrc.txt for some more help :-)

12.2.1.2. Fixing all kinds of problems to make the package work

Now that the package has been extracted, let's see what's inside it. The
package has a README.txt, but that only says something about mozilla, so it's
probably useless for seeing what dependencies this package has. But since there
is a GNU configure script in the package, let's hope that it will complain
about everything it needs.

$ bmake
=> Required installed package digest>=20010302: digest-20060826 found
=> Checksum SHA1 OK for nvu-1.0-sources.tar.bz2
=> Checksum RMD160 OK for nvu-1.0-sources.tar.bz2
===> Patching for nvu-1.0
===> Creating toolchain wrappers for nvu-1.0
===> Configuring for nvu-1.0
[...]
configure: error: Perl 5.004 or higher is required.
[...]
WARNING: Please add USE_TOOLS+=perl to the package Makefile.
[...]

That worked quite well. So I opened the package Makefile in my editor, and
since it already has a USE_TOOLS line, I just appended "perl" to it. Since the
dependencies of the package have changed now, and since a perl wrapper is
automatically installed in the "tools" phase, I need to build the package from
scratch.

$ bmake clean
===> Cleaning for nvu-1.0
$ bmake
[...]
*** /tmp/roland/pkgsrc/www/nvu/work.bacc/.tools/bin/make is not \
GNU Make.  You will not be able to build Mozilla without GNU Make.
[...]

So I added "gmake" to the USE_TOOLS line and tried again (from scratch).

[...]
checking for GTK - version >= 1.2.0... no
*** Could not run GTK test program, checking why...
[...]

Now to the other dependencies. The first question is: Where is the GTK package
hidden in pkgsrc?

$ echo ../../*/gtk*
[many packages ...]
$ echo ../../*/gtk
../../x11/gtk
$ echo ../../*/gtk2
../../x11/gtk2
$ echo ../../*/gtk2/bui*
../../x11/gtk2/buildlink3.mk

The first try was definitely too broad. The second one had exactly one result,
which is very good. But there is one pitfall with GNOME packages. Before GNOME
2 had been released, there were already many GNOME 1 packages in pkgsrc. To be
able to continue to use these packages, the GNOME 2 packages were imported as
separate packages, and their names usually have a "2" appended. So I checked
whether this was the case here, and indeed it was.

Since the GTK2 package has a buildlink3.mk file, adding the dependency is very
easy. I just inserted an .include line before the last line of the package
Makefile, so that it now looks like this:

[...]
.include "../../x11/gtk2/buildlink3.mk"
.include "../../mk/bsd.pkg.mk

After another bmake clean && bmake, the answer was:

[...]
checking for gtk-config... /home/roland/pkg/bin/gtk-config
checking for GTK - version >= 1.2.0... no
*** Could not run GTK test program, checking why...
*** The test program failed to compile or link. See the file config.log for the
*** exact error that occured. This usually means GTK was incorrectly installed
*** or that you have moved GTK since it was installed. In the latter case, you
*** may want to edit the gtk-config script: /home/roland/pkg/bin/gtk-config
configure: error: Test for GTK failed.
[...]

In this particular case, the assumption that "every package prefers GNOME 2"
had been wrong. The first of the lines above told me that this package really
wanted to have the GNOME 1 version of GTK. If the package had looked for GTK2,
it would have looked for pkg-config instead of gtk-config. So I changed the x11
/gtk2 to x11/gtk in the package Makefile, and tried again.

[...]
cc -o xpidl.o -c -DOSTYPE=\"NetBSD3\" -DOSARCH=\"NetBSD\"  [...]
In file included from xpidl.c:42:
xpidl.h:53:24: libIDL/IDL.h: No such file or directory
In file included from xpidl.c:42:
xpidl.h:132: error: parse error before "IDL_ns"
[...]

The package still does not find all of its dependencies. Now the question is:
Which package provides the libIDL/IDL.h header file?

$ echo ../../*/*idl*
../../devel/py-idle ../../wip/idled ../../x11/acidlaunch
$ echo ../../*/*IDL*
../../net/libIDL

Let's take the one from the second try. So I included the ../../net/libIDL/
buildlink3.mk file and tried again. But the error didn't change. After digging
through some of the code, I concluded that the build process of the package was
broken and couldn't have ever worked, but since the Mozilla source tree is
quite large, I didn't want to fix it. So I added the following to the package
Makefile and tried again:

CPPFLAGS+=              -I${BUILDLINK_PREFIX.libIDL}/include/libIDL-2.0
BUILDLINK_TRANSFORM+=   l:IDL:IDL-2

The latter line is needed because the package expects the library libIDL.so,
but only libIDL-2.so is available. So I told the compiler wrapper to rewrite
that on the fly.

The next problem was related to a recent change of the FreeType interface. I
looked up in www/seamonkey which patch files were relevant for this issue and
copied them to the patches directory. Then I retried, fixed the patches so that
they applied cleanly and retried again. This time, everything worked.

12.2.1.3. Installing the package

$ bmake CHECK_FILES=no install
[...]
$ bmake print-PLIST >PLIST
$ bmake deinstall
$ bmake install

Chapter 13. Package components - files, directories and contents

Table of Contents

13.1. Makefile
13.2. distinfo
13.3. patches/*

    13.3.1. Structure of a single patch file
    13.3.2. Creating patch files
    13.3.3. Sources where the patch files come from
    13.3.4. Patching guidelines
    13.3.5. Feedback to the author

13.4. Other mandatory files
13.5. Optional files

    13.5.1. Files affecting the binary package
    13.5.2. Files affecting the build process
    13.5.3. Files affecting nothing at all

13.6. work*
13.7. files/*

Whenever you're preparing a package, there are a number of files involved which
are described in the following sections.

13.1. Makefile

Building, installation and creation of a binary package are all controlled by
the package's Makefile. The Makefile describes various things about a package,
for example from where to get it, how to configure, build, and install it.

A package Makefile contains several sections that describe the package.

In the first section there are the following variables, which should appear
exactly in the order given here. The order and grouping of the variables is
mostly historical and has no further meaning.

  * DISTNAME is the basename of the distribution file to be downloaded from the
    package's website.

  * PKGNAME is the name of the package, as used by pkgsrc. You need to provide
    it if DISTNAME (which is the default) is not a good name for the package in
    pkgsrc or DISTNAME is not provided (no distribution file is required).
    Usually it is the pkgsrc directory name together with the version number.
    It must match the regular expression ^[A-Za-z0-9][A-Za-z0-9-_.+]*$, that
    is, it starts with a letter or digit, and contains only letters, digits,
    dashes, underscores, dots and plus signs.

  * CATEGORIES is a list of categories which the package fits in. You can
    choose any of the top-level directories of pkgsrc for it.

    Currently the following values are available for CATEGORIES. If more than
    one is used, they need to be separated by spaces:

    archivers     cross         geography     meta-pkgs     security
    audio         databases     graphics      misc          shells
    benchmarks    devel         ham           multimedia    sysutils
    biology       editors       inputmethod   net           textproc
    cad           emulators     lang          news          time
    chat          finance       mail          parallel      wm
    comms         fonts         math          pkgtools      www
    converters    games         mbone         print         x11

  * MASTER_SITES, DYNAMIC_MASTER_SITES, DIST_SUBDIR, EXTRACT_SUFX and DISTFILES
    are discussed in detail in Section 19.5, "The fetch phase".

The second section contains information about separately downloaded patches, if
any.

  * PATCHFILES: Name(s) of additional files that contain distribution patches.
    There is no default. pkgsrc will look for them at PATCH_SITES. They will
    automatically be uncompressed before patching if the names end with .gz or
    .Z.

  * PATCH_SITES: Primary location(s) for distribution patch files (see
    PATCHFILES above) if not found locally.

  * PATCH_DIST_STRIP: an argument to patch(1) that sets the pathname strip
    count to help find the correct files to patch. It defaults to -p0.

The third section contains the following variables.

  * MAINTAINER is the email address of the person who feels responsible for
    this package, and who is most likely to look at problems or questions
    regarding this package which have been reported with send-pr(1). Other
    developers may contact the MAINTAINER before making changes to the package,
    but are not required to do so. When packaging a new program, set MAINTAINER
    to yourself. If you really can't maintain the package for future updates,
    set it to <pkgsrc-users@NetBSD.org>.

  * OWNER should be used instead of MAINTAINER when you do not want other
    developers to update or change the package without contacting you first. A
    package Makefile should contain one of MAINTAINER or OWNER, but not both.

  * HOMEPAGE is a URL where users can find more information about the package.

  * COMMENT is a one-line description of the package (should not include the
    package name).

  * LICENSE indicates the license(s) applicable for the package. See
    Section 21.1.3, "Handling licenses" for further details.

Other variables that affect the build:

  * WRKSRC: The directory where the interesting distribution files of the
    package are found. The default is ${WRKDIR}/${DISTNAME}, which works for
    most packages.

    If a package doesn't create a subdirectory for itself (most GNU software
    does, for instance), but extracts itself in the current directory, you
    should set WRKSRC=${WRKDIR}.

    If a package doesn't create a subdirectory with the name of DISTNAME but
    some different name, set WRKSRC to point to the proper name in ${WRKDIR},
    for example WRKSRC=${WRKDIR}/${DISTNAME}/unix. See lang/tcl and x11/tk for
    other examples.

    The name of the working directory created by pkgsrc is taken from the
    WRKDIR_BASENAME variable. By default, its value is work. If you want to use
    the same pkgsrc tree for building different kinds of binary packages, you
    can change the variable according to your needs. Two other variables handle
    common cases of setting WRKDIR_BASENAME individually. If OBJHOSTNAME is
    defined in mk.conf, the first component of the host's name is attached to
    the directory name. If OBJMACHINE is defined, the platform name is
    attached, which might look like work.i386 or work.sparc.

Please pay attention to the following gotchas:

  * Add MANCOMPRESSED if man pages are installed in compressed form by the
    package. For packages using BSD-style makefiles which honor MANZ, there is
    MANCOMPRESSED_IF_MANZ.

  * Replace /usr/local with "${PREFIX}" in all files (see patches, below).

  * If the package installs any info files, see Section 21.6.7, "Packages
    installing info files".

13.2. distinfo

The distinfo file contains the message digest, or checksum, of each distfile
needed for the package. This ensures that the distfiles retrieved from the
Internet have not been corrupted during transfer or altered by a malign force
to introduce a security hole. To provide maximum security, all distfiles are
protected using three different message digest algorithms (SHA1, RMD160,
SHA512), as well as the file size.

The distinfo file also contains the checksums for all the patches found in the
patches directory (see Section 13.3, "patches/*"). These checksums ensure that
patches are only applied intentionally and that they don't accidentally change,
e.g. when merging different changes together. They also make sure that new
patches are actually added to CVS and old ones are removed. Too see whether the
patches and the distinfo file match, run pkglint after changing the patches.

To regenerate the distinfo file, use the make distinfo command.

Some packages have different sets of distfiles depending on the platform, for
example lang/openjdk7. These are kept in the same distinfo file and care should
be taken when upgrading such a package to ensure distfile information is not
lost.

13.3. patches/*

Some packages don't work out-of-the box on the various platforms that are
supported by pkgsrc. These packages need to be patched to make them work. The
patch files can be found in the patches/ directory.

In the patch phase, these patches are applied to the files in WRKSRC directory
after extracting them, in alphabetic order.

13.3.1. Structure of a single patch file

The patch-* files should be in diff -bu format, and apply without a fuzz to
avoid problems. (To force patches to apply with fuzz you can set
PATCH_FUZZ_FACTOR=-F2). Furthermore, each patch should contain only changes for
a single file, and no file should be patched by more than one patch file. This
helps to keep future modifications simple.

Each patch file is structured as follows: In the first line, there is the RCS
Id of the patch itself. The second line should be empty for aesthetic reasons.
After that, there should be a comment for each change that the patch does.
There are a number of standard cases:

  * Patches for commonly known vulnerabilities should mention the vulnerability
    ID (CAN, CVE).

  * Patches that change source code should mention the platform and other
    environment (for example, the compiler) that the patch is needed for.

The patch should be commented so that any developer who knows the code of the
application can make some use of the patch. Special care should be taken for
the upstream developers, since we generally want that they accept our patches,
so we have less work in the future.

13.3.2. Creating patch files

One important thing to mention is to pay attention that no RCS IDs get stored
in the patch files, as these will cause problems when later checked into the
NetBSD CVS tree. Use the pkgdiff command from the pkgtools/pkgdiff package to
avoid these problems.

For even more automation, we recommend using mkpatches from the same package to
make a whole set of patches. You just have to backup files before you edit them
to filename.orig, e.g. with cp -p filename filename.orig or, easier, by using 
pkgvi again from the same package. If you upgrade a package this way, you can
easily compare the new set of patches with the previously existing one with 
patchdiff. The files in patches are replaced by new files, so carefully check
if you want to take all the changes.

When you have finished a package, remember to generate the checksums for the
patch files by using the make makepatchsum command, see Section 13.2,
"distinfo".

When adding a patch that corrects a problem in the distfile (rather than e.g.
enforcing pkgsrc's view of where man pages should go), send the patch as a bug
report to the maintainer. This benefits non-pkgsrc users of the package, and
usually makes it possible to remove the patch in future version.

The file names of the patch files are usually of the form patch-
path_to_file__with__underscores.c. Many packages still use the previous
convention patch-[a-z][a-z], but new patches should be of the form containing
the filename. mkpatches included in pkgtools/pkgdiff takes care of the name
automatically.

13.3.3. Sources where the patch files come from

If you want to share patches between multiple packages in pkgsrc, e.g. because
they use the same distfiles, set PATCHDIR to the path where the patch files can
be found, e.g.:

PATCHDIR=       ../../editors/xemacs/patches

Patch files that are distributed by the author or other maintainers can be
listed in PATCHFILES.

If it is desired to store any patches that should not be committed into pkgsrc,
they can be kept outside the pkgsrc tree in the $LOCALPATCHES directory. The
directory tree there is expected to have the same "category/package" structure
as pkgsrc, and patches are expected to be stored inside these dirs (also known
as $LOCALPATCHES/$PKGPATH). For example, if you want to keep a private patch
for pkgsrc/graphics/png, keep it in $LOCALPATCHES/graphics/png/mypatch. All
files in the named directory are expected to be patch files, and they are
applied after pkgsrc patches are applied.

13.3.4. Patching guidelines

When fixing a portability issue in the code do not use preprocessor magic to
check for the current operating system nor platform. Doing so hurts portability
to other platforms because the OS-specific details are not abstracted
appropriately.

The general rule to follow is: instead of checking for the operating system the
application is being built on, check for the specific features you need. For
example, instead of assuming that kqueue is available under NetBSD and using
the __NetBSD__ macro to conditionalize kqueue support, add a check that detects
kqueue itself ? yes, this generally involves patching the configure script.
There is absolutely nothing that prevents some OSes from adopting interfaces
from other OSes (e.g. Linux implementing kqueue), something that the above
checks cannot take into account.

Of course, checking for features generally involves more work on the
developer's side, but the resulting changes are cleaner and there are chances
they will work on many other platforms. Not to mention that there are higher
chances of being later integrated into the mainstream sources. Remember: It
doesn't work unless it is right!

Some typical examples:

Table 13.1. Patching examples

+-------------------------------------------------------------------------------------------+
|  Where  |        Incorrect         |                       Correct                        |
|---------+--------------------------+------------------------------------------------------|
|         |case ${target_os} in      |                                                      |
|configure|netbsd*) have_kvm=yes ;;  |AC_CHECK_LIB(kvm, kvm_open, have_kvm=yes, have_kvm=no)|
|script   |*)       have_kvm=no  ;;  |                                                      |
|         |esac                      |                                                      |
|---------+--------------------------+------------------------------------------------------|
|C source |#if defined(__NetBSD__)   |#if defined(HAVE_SYS_EVENT_H)                         |
|file     |#  include <sys/event.h>  |#  include <sys/event.h>                              |
|         |#endif                    |#endif                                                |
|---------+--------------------------+------------------------------------------------------|
|         |int                       |int                                                   |
|         |monitor_file(...)         |monitor_file(...)                                     |
|         |{                         |{                                                     |
|         |#if defined(__NetBSD__)   |#if defined(HAVE_KQUEUE)                              |
|C source |        int fd = kqueue();|        int fd = kqueue();                            |
|file     |        ...               |        ...                                           |
|         |#else                     |#else                                                 |
|         |        ...               |        ...                                           |
|         |#endif                    |#endif                                                |
|         |}                         |}                                                     |
+-------------------------------------------------------------------------------------------+


13.3.5. Feedback to the author

Always, always, always feed back any portability fixes or improvements you do
to a package to the mainstream developers. This is the only way to get their
attention on portability issues and to ensure that future versions can be built
out-of-the box on NetBSD. Furthermore, any user that gets newer distfiles will
get the fixes straight from the packaged code.

This generally involves cleaning up the patches (because sometimes the patches
that are added to pkgsrc are quick hacks), filing bug reports in the
appropriate trackers for the projects and working with the mainstream authors
to accept your changes. It is extremely important that you do it so that the
packages in pkgsrc are kept simple and thus further changes can be done without
much hassle.

When you have done this, please add a URL to the upstream bug report to the
patch comment.

Support the idea of free software!

13.4. Other mandatory files

DESCR

    A multi-line description of the piece of software. This should include any
    credits where they are due. Please bear in mind that others do not share
    your sense of humour (or spelling idiosyncrasies), and that others will
    read everything that you write here.

PLIST

    This file governs the files that are installed on your system: all the
    binaries, manual pages, etc. There are other directives which may be
    entered in this file, to control the creation and deletion of directories,
    and the location of inserted files. See Chapter 15, PLIST issues for more
    information.

13.5. Optional files

13.5.1. Files affecting the binary package

INSTALL

    This shell script is invoked twice by pkg_add(1). First time after package
    extraction and before files are moved in place, the second time after the
    files to install are moved in place. This can be used to do any custom
    procedures not possible with @exec commands in PLIST. See pkg_add(1) and
    pkg_create(1) for more information. See also Section 17.1, "Files and
    directories outside the installation prefix". Please note that you can
    modify variables in it easily by using FILES_SUBST in the package's
    Makefile:

    FILES_SUBST+=  SOMEVAR="somevalue"

    replaces "@SOMEVAR@" with "somevalue" in the INSTALL. By default,
    substitution is performed for PREFIX, LOCALBASE, X11BASE, VARBASE, and a
    few others, type make help topic=FILES_SUBST for a complete list.

DEINSTALL

    This script is executed before and after any files are removed. It is this
    script's responsibility to clean up any additional messy details around the
    package's installation, since all pkg_delete knows is how to delete the
    files created in the original distribution. See pkg_delete(1) and
    pkg_create(1) for more information. The same methods to replace variables
    can be used as for the INSTALL file.

MESSAGE

    This file is displayed after installation of the package. Useful for things
    like legal notices on almost-free software and hints for updating config
    files after installing modules for apache, PHP etc. Please note that you
    can modify variables in it easily by using MESSAGE_SUBST in the package's
    Makefile:

    MESSAGE_SUBST+=  SOMEVAR="somevalue"

    replaces "${SOMEVAR}" with "somevalue" in MESSAGE. By default, substitution
    is performed for PKGNAME, PKGBASE, PREFIX, LOCALBASE, X11BASE,
    PKG_SYSCONFDIR, ROOT_GROUP, and ROOT_USER.

    You can display a different or additional files by setting the MESSAGE_SRC
    variable. Its default is MESSAGE, if the file exists.

ALTERNATIVES

    This file is used by the alternatives framework. It creates, configures,
    and destroys generic wrappers used to run programs with similar interfaces.
    See pkg_alternatives(8) from pkgtools/pkg_alternatives for more
    information.

    Each line of the file contains two filenames, first the wrapper and then
    the alternative provided by the package. Both paths are relative to PREFIX.

13.5.2. Files affecting the build process

Makefile.common

    This file contains arbitrary things that could also go into a Makefile, but
    its purpose is to be used by more than one package. This file should only
    be used when the packages that will use the file are known in advance. For
    other purposes it is often better to write a *.mk file and give it a good
    name that describes what it does.

buildlink3.mk

    This file contains the dependency information for the buildlink3 framework
    (see Chapter 16, Buildlink methodology).

hacks.mk

    This file contains workarounds for compiler bugs and similar things. It is
    included automatically by the pkgsrc infrastructure, so you don't need an
    extra .include line for it.

options.mk

    This file contains the code for the package-specific options (see
    Chapter 18, Options handling) that can be selected by the user. If a
    package has only one or two options, it is equally acceptable to put the
    code directly into the Makefile.

13.5.3. Files affecting nothing at all

README*

    These files do not take place in the creation of a package and thus are
    purely informative to the package developer.

TODO

    This file contains things that need to be done to make the package even
    better.

13.6. work*

When you type make, the distribution files are unpacked into the directory
denoted by WRKDIR. It can be removed by running make clean. Besides the
sources, this directory is also used to keep various timestamp files. The
directory gets removed completely on clean. The default is ${.CURDIR}/work or $
{.CURDIR}/work.${MACHINE_ARCH} if OBJMACHINE is set.

13.7. files/*

If you have any files that you wish to be placed in the package prior to
configuration or building, you could place these files here and use a ${CP}
command in the "pre-configure" target to achieve this. Alternatively, you could
simply diff the file against /dev/null and use the patch mechanism to manage
the creation of this file.

If you want to share files in this way with other packages, set the FILESDIR
variable to point to the other package's files directory, e.g.:

FILESDIR=       ../../editors/xemacs/files

Chapter 14. Programming in Makefiles

Table of Contents

14.1. Caveats
14.2. Makefile variables

    14.2.1. Naming conventions

14.3. Code snippets

    14.3.1. Adding things to a list
    14.3.2. Echoing a string exactly as-is
    14.3.3. Passing CFLAGS to GNU configure scripts
    14.3.4. Handling possibly empty variables

Pkgsrc consists of many Makefile fragments, each of which forms a well-defined
part of the pkgsrc system. Using the make(1) system as a programming language
for a big system like pkgsrc requires some discipline to keep the code correct
and understandable.

The basic ingredients for Makefile programming are variables and shell
commands. Among these shell commands may even be more complex ones like awk(1)
programs. To make sure that every shell command runs as intended it is
necessary to quote all variables correctly when they are used.

This chapter describes some patterns that appear quite often in Makefiles,
including the pitfalls that come along with them.

14.1. Caveats

  * When you are creating a file as a target of a rule, always write the data
    to a temporary file first and finally rename that file. Otherwise there
    might occur an error in the middle of generating the file, and when the
    user runs make(1) for the second time, the file exists and will not be
    regenerated properly. Example:

    wrong:
            @echo "line 1" > ${.TARGET}
            @echo "line 2" >> ${.TARGET}
            @false

    correct:
            @echo "line 1" > ${.TARGET}.tmp
            @echo "line 2" >> ${.TARGET}.tmp
            @false
            @mv ${.TARGET}.tmp ${.TARGET}

    When you run make wrong twice, the file wrong will exist, although there
    was an error message in the first run. On the other hand, running make
    correct gives an error message twice, as expected.

    You might remember that make(1) sometimes removes ${.TARGET} in case of
    error, but this only happens when it is interrupted, for example by
    pressing Ctrl+C. This does not happen when one of the commands fails (like
    false(1) above).

14.2. Makefile variables

Makefile variables contain strings that can be processed using the five
operators =, +=, ?=, := and !=, which are described in the make(1) man page.

When a variable's value is parsed from a Makefile, the hash character # and the
backslash character \ are handled specially. If a backslash is the last
character in a line, that backslash is removed from the line and the line
continues with the next line of the file.

The # character starts a comment that reaches until the end of the line. To get
an actual # character, such as in a URL, write \# instead.

The evaluation of variables either happens immediately or lazy. It happens
immediately when the variable occurs on the right-hand side of the := or the !=
operator, in a .if condition or a .for loop. In the other cases, it is
evaluated lazily.

Some of the modifiers split the string into words and then operate on the
words, others operate on the string as a whole. When a string is split into
words, double quotes and single quotes are interpreted as delimiters, just like
in sh(1).

14.2.1. Naming conventions

  * All variable names starting with an underscore are reserved for use by the
    pkgsrc infrastructure. They shall not be used by packages.

  * In .for loops you should use lowercase variable names for the iteration
    variables.

  * All list variables should have a plural name, such as PKG_OPTIONS or
    DISTFILES.

14.3. Code snippets

14.3.1. Adding things to a list

When adding a string that possibly contains whitespace or quotes to a list
(example 1), it must be quoted using the :Q modifier.

When adding another list to a list (example 2), it must not be quoted, since
its elements are already quoted.

STRING=         foo * bar `date`
LIST=           # empty
ANOTHER_LIST=   a=b c=d

LIST+=          ${STRING:Q}       # 1
LIST+=          ${ANOTHER_LIST}   # 2

14.3.2. Echoing a string exactly as-is

Echoing a string containing special characters needs special work.

STRING=         foo bar <    > * `date` $$HOME ' "
EXAMPLE_ENV=    string=${STRING:Q} x=multiple\ quoted\ words

all:
        echo ${STRING}                  # 1
        echo ${STRING:Q}                # 2
        printf '%s\n' ${STRING:Q}''     # 3
        env ${EXAMPLE_ENV} sh -c 'echo "$$string"; echo "$$x"'   # 4

Example 1 leads to a syntax error in the shell, as the characters are just
copied.

Example 2 quotes the string so that the shell interprets it correctly. But the
echo command may additionally interpret strings with a leading dash or those
containing backslashes.

Example 3 can handle arbitrary strings, since printf(1) only interprets the
format string, but not the next argument. The trailing single quotes handle the
case when the string is empty. In that case, the :Q modifier would result in an
empty string too, which would then be skipped by the shell. For printf(1) this
doesn't make a difference, but other programs may care.

In example 4, the EXAMPLE_ENV does not need to be quoted because the quoting
has already been done when adding elements to the list.

14.3.3. Passing CFLAGS to GNU configure scripts

When passing CFLAGS or similar variables to a GNU-style configure script
(especially those that call other configure scripts), it must not have leading
or trailing whitespace, since otherwise the configure script gets confused. To
trim leading and trailing whitespace, use the :M modifier, as in the following
example:

CPPFLAGS=               # empty
CPPFLAGS+=              -Wundef -DPREFIX=\"${PREFIX}\"
CPPFLAGS+=              ${MY_CPPFLAGS}

CONFIGURE_ARGS+=        CPPFLAGS=${CPPFLAGS:M*:Q}

all:
        echo x${CPPFLAGS:Q}x            # leading and trailing whitespace
        echo x${CONFIGURE_ARGS:Q}x      # properly trimmed

In this example, CPPFLAGS has both leading and trailing whitespace because the
+= operator always adds a space.

14.3.4. Handling possibly empty variables

When a possibly empty variable is used in a shell program, it may lead to a
syntax error.

EGFILES=        # empty

install-examples:   # produces a syntax error in the shell
        for egfile in ${EGFILES}; do            \
                echo "Installing $$egfile";     \
        done

The shell only sees the text for egfile in ; do, since ${EGFILES} is replaced
with an empty string by make(1). To fix this syntax error, use one of the
snippets below.

EMPTY=          # empty

install-examples:
        for egfile in ${EGFILES} ""; do         \
                [ -n "$$egfile" ] || continue;  \
                echo "Installing $$egfile";     \
        done

In this case, an empty string is appended to the iteration list (to prevent the
syntax error) and filtered out later.

EGFILES=        # empty

install-examples:
.for egfile in ${EGFILES}
        echo "Installing ${egfile}"
.endfor

If one of the filenames contains special characters, it should be enclosed in
single or double quotes.

To have a shell command test whether a make variable is empty, use the
following code: ${TEST} -z ${POSSIBLY_EMPTY:Q}"".

Chapter 15. PLIST issues

Table of Contents

15.1. RCS ID
15.2. Semi-automatic PLIST generation
15.3. Tweaking output of make print-PLIST
15.4. Variable substitution in PLIST
15.5. Man page compression
15.6. Changing PLIST source with PLIST_SRC
15.7. Platform-specific and differing PLISTs
15.8. Build-specific PLISTs
15.9. Sharing directories between packages

The PLIST file contains a package's "packing list", i.e. a list of files that
belong to the package (relative to the ${PREFIX} directory it's been installed
in) plus some additional statements - see the pkg_create(1) man page for a full
list. This chapter addresses some issues that need attention when dealing with
the PLIST file (or files, see below!).

15.1. RCS ID

Be sure to add a RCS ID line as the first thing in any PLIST file you write:

@comment $NetBSD $

An artificial space has been added between NetBSD and $, this is a workaround
here to prevent CVS expanding to the filename of the guide. When adding the RCS
ID the space should be omitted.

15.2. Semi-automatic PLIST generation

You can use the make print-PLIST command to output a PLIST that matches any new
files since the package was extracted. See Section 19.17, "Other helpful
targets" for more information on this target.

15.3. Tweaking output of make print-PLIST

The PRINT_PLIST_AWK variable takes a set of AWK patterns and actions that are
used to filter the output of print-PLIST. You can append any chunk of AWK
scripting you like to it, but be careful with quoting.

For example, to get all files inside the libdata/foo directory removed from the
resulting PLIST:

PRINT_PLIST_AWK+=       /^libdata\/foo/ { next; }

15.4. Variable substitution in PLIST

A number of variables are substituted automatically in PLISTs when a package is
installed on a system. This includes the following variables:

${MACHINE_ARCH}, ${MACHINE_GNU_ARCH}

    Some packages like emacs and perl embed information about which
    architecture they were built on into the pathnames where they install their
    files. To handle this case, PLIST will be preprocessed before actually
    used, and the symbol "${MACHINE_ARCH}" will be replaced by what uname -p
    gives. The same is done if the string ${MACHINE_GNU_ARCH} is embedded in
    PLIST somewhere - use this on packages that have GNU autoconf-created
    configure scripts.

    Legacy note

    There used to be a symbol "$ARCH" that was replaced by the output of uname
    -m, but that's no longer supported and has been removed.

${OPSYS}, ${LOWER_OPSYS}, ${OS_VERSION}

    Some packages want to embed the OS name and version into some paths. To do
    this, use these variables in the PLIST:

      + ${OPSYS} - output of "uname -s"

      + ${LOWER_OPSYS} - lowercase common name (eg. "solaris")

      + ${OS_VERSION} - "uname -r"

For a list of values which are replaced by default, the output of make help
topic=PLIST_SUBST as well as searching the pkgsrc/mk directory with grep for
PLIST_SUBST should help.

If you want to change other variables not listed above, you can add variables
and their expansions to this variable in the following way, similar to
MESSAGE_SUBST (see Section 13.5, "Optional files"):

PLIST_SUBST+=   SOMEVAR="somevalue"

This replaces all occurrences of "${SOMEVAR}" in the PLIST with "somevalue".

The PLIST_VARS variable can be used to simplify the common case of
conditionally including some PLIST entries. It can be done by adding
PLIST_VARS+=foo and setting the corresponding PLIST.foo variable to yes if the
entry should be included. This will substitute "${PLIST.foo}" in the PLIST with
either """" or ""@comment "". For example, in Makefile:

PLIST_VARS+=    foo
.if condition
PLIST.foo=      yes
.else

And then in PLIST:

@comment $NetBSD $
bin/bar
man/man1/bar.1
${PLIST.foo}bin/foo
${PLIST.foo}man/man1/foo.1
${PLIST.foo}share/bar/foo.data

An artificial space has been added between NetBSD and $, this is a workaround
here to prevent CVS expanding to the filename of the guide. When adding the RCS
ID the space should be ommited.

15.5. Man page compression

Man pages should be installed in compressed form if MANZ is set (in
bsd.own.mk), and uncompressed otherwise. To handle this in the PLIST file, the
suffix ".gz" is appended/removed automatically for man pages according to MANZ
and MANCOMPRESSED being set or not, see above for details. This modification of
the PLIST file is done on a copy of it, not PLIST itself.

15.6. Changing PLIST source with PLIST_SRC

To use one or more files as source for the PLIST used in generating the binary
package, set the variable PLIST_SRC to the names of that file(s). The files are
later concatenated using cat(1), and the order of things is important. The
default for PLIST_SRC is ${PKGDIR}/PLIST.

15.7. Platform-specific and differing PLISTs

Some packages decide to install a different set of files based on the operating
system being used. These differences can be automatically handled by using the
following files:

  * PLIST.common

  * PLIST.${OPSYS}

  * PLIST.${MACHINE_ARCH}

  * PLIST.${OPSYS}-${MACHINE_ARCH}

  * PLIST.common_end

15.8. Build-specific PLISTs

Some packages decide to generate hard-to-guess file names during installation
that are hard to wire down.

In such cases, you can set the GENERATE_PLIST variable to shell code terminated
(with a semicolon) that will output PLIST entries which will be appended to the
PLIST

You can find one example in editors/xemacs:

GENERATE_PLIST+=        ${ECHO} bin/${DISTNAME}-`${WRKSRC}/src/xemacs -sd`.dmp ;

which will append something like bin/xemacs-21.4.23-54e8ea71.dmp to the PLIST.

15.9. Sharing directories between packages

A "shared directory" is a directory where multiple (and unrelated) packages
install files. These directories were problematic because you had to add
special tricks in the PLIST to conditionally remove them, or have some
centralized package handle them.

In pkgsrc, it is now easy: Each package should create directories and install
files as needed; pkg_delete will remove any directories left empty after
uninstalling a package.

If a package needs an empty directory to work, create the directory during
installation as usual, and also add an entry to the PLIST:

@pkgdir path/to/empty/directory

or take a look at MAKE_DIRS and OWN_DIRS.

Chapter 16. Buildlink methodology

Table of Contents

16.1. Converting packages to use buildlink3
16.2. Writing buildlink3.mk files

    16.2.1. Anatomy of a buildlink3.mk file
    16.2.2. Updating BUILDLINK_API_DEPENDS.pkg and BUILDLINK_ABI_DEPENDS.pkg in
        buildlink3.mk files

16.3. Writing builtin.mk files

    16.3.1. Anatomy of a builtin.mk file
    16.3.2. Global preferences for native or pkgsrc software

Buildlink is a framework in pkgsrc that controls what headers and libraries are
seen by a package's configure and build processes. This is implemented in a two
step process:

 1. Symlink headers and libraries for dependencies into BUILDLINK_DIR, which by
    default is a subdirectory of WRKDIR.

 2. Create wrapper scripts that are used in place of the normal compiler tools
    that translate -I${LOCALBASE}/include and -L${LOCALBASE}/lib into
    references to BUILDLINK_DIR. The wrapper scripts also make native compiler
    on some operating systems look like GCC, so that packages that expect GCC
    won't require modifications to build with those native compilers.

This normalizes the environment in which a package is built so that the package
may be built consistently despite what other software may be installed. Please
note that the normal system header and library paths, e.g. /usr/include, /usr/
lib, etc., are always searched -- buildlink3 is designed to insulate the
package build from non-system-supplied software.

16.1. Converting packages to use buildlink3

The process of converting packages to use the buildlink3 framework ("bl3ifying"
) is fairly straightforward. The things to keep in mind are:

 1. Ensure that the build always calls the wrapper scripts instead of the
    actual toolchain. Some packages are tricky, and the only way to know for
    sure is the check ${WRKDIR}/.work.log to see if the wrappers are being
    invoked.

 2. Don't override PREFIX from within the package Makefile, e.g. Java VMs,
    standalone shells, etc., because the code to symlink files into $
    {BUILDLINK_DIR} looks for files relative to "pkg_info -qp pkgname".

 3. Remember that only the buildlink3.mk files that you list in a package's
    Makefile are added as dependencies for that package.

If a dependency on a particular package is required for its libraries and
headers, then we replace:

DEPENDS+=       foo>=1.1.0:../../category/foo

with

.include "../../category/foo/buildlink3.mk"

The buildlink3.mk files usually define the required dependencies. If you need a
newer version of the dependency when using buildlink3.mk files, then you can
define it in your Makefile; for example:

BUILDLINK_API_DEPENDS.foo+=   foo>=1.1.0
.include "../../category/foo/buildlink3.mk"

There are several buildlink3.mk files in pkgsrc/mk that handle special package
issues:

  * bdb.buildlink3.mk chooses either the native or a pkgsrc Berkeley DB
    implementation based on the values of BDB_ACCEPTED and BDB_DEFAULT.

  * curses.buildlink3.mk: If the system comes with neither Curses nor NCurses,
    this will take care to install the devel/ncurses package.

  * krb5.buildlink3.mk uses the value of KRB5_ACCEPTED to choose between adding
    a dependency on Heimdal or MIT-krb5 for packages that require a Kerberos 5
    implementation.

  * motif.buildlink3.mk checks for a system-provided Motif installation or adds
    a dependency on x11/lesstif or x11/motif. The user can set MOTIF_TYPE to "
    dt", "lesstif" or "motif" to choose which Motif version will be used.

  * readline.buildlink3.mk checks for a system-provided GNU readline or
    editline (libedit) installation, or adds a dependency on devel/readline,
    devel/editline. The user can set READLINE_DEFAULT to choose readline
    implementation. If your package really needs GNU readline library, its
    Makefile should include devel/readline/buildlink3.mk instead of
    readline.buildlink3.mk.

  * oss.buildlink3.mk defines several variables that may be used by packages
    that use the Open Sound System (OSS) API.

  * pgsql.buildlink3.mk will accept any of the Postgres versions in the
    variable PGSQL_VERSIONS_ACCEPTED and default to the version
    PGSQL_VERSION_DEFAULT. See the file for more information.

  * pthread.buildlink3.mk uses the value of PTHREAD_OPTS and checks for native
    pthreads or adds a dependency on devel/pth as needed.

  * xaw.buildlink3.mk uses the value of XAW_TYPE to choose a particular Athena
    widgets library.

The comments in those buildlink3.mk files provide a more complete description
of how to use them properly.

16.2. Writing buildlink3.mk files

A package's buildlink3.mk file is included by Makefiles to indicate the need to
compile and link against header files and libraries provided by the package. A
buildlink3.mk file should always provide enough information to add the correct
type of dependency relationship and include any other buildlink3.mk files that
it needs to find headers and libraries that it needs in turn.

To generate an initial buildlink3.mk file for further editing, Rene Hexel's
pkgtools/createbuildlink package is highly recommended. For most packages, the
following command will generate a good starting point for buildlink3.mk files:

% cd pkgsrc/category/pkgdir
% createbuildlink >buildlink3.mk


16.2.1. Anatomy of a buildlink3.mk file

The following real-life example buildlink3.mk is taken from pkgsrc/graphics/
tiff:

# $NetBSD: buildlink3.mk,v 1.16 2009/03/20 19:24:45 joerg Exp $

BUILDLINK_TREE+=        tiff

.if !defined(TIFF_BUILDLINK3_MK)
TIFF_BUILDLINK3_MK:=

BUILDLINK_API_DEPENDS.tiff+=    tiff>=3.6.1
BUILDLINK_ABI_DEPENDS.tiff+=    tiff>=3.7.2nb1
BUILDLINK_PKGSRCDIR.tiff?=      ../../graphics/tiff

.include "../../devel/zlib/buildlink3.mk"
.include "../../graphics/jpeg/buildlink3.mk"
.endif # TIFF_BUILDLINK3_MK

BUILDLINK_TREE+=        -tiff

The header and footer manipulate BUILDLINK_TREE, which is common across all
buildlink3.mk files and is used to track the dependency tree.

The main section is protected from multiple inclusion and controls how the
dependency on pkg is added. Several important variables are set in the section:

  * BUILDLINK_API_DEPENDS.pkg is the actual dependency recorded in the
    installed package; this should always be set using += to ensure that we're
    appending to any pre-existing list of values. This variable should be set
    to the first version of the package that had an backwards-incompatible API
    change.

  * BUILDLINK_PKGSRCDIR.pkg is the location of the pkg pkgsrc directory.

  * BUILDLINK_DEPMETHOD.pkg (not shown above) controls whether we use
    BUILD_DEPENDS or DEPENDS to add the dependency on pkg. The build dependency
    is selected by setting BUILDLINK_DEPMETHOD.pkg to "build". By default, the
    full dependency is used.

  * BUILDLINK_INCDIRS.pkg and BUILDLINK_LIBDIRS.pkg (not shown above) are lists
    of subdirectories of ${BUILDLINK_PREFIX.pkg} to add to the header and
    library search paths. These default to "include" and "lib" respectively.

  * BUILDLINK_CPPFLAGS.pkg (not shown above) is the list of preprocessor flags
    to add to CPPFLAGS, which are passed on to the configure and build phases.
    The "-I" option should be avoided and instead be handled using
    BUILDLINK_INCDIRS.pkg as above.

The following variables are all optionally defined within this second section
(protected against multiple inclusion) and control which package files are
symlinked into ${BUILDLINK_DIR} and how their names are transformed during the
symlinking:

  * BUILDLINK_FILES.pkg (not shown above) is a shell glob pattern relative to $
    {BUILDLINK_PREFIX.pkg} to be symlinked into ${BUILDLINK_DIR}, e.g. include/
    *.h.

  * BUILDLINK_FILES_CMD.pkg (not shown above) is a shell pipeline that outputs
    to stdout a list of files relative to ${BUILDLINK_PREFIX.pkg}. The
    resulting files are to be symlinked into ${BUILDLINK_DIR}. By default, this
    takes the +CONTENTS of a pkg and filters it through $
    {BUILDLINK_CONTENTS_FILTER.pkg}.

  * BUILDLINK_CONTENTS_FILTER.pkg (not shown above) is a filter command that
    filters +CONTENTS input into a list of files relative to $
    {BUILDLINK_PREFIX.pkg} on stdout. By default, BUILDLINK_CONTENTS_FILTER.pkg
    outputs the contents of the include and lib directories in the package
    +CONTENTS.

  * BUILDLINK_FNAME_TRANSFORM.pkg (not shown above) is a list of sed arguments
    used to transform the name of the source filename into a destination
    filename, e.g. -e "s|/curses.h|/ncurses.h|g".

This section can additionally include any buildlink3.mk needed for pkg's
library dependencies. Including these buildlink3.mk files means that the
headers and libraries for these dependencies are also symlinked into $
{BUILDLINK_DIR} whenever the pkg buildlink3.mk file is included. Dependencies
are only added for directly include buildlink3.mk files.

When providing a buildlink3.mk and including other buildlink3.mk files in it,
please only add necessary ones, i.e., those whose libraries or header files are
automatically exposed when the package is use.

In particular, if only an executable (bin/foo) is linked against a library,
that library does not need to be propagated in the buildlink3.mk file.

The following steps should help you decide if a buildlink3.mk file needs to be
included:

  * Look at the installed header files: What headers do they include? The
    packages providing these files must be buildlinked.

  * Run ldd on all installed libraries and look against what other libraries
    they link. Some of the packages providing these probably need to be
    buildlinked; however, it's not automatic, since e.g. GTK on some systems
    pulls in the X libraries, so they will show up in the ldd output, while on
    others (like OS X) it won't. ldd output can thus only be used as a hint.

16.2.2. Updating BUILDLINK_API_DEPENDS.pkg and BUILDLINK_ABI_DEPENDS.pkg in
buildlink3.mk files

These two variables differ in that one describes source compatibility (API) and
the other binary compatibility (ABI). The difference is that a change in the
API breaks compilation of programs while changes in the ABI stop compiled
programs from running.

Changes to the BUILDLINK_API_DEPENDS.pkg variable in a buildlink3.mk file
happen very rarely. One possible reason is that all packages depending on this
already need a newer version. In case it is bumped see the description below.

The most common example of an ABI change is that the major version of a shared
library is increased. In this case, BUILDLINK_ABI_DEPENDS.pkg should be
adjusted to require at least the new package version. Then the packages that
depend on this package need their PKGREVISIONs increased and, if they have
buildlink3.mk files, their BUILDLINK_ABI_DEPENDS.pkg adjusted, too. This is
needed so pkgsrc will require the correct package dependency and not settle for
an older one when building the source.

See Section 21.1.5, "Handling dependencies" for more information about
dependencies on other packages, including the BUILDLINK_ABI_DEPENDS and
ABI_DEPENDS definitions.

Please take careful consideration before adjusting BUILDLINK_API_DEPENDS.pkg or
BUILDLINK_ABI_DEPENDS.pkg as we don't want to cause unneeded package deletions
and rebuilds. In many cases, new versions of packages work just fine with older
dependencies.

Also it is not needed to set BUILDLINK_ABI_DEPENDS.pkg when it is identical to
BUILDLINK_API_DEPENDS.pkg.

16.3. Writing builtin.mk files

Some packages in pkgsrc install headers and libraries that coincide with
headers and libraries present in the base system. Aside from a buildlink3.mk
file, these packages should also include a builtin.mk file that includes the
necessary checks to decide whether using the built-in software or the pkgsrc
software is appropriate.

The only requirements of a builtin.mk file for pkg are:

 1. It should set USE_BUILTIN.pkg to either "yes" or "no" after it is included.

 2. It should not override any USE_BUILTIN.pkg which is already set before the
    builtin.mk file is included.

 3. It should be written to allow multiple inclusion. This is very important
    and takes careful attention to Makefile coding.

16.3.1. Anatomy of a builtin.mk file

The following is the recommended template for builtin.mk files:

.if !defined(IS_BUILTIN.foo)
#
# IS_BUILTIN.foo is set to "yes" or "no" depending on whether "foo"
# genuinely exists in the system or not.
#
IS_BUILTIN.foo?=        no

# BUILTIN_PKG.foo should be set here if "foo" is built-in and its package
# version can be determined.
#
.  if !empty(IS_BUILTIN.foo:M[yY][eE][sS])
BUILTIN_PKG.foo?=       foo-1.0
.  endif
.endif  # IS_BUILTIN.foo

.if !defined(USE_BUILTIN.foo)
USE_BUILTIN.foo?=       ${IS_BUILTIN.foo}
.  if defined(BUILTIN_PKG.foo)
.    for _depend_ in ${BUILDLINK_API_DEPENDS.foo}
.      if !empty(USE_BUILTIN.foo:M[yY][eE][sS])
USE_BUILTIN.foo!=                                                       \
        ${PKG_ADMIN} pmatch '${_depend_}' ${BUILTIN_PKG.foo}            \
        && ${ECHO} "yes" || ${ECHO} "no"
.      endif
.    endfor
.  endif
.endif  # USE_BUILTIN.foo

CHECK_BUILTIN.foo?=     no
.if !empty(CHECK_BUILTIN.foo:M[nN][oO])
#
# Here we place code that depends on whether USE_BUILTIN.foo is set to
# "yes" or "no".
#
.endif  # CHECK_BUILTIN.foo

The first section sets IS_BUILTIN.pkg depending on if pkg really exists in the
base system. This should not be a base system software with similar
functionality to pkg; it should only be "yes" if the actual package is included
as part of the base system. This variable is only used internally within the
builtin.mk file.

The second section sets BUILTIN_PKG.pkg to the version of pkg in the base
system if it exists (if IS_BUILTIN.pkg is "yes"). This variable is only used
internally within the builtin.mk file.

The third section sets USE_BUILTIN.pkg and is required in all builtin.mk files.
The code in this section must make the determination whether the built-in
software is adequate to satisfy the dependencies listed in
BUILDLINK_API_DEPENDS.pkg. This is typically done by comparing BUILTIN_PKG.pkg
against each of the dependencies in BUILDLINK_API_DEPENDS.pkg. USE_BUILTIN.pkg 
must be set to the correct value by the end of the builtin.mk file. Note that
USE_BUILTIN.pkg may be "yes" even if IS_BUILTIN.pkg is "no" because we may make
the determination that the built-in version of the software is similar enough
to be used as a replacement.

The last section is guarded by CHECK_BUILTIN.pkg, and includes code that uses
the value of USE_BUILTIN.pkg set in the previous section. This typically
includes, e.g., adding additional dependency restrictions and listing
additional files to symlink into ${BUILDLINK_DIR} (via BUILDLINK_FILES.pkg).

16.3.2. Global preferences for native or pkgsrc software

When building packages, it's possible to choose whether to set a global
preference for using either the built-in (native) version or the pkgsrc version
of software to satisfy a dependency. This is controlled by setting
PREFER_PKGSRC and PREFER_NATIVE. These variables take values of either "yes", "
no", or a list of packages. PREFER_PKGSRC tells pkgsrc to use the pkgsrc
versions of software, while PREFER_NATIVE tells pkgsrc to use the built-in
versions. Preferences are determined by the most specific instance of the
package in either PREFER_PKGSRC or PREFER_NATIVE. If a package is specified in
neither or in both variables, then PREFER_PKGSRC has precedence over
PREFER_NATIVE. For example, to require using pkgsrc versions of software for
all but the most basic bits on a NetBSD system, you can set:

PREFER_PKGSRC=  yes
PREFER_NATIVE=  getopt skey tcp_wrappers

A package must have a builtin.mk file to be listed in PREFER_NATIVE, otherwise
it is simply ignored in that list.

Setting PREFER_NATIVE should be performed straight after bootstrap and
PREFER_PKGSRC during bootstrap. Switching between settings globally at a later
date can introduce complications with dependency resolution. This is caused by
packages built with the opposite preference being installed alongside each
other.

# ./bootstrap --prefer-pkgsrc yes

Chapter 17. The pkginstall framework

Table of Contents

17.1. Files and directories outside the installation prefix

    17.1.1. Directory manipulation
    17.1.2. File manipulation

17.2. Configuration files

    17.2.1. How PKG_SYSCONFDIR is set
    17.2.2. Telling the software where configuration files are
    17.2.3. Patching installations
    17.2.4. Disabling handling of configuration files

17.3. System startup scripts

    17.3.1. Disabling handling of system startup scripts

17.4. System users and groups
17.5. System shells

    17.5.1. Disabling shell registration

17.6. Fonts

    17.6.1. Disabling automatic update of the fonts databases

This chapter describes the framework known as pkginstall, whose key features
are:

  * Generic installation and manipulation of directories and files outside the
    pkgsrc-handled tree, LOCALBASE.

  * Automatic handling of configuration files during installation, provided
    that packages are correctly designed.

  * Generation and installation of system startup scripts.

  * Registration of system users and groups.

  * Registration of system shells.

  * Automatic updating of fonts databases.

The following sections inspect each of the above points in detail.

You may be thinking that many of the things described here could be easily done
with simple code in the package's post-installation target (post-install). This
is incorrect, as the code in them is only executed when building from source.
Machines using binary packages could not benefit from it at all (as the code
itself could be unavailable). Therefore, the only way to achieve any of the
items described above is by means of the installation scripts, which are
automatically generated by pkginstall.

17.1. Files and directories outside the installation prefix

As you already know, the PLIST file holds a list of files and directories that
belong to a package. The names used in it are relative to the installation
prefix (${PREFIX}), which means that it cannot register files outside this
directory (absolute path names are not allowed). Despite this restriction, some
packages need to install files outside this location; e.g., under ${VARBASE} or
${PKG_SYSCONFDIR}. The only way to achieve this is to create such files during
installation time by using installation scripts.

The generic installation scripts are shell scripts that can contain arbitrary
code. The list of scripts to execute is taken from the INSTALL_FILE variable,
which defaults to INSTALL. A similar variable exists for package removal
(DEINSTALL_FILE, whose default is DEINSTALL). These scripts can run arbitrary
commands, so they have the potential to create and manage files anywhere in the
file system.

Using these general installation files is not recommended, but may be needed in
some special cases. One reason for avoiding them is that the user has to trust
the packager that there is no unwanted or simply erroneous code included in the
installation script. Also, previously there were many similar scripts for the
same functionality, and fixing a common error involved finding and changing all
of them.

The pkginstall framework offers another, standardized way. It provides generic
scripts to abstract the manipulation of such files and directories based on
variables set in the package's Makefile. The rest of this section describes
these variables.

17.1.1. Directory manipulation

The following variables can be set to request the creation of directories
anywhere in the file system:

  * MAKE_DIRS and OWN_DIRS contain a list of directories that should be created
    and should attempt to be destroyed by the installation scripts. The
    difference between the two is that the latter prompts the administrator to
    remove any directories that may be left after deinstallation (because they
    were not empty), while the former does not. Example:

    MAKE_DIRS+=             ${VARBASE}/foo/private

  * MAKE_DIRS_PERMS and OWN_DIRS_PERMS contain a list of tuples describing
    which directories should be created and should attempt to be destroyed by
    the installation scripts. Each tuple holds the following values, separated
    by spaces: the directory name, its owner, its group and its numerical mode.
    For example:

    MAKE_DIRS_PERMS+=       ${VARBASE}/foo/private \
                            ${REAL_ROOT_USER} ${REAL_ROOT_GROUP} 0700

    The difference between the two is exactly the same as their non-PERMS
    counterparts.

17.1.2. File manipulation

Creating non-empty files outside the installation prefix is tricky because the
PLIST forces all files to be inside it. To overcome this problem, the only
solution is to extract the file in the known place (i.e., inside the
installation prefix) and copy it to the appropriate location during
installation (done by the installation scripts generated by pkginstall). We
will call the former the master file in the following paragraphs, which
describe the variables that can be used to automatically and consistently
handle files outside the installation prefix:

  * CONF_FILES and REQD_FILES are pairs of master and target files. During
    installation time, the master file is copied to the target one if and only
    if the latter does not exist. Upon deinstallation, the target file is
    removed provided that it was not modified by the installation.

    The difference between the two is that the latter prompts the administrator
    to remove any files that may be left after deinstallation (because they
    were not empty), while the former does not.

  * CONF_FILES_PERMS and REQD_FILES_PERMS contain tuples describing master
    files as well as their target locations. For each of them, it also
    specifies their owner, their group and their numeric permissions, in this
    order. For example:

    REQD_FILES_PERMS+=      ${PREFIX}/share/somefile ${VARBASE}/somefile \
                            ${REAL_ROOT_USER} ${REAL_ROOT_GROUP} 0700

    The difference between the two is exactly the same as their non-PERMS
    counterparts.

17.2. Configuration files

Configuration files are special in the sense that they are installed in their
own specific directory, PKG_SYSCONFDIR, and need special treatment during
installation (most of which is automated by pkginstall). The main concept you
must bear in mind is that files marked as configuration files are automatically
copied to the right place (somewhere inside PKG_SYSCONFDIR) during installation
if and only if they didn't exist before. Similarly, they will not be removed if
they have local modifications. This ensures that administrators never lose any
custom changes they may have made.

17.2.1. How PKG_SYSCONFDIR is set

As said before, the PKG_SYSCONFDIR variable specifies where configuration files
shall be installed. Its contents are set based upon the following variables:

  * PKG_SYSCONFBASE: The configuration's root directory. Defaults to ${PREFIX}/
    etc although it may be overridden by the user to point to his preferred
    location (e.g., /etc, /etc/pkg, etc.). Packages must not use it directly.

  * PKG_SYSCONFSUBDIR: A subdirectory of PKG_SYSCONFBASE under which the
    configuration files for the package being built shall be installed. The
    definition of this variable only makes sense in the package's Makefile
    (i.e., it is not user-customizable).

    As an example, consider the Apache package, www/apache24, which places its
    configuration files under the httpd/ subdirectory of PKG_SYSCONFBASE. This
    should be set in the package Makefile.

  * PKG_SYSCONFVAR: Specifies the name of the variable that holds this
    package's configuration directory (if different from PKG_SYSCONFBASE). It
    defaults to PKGBASE's value, and is always prefixed with PKG_SYSCONFDIR.

  * PKG_SYSCONFDIR.${PKG_SYSCONFVAR}: Holds the directory where the
    configuration files for the package identified by PKG_SYSCONFVAR's shall be
    placed.

Based on the above variables, pkginstall determines the value of
PKG_SYSCONFDIR, which is the only variable that can be used within a package to
refer to its configuration directory. The algorithm used to set its value is
basically the following:

 1. If PKG_SYSCONFDIR.${PKG_SYSCONFVAR} is set, its value is used.

 2. If the previous variable is not defined but PKG_SYSCONFSUBDIR is set in the
    package's Makefile, the resulting value is ${PKG_SYSCONFBASE}/$
    {PKG_SYSCONFSUBDIR}.

 3. Otherwise, it is set to ${PKG_SYSCONFBASE}.

It is worth mentioning that ${PKG_SYSCONFDIR} is automatically added to
OWN_DIRS. See Section 17.1.1, "Directory manipulation" what this means. This
does not apply to subdirectories of ${PKG_SYSCONFDIR}, they still have to be
created with OWN_DIRS or MAKE_DIRS.

17.2.2. Telling the software where configuration files are

Given that pkgsrc (and users!) expect configuration files to be in a known
place, you need to teach each package where it shall install its files. In some
cases you will have to patch the package Makefiles to achieve it. If you are
lucky, though, it may be as easy as passing an extra flag to the configuration
script; this is the case of GNU Autoconf- generated files:

CONFIGURE_ARGS+= --sysconfdir=${PKG_SYSCONFDIR}

Note that this specifies where the package has to look for its configuration
files, not where they will be originally installed (although the difference is
never explicit, unfortunately).

17.2.3. Patching installations

As said before, pkginstall automatically handles configuration files. This
means that the packages themselves must not touch the contents of $
{PKG_SYSCONFDIR} directly. Bad news is that many software installation scripts
will, out of the box, mess with the contents of that directory. So what is the
correct procedure to fix this issue?

You must teach the package (usually by manually patching it) to install any
configuration files under the examples hierarchy, share/examples/${PKGBASE}/.
This way, the PLIST registers them and the administrator always has the
original copies available.

Once the required configuration files are in place (i.e., under the examples
hierarchy), the pkginstall framework can use them as master copies during the
package installation to update what is in ${PKG_SYSCONFDIR}. To achieve this,
the variables CONF_FILES and CONF_FILES_PERMS are used. Check out
Section 17.1.2, "File manipulation" for information about their syntax and
their purpose. Here is an example, taken from the mail/mutt package:

EGDIR=        ${PREFIX}/share/doc/mutt/samples
CONF_FILES=   ${EGDIR}/Muttrc ${PKG_SYSCONFDIR}/Muttrc

Note that the EGDIR variable is specific to that package and has no meaning
outside it.

17.2.4. Disabling handling of configuration files

The automatic copying of config files can be toggled by setting the environment
variable PKG_CONFIG prior to package installation.

17.3. System startup scripts

System startup scripts are special files because they must be installed in a
place known by the underlying OS, usually outside the installation prefix.
Therefore, the same rules described in Section 17.1, "Files and directories
outside the installation prefix" apply, and the same solutions can be used.
However, pkginstall provides a special mechanism to handle these files.

In order to provide system startup scripts, the package has to:

 1. Store the script inside ${FILESDIR}, with the .sh suffix appended.
    Considering the print/cups package as an example, it has a cupsd.sh in its
    files directory.

 2. Tell pkginstall to handle it, appending the name of the script, without its
    extension, to the RCD_SCRIPTS variable. Continuing the previous example:

    RCD_SCRIPTS+=   cupsd

Once this is done, pkginstall will do the following steps for each script in an
automated fashion:

 1. Process the file found in the files directory applying all the
    substitutions described in the FILES_SUBST variable.

 2. Copy the script from the files directory to the examples hierarchy, $
    {PREFIX}/share/examples/rc.d/. Note that this master file must be
    explicitly registered in the PLIST.

 3. Add code to the installation scripts to copy the startup script from the
    examples hierarchy into the system-wide startup scripts directory.

17.3.1. Disabling handling of system startup scripts

The automatic copying of config files can be toggled by setting the environment
variable PKG_RCD_SCRIPTS prior to package installation. Note that the scripts
will be always copied inside the examples hierarchy, ${PREFIX}/share/examples/
rc.d/, no matter what the value of this variable is.

17.4. System users and groups

If a package needs to create special users and/or groups during installation,
it can do so by using the pkginstall framework.

Users can be created by adding entries to the PKG_USERS variable. Each entry
has the following syntax:

user:group

Further specification of user details may be done by setting per-user
variables. PKG_UID.user is the numeric UID for the user. PKG_GECOS.user is the
user's description or comment. PKG_HOME.user is the user's home directory, and
defaults to /nonexistent if not specified. PKG_SHELL.user is the user's shell,
and defaults to /sbin/nologin if not specified.

Similarly, groups can be created by adding entries to the PKG_GROUPS variable,
whose syntax is:

group

The numeric GID of the group may be set by defining PKG_GID.group.

If a package needs to create the users and groups at an earlier stage, then it
can set USERGROUP_PHASE to either configure,build, or pre-install to indicate
the phase before which the users and groups are created. In this case, the
numeric UIDs and GIDs of the created users and groups are automatically
hardcoded into the final installation scripts.

17.5. System shells

Packages that install system shells should register them in the shell database,
/etc/shells, to make things easier to the administrator. This must be done from
the installation scripts to keep binary packages working on any system.
pkginstall provides an easy way to accomplish this task.

When a package provides a shell interpreter, it has to set the PKG_SHELL
variable to its absolute file name. This will add some hooks to the
installation scripts to handle it. Consider the following example, taken from
shells/zsh:

PKG_SHELL=      ${PREFIX}/bin/zsh

17.5.1. Disabling shell registration

The automatic registration of shell interpreters can be disabled by the
administrator by setting the PKG_REGISTER_SHELLS environment variable to NO.

17.6. Fonts

Packages that install X11 fonts should update the database files that index the
fonts within each fonts directory. This can easily be accomplished within the
pkginstall framework.

When a package installs X11 fonts, it must list the directories in which fonts
are installed in the FONTS_DIRS.type variables, where type can be one of "ttf",
"type1" or "x11". This will add hooks to the installation scripts to run the
appropriate commands to update the fonts database files within each of those
directories. For convenience, if the directory path is relative, it is taken to
be relative to the package's installation prefix. Consider the following
example, taken from fonts/dbz-ttf:

FONTS_DIRS.ttf= ${PREFIX}/share/fonts/X11/TTF

17.6.1. Disabling automatic update of the fonts databases

The automatic update of fonts databases can be disabled by the administrator by
setting the PKG_UPDATE_FONTS_DB environment variable to NO.

Chapter 18. Options handling

Table of Contents

18.1. Global default options
18.2. Converting packages to use bsd.options.mk
18.3. Option Names
18.4. Determining the options of dependencies

Many packages have the ability to be built to support different sets of
features. bsd.options.mk is a framework in pkgsrc that provides generic
handling of those options that determine different ways in which the packages
can be built. It's possible for the user to specify exactly which sets of
options will be built into a package or to allow a set of global default
options apply.

There are two broad classes of behaviors that one might want to control via
options. One is whether some particular feature is enabled in a program that
will be built anyway, often by including or not including a dependency on some
other package. The other is whether or not an additional program will be built
as part of the package. Generally, it is better to make a split package for
such additional programs instead of using options, because it enables binary
packages to be built which can then be added separately. For example, the foo
package might have minimal dependencies (those packages without which foo
doesn't make sense), and then the foo-gfoo package might include the GTK
frontend program gfoo. This is better than including a gtk option to foo that
adds gfoo, because either that option is default, in which case binary users
can't get foo without gfoo, or not default, in which case they can't get gfoo.
With split packages, they can install foo without having GTK, and later decide
to install gfoo (pulling in GTK at that time). This is an advantage to source
users too, avoiding the need for rebuilds.

Plugins with widely varying dependencies should usually be split instead of
options.

It is often more work to maintain split packages, especially if the upstream
package does not support this. The decision of split vs. option should be made
based on the likelihood that users will want or object to the various pieces,
the size of the dependencies that are included, and the amount of work.

A further consideration is licensing. Non-free parts, or parts that depend on
non-free dependencies (especially plugins) should almost always be split if
feasible.

18.1. Global default options

Global default options are listed in PKG_DEFAULT_OPTIONS, which is a list of
the options that should be built into every package if that option is
supported. This variable should be set in mk.conf.

18.2. Converting packages to use bsd.options.mk

The following example shows how bsd.options.mk should be used by the
hypothetical ``wibble'' package, either in the package Makefile, or in a file,
e.g. options.mk, that is included by the main package Makefile.

PKG_OPTIONS_VAR=                PKG_OPTIONS.wibble
PKG_SUPPORTED_OPTIONS=          wibble-foo ldap
PKG_OPTIONS_OPTIONAL_GROUPS=    database
PKG_OPTIONS_GROUP.database=     mysql pgsql
PKG_SUGGESTED_OPTIONS=          wibble-foo
PKG_OPTIONS_LEGACY_VARS+=       WIBBLE_USE_OPENLDAP:ldap
PKG_OPTIONS_LEGACY_OPTS+=       foo:wibble-foo

.include "../../mk/bsd.prefs.mk"

# this package was previously named wibble2
.if defined(PKG_OPTIONS.wibble2)
PKG_LEGACY_OPTIONS+=            ${PKG_OPTIONS.wibble2}
PKG_OPTIONS_DEPRECATED_WARNINGS+= \
        "Deprecated variable PKG_OPTIONS.wibble2 used, use ${PKG_OPTIONS_VAR} instead."
.endif

.include "../../mk/bsd.options.mk"

# Package-specific option-handling

###
### FOO support
###
.if !empty(PKG_OPTIONS:Mwibble-foo)
CONFIGURE_ARGS+=    --enable-foo
.endif

###
### LDAP support
###
.if !empty(PKG_OPTIONS:Mldap)
.  include "../../databases/openldap-client/buildlink3.mk"
CONFIGURE_ARGS+=    --enable-ldap=${BUILDLINK_PREFIX.openldap-client}
.endif

###
### database support
###
.if !empty(PKG_OPTIONS:Mmysql)
.  include "../../mk/mysql.buildlink3.mk"
.endif
.if !empty(PKG_OPTIONS:Mpgsql)
.  include "../../mk/pgsql.buildlink3.mk"
.endif

The first section contains the information about which build options are
supported by the package, and any default options settings if needed.

 1. PKG_OPTIONS_VAR is the name of the make(1) variable that the user can set
    to override the default options. It should be set to PKG_OPTIONS.pkgbase.
    Do not set it to PKG_OPTIONS.${PKGBASE}, since PKGBASE is not defined at
    the point where the options are processed.

 2. PKG_SUPPORTED_OPTIONS is a list of build options supported by the package.

 3. PKG_OPTIONS_OPTIONAL_GROUPS is a list of names of groups of mutually
    exclusive options. The options in each group are listed in
    PKG_OPTIONS_GROUP.groupname. The most specific setting of any option from
    the group takes precedence over all other options in the group. Options
    from the groups will be automatically added to PKG_SUPPORTED_OPTIONS.

 4. PKG_OPTIONS_REQUIRED_GROUPS is like PKG_OPTIONS_OPTIONAL_GROUPS, but
    building the packages will fail if no option from the group is selected.

 5. PKG_OPTIONS_NONEMPTY_SETS is a list of names of sets of options. At least
    one option from each set must be selected. The options in each set are
    listed in PKG_OPTIONS_SET.setname. Options from the sets will be
    automatically added to PKG_SUPPORTED_OPTIONS. Building the package will
    fail if no option from the set is selected.

 6. PKG_SUGGESTED_OPTIONS is a list of build options which are enabled by
    default.

 7. PKG_OPTIONS_LEGACY_VARS is a list of "USE_VARIABLE:option" pairs that map
    legacy mk.conf variables to their option counterparts. Pairs should be
    added with "+=" to keep the listing of global legacy variables. A warning
    will be issued if the user uses a legacy variable.

 8. PKG_OPTIONS_LEGACY_OPTS is a list of "old-option:new-option" pairs that map
    options that have been renamed to their new counterparts. Pairs should be
    added with "+=" to keep the listing of global legacy options. A warning
    will be issued if the user uses a legacy option.

 9. PKG_LEGACY_OPTIONS is a list of options implied by deprecated variables
    used. This can be used for cases that neither PKG_OPTIONS_LEGACY_VARS nor
    PKG_OPTIONS_LEGACY_OPTS can handle, e. g. when PKG_OPTIONS_VAR is renamed.

10. PKG_OPTIONS_DEPRECATED_WARNINGS is a list of warnings about deprecated
    variables or options used, and what to use instead.

A package should never modify PKG_DEFAULT_OPTIONS or the variable named in
PKG_OPTIONS_VAR. These are strictly user-settable. To suggest a default set of
options, use PKG_SUGGESTED_OPTIONS.

PKG_OPTIONS_VAR must be defined before including bsd.options.mk. If none of
PKG_SUPPORTED_OPTIONS, PKG_OPTIONS_OPTIONAL_GROUPS, and
PKG_OPTIONS_REQUIRED_GROUPS are defined (as can happen with platform-specific
options if none of them is supported on the current platform), PKG_OPTIONS is
set to the empty list and the package is otherwise treated as not using the
options framework.

After the inclusion of bsd.options.mk, the variable PKG_OPTIONS contains the
list of selected build options, properly filtered to remove unsupported and
duplicate options.

The remaining sections contain the logic that is specific to each option. The
correct way to check for an option is to check whether it is listed in
PKG_OPTIONS:

.if !empty(PKG_OPTIONS:Moption)

18.3. Option Names

Options that enable similar features in different packages (like optional
support for a library) should use a common name in all packages that support it
(like the name of the library). If another package already has an option with
the same meaning, use the same name.

Options that enable features specific to one package, where it's unlikely that
another (unrelated) package has the same (or a similar) optional feature,
should use a name prefixed with pkgname-.

If a group of related packages share an optional feature specific to that
group, prefix it with the name of the "main" package (e. g.
djbware-errno-hack).

For new options, add a line to mk/defaults/options.description. Lines have two
fields, separated by tab. The first field is the option name, the second its
description. The description should be a whole sentence (starting with an
uppercase letter and ending with a period) that describes what enabling the
option does. E. g. "Enable ispell support." The file is sorted by option names.

18.4. Determining the options of dependencies

When writing buildlink3.mk files, it is often necessary to list different
dependencies based on the options with which the package was built. For
querying these options, the file pkgsrc/mk/pkg-build-options.mk should be used.
A typical example looks like this:

pkgbase := libpurple
.include "../../mk/pkg-build-options.mk"

.if !empty(PKG_BUILD_OPTIONS.libpurple:Mdbus)
...
.endif

Including pkg-build-options.mk here will set the variable
PKG_BUILD_OPTIONS.libpurple to the build options of the libpurple package,
which can then be queried like PKG_OPTIONS in the options.mk file. See the file
pkg-build-options.mk for more details.

Chapter 19. The build process

Table of Contents

19.1. Introduction
19.2. Program location
19.3. Directories used during the build process
19.4. Running a phase
19.5. The fetch phase

    19.5.1. What to fetch and where to get it from
    19.5.2. How are the files fetched?

19.6. The checksum phase
19.7. The extract phase
19.8. The patch phase
19.9. The tools phase
19.10. The wrapper phase
19.11. The configure phase
19.12. The build phase
19.13. The test phase
19.14. The install phase
19.15. The package phase
19.16. Cleaning up
19.17. Other helpful targets

19.1. Introduction

This chapter gives a detailed description on how a package is built. Building a
package is separated into different phases (for example fetch, build, install),
all of which are described in the following sections. Each phase is split into
so-called stages, which take the name of the containing phase, prefixed by one
of pre-, do- or post-. (Examples are pre-configure, post-build.) Most of the
actual work is done in the do-* stages.

Never override the regular targets (like fetch), if you have to, override the
do-* ones instead.

The basic steps for building a program are always the same. First the program's
source (distfile) must be brought to the local system and then extracted. After
any pkgsrc-specific patches to compile properly are applied, the software can
be configured, then built (usually by compiling), and finally the generated
binaries, etc. can be put into place on the system.

To get more details about what is happening at each step, you can set the
PKG_VERBOSE variable, or the PATCH_DEBUG variable if you are just interested in
more details about the patch step.

19.2. Program location

Before outlining the process performed by the NetBSD package system in the next
section, here's a brief discussion on where programs are installed, and which
variables influence this.

The automatic variable PREFIX indicates where all files of the final program
shall be installed. It is usually set to LOCALBASE (/usr/pkg), or CROSSBASE for
pkgs in the cross category. The value of PREFIX needs to be put into the
various places in the program's source where paths to these files are encoded.
See Section 13.3, "patches/*" and Section 21.3.1, "Shared libraries - libtool"
for more details.

When choosing which of these variables to use, follow the following rules:

  * PREFIX always points to the location where the current pkg will be
    installed. When referring to a pkg's own installation path, use "${PREFIX}"
    .

  * LOCALBASE is where all non-X11 pkgs are installed. If you need to construct
    a -I or -L argument to the compiler to find includes and libraries
    installed by another non-X11 pkg, use "${LOCALBASE}". The name LOCALBASE
    stems from FreeBSD, which installed all packages in /usr/local. As pkgsrc
    leaves /usr/local for the system administrator, this variable is a
    misnomer.

  * X11BASE is where the actual X11 distribution (from xsrc, etc.) is
    installed. When looking for standard X11 includes (not those installed by a
    package), use "${X11BASE}".

  * X11-based packages using imake must set USE_IMAKE to be installed correctly
    under LOCALBASE.

  * Within ${PREFIX}, packages should install files according to hier(7), with
    the exception that manual pages go into ${PREFIX}/man, not ${PREFIX}/share/
    man.

19.3. Directories used during the build process

When building a package, various directories are used to store source files,
temporary files, pkgsrc-internal files, and so on. These directories are
explained here.

Some of the directory variables contain relative pathnames. There are two
common base directories for these relative directories: PKGSRCDIR/PKGPATH is
used for directories that are pkgsrc-specific. WRKSRC is used for directories
inside the package itself.

PKGSRCDIR

    This is an absolute pathname that points to the pkgsrc root directory.
    Generally, you don't need it.

PKGDIR

    This is an absolute pathname that points to the current package.

PKGPATH

    This is a pathname relative to PKGSRCDIR that points to the current
    package.

WRKDIR

    This is an absolute pathname pointing to the directory where all work takes
    place. The distfiles are extracted to this directory. It also contains
    temporary directories and log files used by the various pkgsrc frameworks,
    like buildlink or the wrappers.

WRKSRC

    This is an absolute pathname pointing to the directory where the distfiles
    are extracted. It is usually a direct subdirectory of WRKDIR, and often
    it's the only directory entry that isn't hidden. This variable may be
    changed by a package Makefile.

The CREATE_WRKDIR_SYMLINK definition takes either the value yes or no and
defaults to no. It indicates whether a symbolic link to the WRKDIR is to be
created in the pkgsrc entry's directory. If users would like to have their
pkgsrc trees behave in a read-only manner, then the value of
CREATE_WRKDIR_SYMLINK should be set to no.

19.4. Running a phase

You can run a particular phase by typing make phase, where phase is the name of
the phase. This will automatically run all phases that are required for this
phase. The default phase is build, that is, when you run make without
parameters in a package directory, the package will be built, but not
installed.

19.5. The fetch phase

The first step in building a package is to fetch the distribution files
(distfiles) from the sites that are providing them. This is the task of the 
fetch phase.

19.5.1. What to fetch and where to get it from

In simple cases, MASTER_SITES defines all URLs from where the distfile, whose
name is derived from the DISTNAME variable, is fetched. The more complicated
cases are described below.

The variable DISTFILES specifies the list of distfiles that have to be fetched.
Its value defaults to ${DEFAULT_DISTFILES} and its value is ${DISTNAME}$
{EXTRACT_SUFX}, so that most packages don't need to define it at all.
EXTRACT_SUFX is .tar.gz by default, but can be changed freely. Note that if
your package requires additional distfiles to the default one, you cannot just
append the additional filenames using the += operator, but you have write for
example:

DISTFILES=      ${DEFAULT_DISTFILES} additional-files.tar.gz

Each distfile is fetched from a list of sites, usually MASTER_SITES. If the
package has multiple DISTFILES or multiple PATCHFILES from different sites, you
can set SITES.distfile to the list of URLs where the file distfile (including
the suffix) can be found.

DISTFILES=      ${DISTNAME}${EXTRACT_SUFX}
DISTFILES+=     foo-file.tar.gz
SITES.foo-file.tar.gz= \
http://www.somewhere.com/somehow/ \
http://www.somewhereelse.com/mirror/somehow/

When actually fetching the distfiles, each item from MASTER_SITES or SITES.*
gets the name of each distfile appended to it, without an intermediate slash.
Therefore, all site values have to end with a slash or other separator
character. This allows for example to set MASTER_SITES to a URL of a CGI script
that gets the name of the distfile as a parameter. In this case, the definition
would look like:

MASTER_SITES=   http://www.example.com/download.cgi?file=

The exception to this rule are URLs starting with a dash. In that case the URL
is taken as is, fetched and the result stored under the name of the distfile.
You can use this style for the case when the download URL style does not match
the above common case. For example, if permanent download URL is a redirector
to the real download URL, or the download file name is offered by an HTTP
Content-Disposition header. In the following example, foo-1.0.0.tar.gz will be
created instead of the default v1.0.0.tar.gz.

DISTNAME=       foo-1.0.0
MASTER_SITES=   -http://www.example.com/archive/v1.0.0.tar.gz

There are some predefined values for MASTER_SITES, which can be used in
packages. The names of the variables should speak for themselves.

MASTER_SITE_APACHE          MASTER_SITE_BACKUP
MASTER_SITE_CRATESIO        MASTER_SITE_CYGWIN
MASTER_SITE_DEBIAN          MASTER_SITE_FREEBSD
MASTER_SITE_FREEBSD_LOCAL   MASTER_SITE_GENTOO
MASTER_SITE_GITHUB          MASTER_SITE_GNOME
MASTER_SITE_GNU             MASTER_SITE_GNUSTEP
MASTER_SITE_HASKELL_HACKAGE MASTER_SITE_IFARCHIVE
MASTER_SITE_KDE             MASTER_SITE_MOZILLA
MASTER_SITE_MOZILLA_ALL     MASTER_SITE_MYSQL
MASTER_SITE_NETLIB          MASTER_SITE_OPENBSD
MASTER_SITE_OPENOFFICE      MASTER_SITE_OSDN
MASTER_SITE_PERL_CPAN       MASTER_SITE_PGSQL
MASTER_SITE_PYPI            MASTER_SITE_RUBYGEMS
MASTER_SITE_R_CRAN          MASTER_SITE_SOURCEFORGE
MASTER_SITE_SUNSITE         MASTER_SITE_SUSE
MASTER_SITE_TEX_CTAN        MASTER_SITE_XCONTRIB
MASTER_SITE_XEMACS          MASTER_SITE_XORG

Some explanations for the less self-explaining ones: MASTER_SITE_BACKUP
contains backup sites for packages that are maintained in ftp://ftp.NetBSD.org/
pub/pkgsrc/distfiles/${DIST_SUBDIR}. MASTER_SITE_LOCAL contains local package
source distributions that are maintained in ftp://ftp.NetBSD.org/pub/pkgsrc/
distfiles/LOCAL_PORTS/.

If you choose one of these predefined sites, you may want to specify a
subdirectory of that site. Since these macros may expand to more than one
actual site, you must use the following construct to specify a subdirectory:

MASTER_SITES=   ${MASTER_SITE_GNU:=subdirectory/name/}
MASTER_SITES=   ${MASTER_SITE_SOURCEFORGE:=project_name/}

Note the trailing slash after the subdirectory name.

19.5.2. How are the files fetched?

The fetch phase makes sure that all the distfiles exist in a local directory
(DISTDIR, which can be set by the pkgsrc user). If the files do not exist, they
are fetched using commands of the form

${FETCH_CMD} ${FETCH_BEFORE_ARGS} ${site}${file} ${FETCH_AFTER_ARGS}

where ${site} varies through several possibilities in turn: first,
MASTER_SITE_OVERRIDE is tried, then the sites specified in either SITES.file if
defined, else MASTER_SITES or PATCH_SITES, as applies, then finally the value
of MASTER_SITE_BACKUP. The order of all except the first and the last can be
optionally sorted by the user, via setting either MASTER_SORT_RANDOM, and
MASTER_SORT_AWK or MASTER_SORT_REGEX.

The specific command and arguments used depend on the FETCH_USING parameter.
The example above is for FETCH_USING=custom.

The distfiles mirror run by the NetBSD Foundation uses the mirror-distfiles
target to mirror the distfiles, if they are freely distributable. Packages
setting NO_SRC_ON_FTP (usually to "${RESTRICTED}") will not have their
distfiles mirrored.

19.6. The checksum phase

After the distfile(s) are fetched, their checksum is generated and compared
with the checksums stored in the distinfo file. If the checksums don't match,
the build is aborted. This is to ensure the same distfile is used for building,
and that the distfile wasn't changed, e.g. by some malign force, deliberately
changed distfiles on the master distribution site or network lossage.

19.7. The extract phase

When the distfiles are present on the local system, they need to be extracted,
as they usually come in the form of some compressed archive format.

By default, all DISTFILES are extracted. If you only need some of them, you can
set the EXTRACT_ONLY variable to the list of those files.

Extracting the files is usually done by a little program, mk/extract/extract,
which already knows how to extract various archive formats, so most likely you
will not need to change anything here. But if you need, the following variables
may help you:

EXTRACT_OPTS_{BIN,LHA,PAX,RAR,TAR,ZIP,ZOO}

    Use these variables to override the default options for an extract command,
    which are defined in mk/extract/extract.

EXTRACT_USING

    This variable can be set to bsdtar, gtar, nbtar (which is the default
    value), pax, or an absolute pathname pointing to the command with which tar
    archives should be extracted. It is preferred to choose bsdtar over gtar if
    NetBSD's pax-as-tar is not good enough.

If the extract program doesn't serve your needs, you can also override the
EXTRACT_CMD variable, which holds the command used for extracting the files.
This command is executed in the ${WRKSRC} directory. During execution of this
command, the shell variable extract_file holds the absolute pathname of the
file that is going to be extracted.

And if that still does not suffice, you can override the do-extract target in
the package Makefile.

19.8. The patch phase

After extraction, all the patches named by the PATCHFILES, those present in the
patches subdirectory of the package as well as in $LOCALPATCHES/$PKGPATH (e.g.
/usr/local/patches/graphics/png) are applied. Patchfiles ending in .Z or .gz
are uncompressed before they are applied, files ending in .orig or .rej are
ignored. Any special options to patch(1) can be handed in PATCH_DIST_ARGS. See
Section 13.3, "patches/*" for more details.

By default patch(1) is given special args to make it fail if the patches apply
with some lines of fuzz. Please fix (regen) the patches so that they apply
cleanly. The rationale behind this is that patches that don't apply cleanly may
end up being applied in the wrong place, and cause severe harm there.

19.9. The tools phase

This is covered in Chapter 20, Tools needed for building or running.

19.10. The wrapper phase

This phase creates wrapper programs for the compilers and linkers. The
following variables can be used to tweak the wrappers.

ECHO_WRAPPER_MSG

    The command used to print progress messages. Does nothing by default. Set
    to ${ECHO} to see the progress messages.

WRAPPER_DEBUG

    This variable can be set to yes (default) or no, depending on whether you
    want additional information in the wrapper log file.

WRAPPER_UPDATE_CACHE

    This variable can be set to yes or no, depending on whether the wrapper
    should use its cache, which will improve the speed. The default value is
    yes, but is forced to no if the platform does not support it.

WRAPPER_REORDER_CMDS

    A list of reordering commands. A reordering command has the form reorder:l:
    lib1:lib2. It ensures that that -llib1 occurs before -llib2.

WRAPPER_TRANSFORM_CMDS

    A list of transformation commands. [TODO: investigate further]

19.11. The configure phase

Most pieces of software need information on the header files, system calls, and
library routines which are available on the platform they run on. The process
of determining this information is known as configuration, and is usually
automated. In most cases, a script is supplied with the distfiles, and its
invocation results in generation of header files, Makefiles, etc.

If the package contains a configure script, this can be invoked by setting
HAS_CONFIGURE to "yes". If the configure script is a GNU autoconf script, you
should set GNU_CONFIGURE to "yes" instead. What happens in the configure phase
is roughly:

.for d in ${CONFIGURE_DIRS}
        cd ${WRKSRC} \
        && cd ${d} \
        && env ${CONFIGURE_ENV} ${CONFIGURE_SCRIPT} ${CONFIGURE_ARGS}
.endfor

CONFIGURE_DIRS (default: ".") is a list of pathnames relative to WRKSRC. In
each of these directories, the configure script is run with the environment
CONFIGURE_ENV and arguments CONFIGURE_ARGS. The variables CONFIGURE_ENV,
CONFIGURE_SCRIPT (default: "./configure") and CONFIGURE_ARGS may all be changed
by the package.

If the program uses the Perl way of configuration (mainly Perl modules, but not
only), i.e. a file called Makefile.PL, it should include ../../lang/perl5/
module.mk. To set any parameter for Makefile.PL use the MAKE_PARAMS variable
(e.g., MAKE_PARAMS+=foo=bar

If the program uses an Imakefile for configuration, the appropriate steps can
be invoked by setting USE_IMAKE to "yes". If you only need xmkmf, add it to
USE_TOOLS. You can add variables to xmkmf's environment by adding them to the
SCRIPTS_ENV variable.

If the program uses cmake for configuration, the appropriate steps can be
invoked by setting USE_CMAKE to "yes". You can add variables to cmake's
environment by adding them to the CONFIGURE_ENV variable and arguments to cmake
by adding them to the CMAKE_ARGS variable. The top directory argument is given
by the CMAKE_ARG_PATH variable, that defaults to "." (relative to
CONFIGURE_DIRS)

If there is no configure step at all, set NO_CONFIGURE to "yes".

19.12. The build phase

For building a package, a rough equivalent of the following code is executed.

.for d in ${BUILD_DIRS}
        cd ${WRKSRC} \
        && cd ${d} \
        && env ${MAKE_ENV} \
            ${MAKE_PROGRAM} ${BUILD_MAKE_FLAGS} \
                -f ${MAKE_FILE} \
                ${BUILD_TARGET}
.endfor

BUILD_DIRS (default: ".") is a list of pathnames relative to WRKSRC. In each of
these directories, MAKE_PROGRAM is run with the environment MAKE_ENV and
arguments BUILD_MAKE_FLAGS. The variables MAKE_ENV, BUILD_MAKE_FLAGS, MAKE_FILE
and BUILD_TARGET may all be changed by the package.

The default value of MAKE_PROGRAM is "gmake" if USE_TOOLS contains "gmake", "
make" otherwise. The default value of MAKE_FILE is "Makefile", and BUILD_TARGET
defaults to "all".

If there is no build step at all, set NO_BUILD to "yes".

19.13. The test phase

[TODO]

19.14. The install phase

Once the build stage has completed, the final step is to install the software
in public directories, so users can access the programs and files.

In the install phase, a rough equivalent of the following code is executed.
Additionally, before and after this code, much magic is performed to do
consistency checks, registering the package, and so on.

.for d in ${INSTALL_DIRS}
        cd ${WRKSRC} \
        && cd ${d} \
        && env ${MAKE_ENV} \
            ${MAKE_PROGRAM} ${INSTALL_MAKE_FLAGS} \
                -f ${MAKE_FILE} \
                ${INSTALL_TARGET}
.endfor

The variable's meanings are analogous to the ones in the build phase.
INSTALL_DIRS defaults to BUILD_DIRS. INSTALL_TARGET is "install" by default,
plus "install.man" if USE_IMAKE is defined and NO_INSTALL_MANPAGES is not
defined.

In the install phase, the following variables are useful. They are all
variations of the install(1) command that have the owner, group and permissions
preset. INSTALL is the plain install command. The specialized variants,
together with their intended use, are:

INSTALL_PROGRAM_DIR

    directories that contain binaries

INSTALL_SCRIPT_DIR

    directories that contain scripts

INSTALL_LIB_DIR

    directories that contain shared and static libraries

INSTALL_DATA_DIR

    directories that contain data files

INSTALL_MAN_DIR

    directories that contain man pages

INSTALL_GAME_DIR

    directories that contain data files for games

INSTALL_PROGRAM

    binaries that can be stripped from debugging symbols

INSTALL_SCRIPT

    binaries that cannot be stripped

INSTALL_GAME

    game binaries

INSTALL_LIB

    shared and static libraries

INSTALL_DATA

    data files

INSTALL_GAME_DATA

    data files for games

INSTALL_MAN

    man pages

Some other variables are:

INSTALL_UNSTRIPPED

    If set to yes, do not run strip(1) when installing binaries. Any debugging
    sections and symbols present in binaries will be preserved.

INSTALLATION_DIRS

    A list of directories relative to PREFIX that are created by pkgsrc at the
    beginning of the install phase. The package is supposed to create all
    needed directories itself before installing files to it and list all other
    directories here.

In the rare cases that a package shouldn't install anything, set NO_INSTALL to 
"yes". This is mostly relevant for packages in the regress category.

19.15. The package phase

Once the install stage has completed, a binary package of the installed files
can be built. These binary packages can be used for quick installation without
previous compilation, e.g. by the make bin-install or by using pkg_add.

By default, the binary packages are created in ${PACKAGES}/All and symlinks are
created in ${PACKAGES}/category, one for each category in the CATEGORIES
variable. PACKAGES defaults to pkgsrc/packages.

19.16. Cleaning up

Once you're finished with a package, you can clean the work directory by
running make clean. If you want to clean the work directories of all
dependencies too, use make clean-depends.

19.17. Other helpful targets

pre/post-*

    For any of the main targets described in the previous section, two
    auxiliary targets exist with "pre-" and "post-" used as a prefix for the
    main target's name. These targets are invoked before and after the main
    target is called, allowing extra configuration or installation steps be
    performed from a package's Makefile, for example, which a program's
    configure script or install target omitted.

do-*

    Should one of the main targets do the wrong thing, and should there be no
    variable to fix this, you can redefine it with the do-* target. (Note that
    redefining the target itself instead of the do-* target is a bad idea, as
    the pre-* and post-* targets won't be called anymore, etc.) You will not
    usually need to do this.

reinstall

    If you did a make install and you noticed some file was not installed
    properly, you can repeat the installation with this target, which will
    ignore the "already installed" flag.

    This is the default value of DEPENDS_TARGET except in the case of make
    update and make package, where the defaults are "package" and "update",
    respectively.

deinstall

    This target does a pkg_delete(1) in the current directory, effectively
    de-installing the package. The following variables can be used to tune the
    behaviour:

    PKG_VERBOSE

        Add a "-v" to the pkg_delete(1) command.

    DEINSTALLDEPENDS

        Remove all packages that require (depend on) the given package. This
        can be used to remove any packages that may have been pulled in by a
        given package, e.g. if make deinstall DEINSTALLDEPENDS=1 is done in
        pkgsrc/x11/kde, this is likely to remove whole KDE. Works by adding "-R
        " to the pkg_delete(1) command line.

bin-install

    Install a binary package from local disk and via FTP from a list of sites
    (see the BINPKG_SITES variable), and do a make package if no binary package
    is available anywhere. The arguments given to pkg_add can be set via
    BIN_INSTALL_FLAGS e.g., to do verbose operation, etc.

install-clean

    This target removes the state files for the "install" and later phases so
    that the "install" target may be re-invoked. This can be used after editing
    the PLIST to install the package without rebuilding it.

build-clean

    This target removes the state files for the "build" and later phases so
    that the "build" target may be re-invoked.

update

    This target causes the current package to be updated to the latest version.
    The package and all depending packages first get de-installed, then current
    versions of the corresponding packages get compiled and installed. This is
    similar to manually noting which packages are currently installed, then
    performing a series of make deinstall and make install (or whatever
    UPDATE_TARGET is set to) for these packages.

    You can use the "update" target to resume package updating in case a
    previous make update was interrupted for some reason. However, in this
    case, make sure you don't call make clean or otherwise remove the list of
    dependent packages in WRKDIR. Otherwise, you lose the ability to
    automatically update the current package along with the dependent packages
    you have installed.

    Resuming an interrupted make update will only work as long as the package
    tree remains unchanged. If the source code for one of the packages to be
    updated has been changed, resuming make update will most certainly fail!

    The following variables can be used either on the command line or in
    mk.conf to alter the behaviour of make update:

    UPDATE_TARGET

        Install target to recursively use for the updated package and the
        dependent packages. Defaults to DEPENDS_TARGET if set, "install"
        otherwise for make update. Other good targets are "package" or "
        bin-install". Do not set this to "update" or you will get stuck in an
        endless loop!

    NOCLEAN

        Don't clean up after updating. Useful if you want to leave the work
        sources of the updated packages around for inspection or other
        purposes. Be sure you eventually clean up the source tree (see the "
        clean-update" target below) or you may run into troubles with old
        source code still lying around on your next make or make update.

    REINSTALL

        Deinstall each package before installing (making DEPENDS_TARGET). This
        may be necessary if the "clean-update" target (see below) was called
        after interrupting a running make update.

    DEPENDS_TARGET

        Allows you to disable recursion and hardcode the target for packages.
        The default is "update" for the update target, facilitating a recursive
        update of prerequisite packages. Only set DEPENDS_TARGET if you want to
        disable recursive updates. Use UPDATE_TARGET instead to just set a
        specific target for each package to be installed during make update
        (see above).

clean-update

    Clean the source tree for all packages that would get updated if make
    update was called from the current directory. This target should not be
    used if the current package (or any of its depending packages) have already
    been de-installed (e.g., after calling make update) or you may lose some
    packages you intended to update. As a rule of thumb: only use this target 
    before the first time you run make update and only if you have a dirty
    package tree (e.g., if you used NOCLEAN).

    If you are unsure about whether your tree is clean, you can either perform
    a make clean at the top of the tree, or use the following sequence of
    commands from the directory of the package you want to update (before
    running make update for the first time, otherwise you lose all the packages
    you wanted to update!):

    # make clean-update
    # make clean CLEANDEPENDS=YES
    # make update


    The following variables can be used either on the command line or in
    mk.conf to alter the behaviour of make clean-update:

    CLEAR_DIRLIST

        After make clean, do not reconstruct the list of directories to update
        for this package. Only use this if make update successfully installed
        all packages you wanted to update. Normally, this is done automatically
        on make update, but may have been suppressed by the NOCLEAN variable
        (see above).

replace

    Update the installation of the current package. This differs from update in
    that it does not replace dependent packages. You will need to install
    pkgtools/pkg_tarup for this target to work.

    Be careful when using this target! There are no guarantees that dependent
    packages will still work, in particular they will most certainly break if
    you make replace a library package whose shared library major version
    changed between your installed version and the new one. For this reason,
    this target is not officially supported and only recommended for advanced
    users.

info

    This target invokes pkg_info(1) for the current package. You can use this
    to check which version of a package is installed.

index

    This is a top-level command, i.e. it should be used in the pkgsrc
    directory. It creates a database of all packages in the local pkgsrc tree,
    including dependencies, comment, maintainer, and some other useful
    information. Individual entries are created by running make describe in the
    packages' directories. This index file is saved as pkgsrc/INDEX. It can be
    displayed in verbose format by running make print-index. You can search in
    it with make search key=something. You can extract a list of all packages
    that depend on a particular one by running make show-deps PKG=somepackage.

    Running this command takes a very long time, some hours even on fast
    machines!

readme

    This target generates a README.html file, which can be viewed using a
    browser such as www/firefox or www/links. The generated files contain
    references to any packages which are in the PACKAGES directory on the local
    host. The generated files can be made to refer to URLs based on
    FTP_PKG_URL_HOST and FTP_PKG_URL_DIR. For example, if I wanted to generate
    README.html files which pointed to binary packages on the local machine, in
    the directory /usr/packages, set FTP_PKG_URL_HOST=file://localhost and
    FTP_PKG_URL_DIR=/usr/packages. The ${PACKAGES} directory and its
    subdirectories will be searched for all the binary packages.

    The target can be run at the toplevel or in category directories, in which
    case it descends recursively.

readme-all

    This is a top-level command, run it in pkgsrc. Use this target to create a
    file README-all.html which contains a list of all packages currently
    available in the NetBSD Packages Collection, together with the category
    they belong to and a short description. This file is compiled from the
    pkgsrc/*/README.html files, so be sure to run this after a make readme.

cdrom-readme

    This is very much the same as the "readme" target (see above), but is to be
    used when generating a pkgsrc tree to be written to a CD-ROM. This target
    also produces README.html files, and can be made to refer to URLs based on
    CDROM_PKG_URL_HOST and CDROM_PKG_URL_DIR.

show-distfiles

    This target shows which distfiles and patchfiles are needed to build the
    package (ALLFILES, which contains all DISTFILES and PATCHFILES, but not
    patches/*).

show-downlevel

    This target shows nothing if the package is not installed. If a version of
    this package is installed, but is not the version provided in this version
    of pkgsrc, then a warning message is displayed. This target can be used to
    show which of your installed packages are downlevel, and so the old
    versions can be deleted, and the current ones added.

show-pkgsrc-dir

    This target shows the directory in the pkgsrc hierarchy from which the
    package can be built and installed. This may not be the same directory as
    the one from which the package was installed. This target is intended to be
    used by people who may wish to upgrade many packages on a single host, and
    can be invoked from the top-level pkgsrc Makefile by using the "
    show-host-specific-pkgs" target.

show-installed-depends

    This target shows which installed packages match the current package's
    DEPENDS. Useful if out of date dependencies are causing build problems.

print-build-depends-list

    This target shows the list of packages that the current package depends on
    for building.

print-run-depends-list

    This target shows the list of packages that the current package depends on
    for running.

check-shlibs

    After a package is installed, check all its binaries and (on ELF platforms)
    shared libraries to see if they find the shared libs they need. Run by
    default if PKG_DEVELOPER is set in mk.conf.

print-PLIST

    After a "make install" from a new or upgraded pkg, this prints out an
    attempt to generate a new PLIST from a find -newer work/.extract_done. An
    attempt is made to care for shared libs etc., but it is strongly
    recommended to review the result before putting it into PLIST. On upgrades,
    it's useful to diff the output of this command against an already existing
    PLIST file.

    If the package installs files via tar(1) or other methods that don't update
    file access times, be sure to add these files manually to your PLIST, as
    the "find -newer" command used by this target won't catch them!

    See Section 15.3, "Tweaking output of make print-PLIST" for more
    information on this target.

bulk-package

    Used to do bulk builds. If an appropriate binary package already exists, no
    action is taken. If not, this target will compile, install and package it
    (and its depends, if PKG_DEPENDS is set properly. See Chapter 8, Creating
    binary packages for everything in pkgsrc (bulk builds)). After creating the
    binary package, the sources, the just-installed package and its required
    packages are removed, preserving free disk space.

    Beware that this target may deinstall all packages installed on a system!

bulk-install

    Used during bulk-installs to install required packages. If an up-to-date
    binary package is available, it will be installed via pkg_add(1). If not, 
    make bulk-package will be executed, but the installed binary won't be
    removed.

    A binary package is considered "up-to-date" to be installed via pkg_add(1)
    if:

      + None of the package's files (Makefile, ...) were modified since it was
        built.

      + None of the package's required (binary) packages were modified since it
        was built.

    Beware that this target may deinstall all packages installed on a system!

Chapter 20. Tools needed for building or running

Table of Contents

20.1. Tools for pkgsrc builds
20.2. Tools needed by packages
20.3. Tools provided by platforms

The USE_TOOLS definition is used both internally by pkgsrc and also for
individual packages to define what commands are needed for building a package
(like TOOL_DEPENDS) or for later run-time of an installed packaged (such as
DEPENDS). If the native system provides an adequate tool, then in many cases, a
pkgsrc package will not be used.

When building a package, the replacement tools are made available in a
directory (as symlinks or wrapper scripts) that is early in the executable
search path. Just like the buildlink system, this helps with consistent builds.

A tool may be needed to help build a specific package. For example, perl, GNU
make (gmake) or yacc may be needed.

Also a tool may be needed, for example, because the native system's supplied
tool may be inefficient for building a package with pkgsrc. For example, a
package may need GNU awk, bison (instead of yacc) or a better sed.

The tools used by a package can be listed by running make show-tools.

20.1. Tools for pkgsrc builds

The default set of tools used by pkgsrc is defined in bsd.pkg.mk. This includes
standard Unix tools, such as: cat, awk, chmod, test, and so on. These can be
seen by running: make show-var VARNAME=USE_TOOLS.

If a package needs a specific program to build then the USE_TOOLS variable can
be used to define the tools needed.

20.2. Tools needed by packages

In the following examples, the :run means that it is needed at run-time (and
becomes a DEPENDS). The default is a build dependency which can be set with
:build. (So in this example, it is the same as gmake:build and
pkg-config:build.)

USE_TOOLS+=     gmake perl:run pkg-config

When using the tools framework, a TOOLS_PATH.foo variable is defined which
contains the full path to the appropriate tool. For example, TOOLS_PATH.bash
could be "/bin/bash" on Linux systems.

If you always need a pkgsrc version of the tool at run-time, then just use
DEPENDS instead.

20.3. Tools provided by platforms

When improving or porting pkgsrc to a new platform, have a look at (or create)
the corresponding platform specific make file fragment under pkgsrc/mk/tools/
tools.${OPSYS}.mk which defines the name of the common tools. For example:

.if exists(/usr/bin/bzcat)
TOOLS_PLATFORM.bzcat?=          /usr/bin/bzcat
.elif exists(/usr/bin/bzip2)
TOOLS_PLATFORM.bzcat?=          /usr/bin/bzip2 -cd
.endif

TOOLS_PLATFORM.true?=           true                    # shell builtin

Chapter 21. Making your package work

Table of Contents

21.1. General operation

    21.1.1. How to pull in user-settable variables from mk.conf
    21.1.2. User interaction
    21.1.3. Handling licenses
    21.1.4. Restricted packages
    21.1.5. Handling dependencies
    21.1.6. Handling conflicts with other packages
    21.1.7. Packages that cannot or should not be built
    21.1.8. Packages which should not be deleted, once installed
    21.1.9. Handling packages with security problems
    21.1.10. How to handle incrementing versions when fixing an existing
        package
    21.1.11. Substituting variable text in the package files (the SUBST
        framework)

21.2. The fetch phase

    21.2.1. Packages whose distfiles aren't available for plain downloading
    21.2.2. How to handle modified distfiles with the 'old' name
    21.2.3. Packages hosted on github.com

21.3. The configure phase

    21.3.1. Shared libraries - libtool
    21.3.2. Using libtool on GNU packages that already support libtool
    21.3.3. GNU Autoconf/Automake

21.4. Programming languages

    21.4.1. C, C++, and Fortran
    21.4.2. Java
    21.4.3. Packages containing perl scripts
    21.4.4. Packages containing shell scripts
    21.4.5. Other programming languages

21.5. The build phase

    21.5.1. Compiling C and C++ code conditionally
    21.5.2. How to handle compiler bugs
    21.5.3. Undefined reference to "..."
    21.5.4. Running out of memory

21.6. The install phase

    21.6.1. Creating needed directories
    21.6.2. Where to install documentation
    21.6.3. Installing highscore files
    21.6.4. Adding DESTDIR support to packages
    21.6.5. Packages with hardcoded paths to other interpreters
    21.6.6. Packages installing perl modules
    21.6.7. Packages installing info files
    21.6.8. Packages installing man pages
    21.6.9. Packages installing GConf data files
    21.6.10. Packages installing scrollkeeper/rarian data files
    21.6.11. Packages installing X11 fonts
    21.6.12. Packages installing GTK2 modules
    21.6.13. Packages installing SGML or XML data
    21.6.14. Packages installing extensions to the MIME database
    21.6.15. Packages using intltool
    21.6.16. Packages installing startup scripts
    21.6.17. Packages installing TeX modules
    21.6.18. Packages supporting running binaries in emulation
    21.6.19. Packages installing hicolor theme icons
    21.6.20. Packages installing desktop files

21.7. Marking packages as having problems

21.1. General operation

One appealing feature of pkgsrc is that it runs on many different platforms. As
a result, it is important to ensure, where possible, that packages in pkgsrc
are portable. This chapter mentions some particular details you should pay
attention to while working on pkgsrc.

21.1.1. How to pull in user-settable variables from mk.conf

The pkgsrc user can configure pkgsrc by overriding several variables in the
file pointed to by MAKECONF, which is mk.conf by default. When you want to use
those variables in the preprocessor directives of make(1) (for example .if or
.for), you need to include the file ../../mk/bsd.prefs.mk before, which in turn
loads the user preferences.

But note that some variables may not be completely defined after ../../mk/
bsd.prefs.mk has been included, as they may contain references to variables
that are not yet defined. In shell commands (the lines in Makefile that are
indented with a tab) this is no problem, since variables are only expanded when
they are used. But in the preprocessor directives mentioned above and in
dependency lines (of the form target: dependencies) the variables are expanded
at load time.

Note

To check whether a variable can be used at load time, run pkglint -Wall on your
package.

21.1.2. User interaction

Occasionally, packages require interaction from the user, and this can be in a
number of ways:

  * When fetching the distfiles, some packages require user interaction such as
    entering username/password or accepting a license on a web page.

  * When extracting the distfiles, some packages may ask for passwords.

  * help to configure the package before it is built

  * help during the build process

  * help during the installation of a package

A package can set the INTERACTIVE_STAGE variable to define which stages need
interaction. This should be done in the package's Makefile, e.g.:

INTERACTIVE_STAGE=      configure install

The user can then decide to skip this package by setting the BATCH variable.
Packages that require interaction are also excluded from bulk builds.

21.1.3. Handling licenses

Authors of software can choose the licence under which software can be copied.
The Free Software Foundation has declared some licenses "Free", and the Open
Source Initiative has a definition of "Open Source".

By default, pkgsrc allows packages with Free or Open Source licenses to be
built. To allow packages with other licenses to be built as well, the pkgsrc
user needs to add these licenses to the ACCEPTABLE_LICENSES variable in mk.conf
. Note that this variable only affects which packages may be built, while the
license terms often also restrict the actual use of the package and its
redistribution.

One might want to only install packages with a BSD license, or the GPL, and not
the other. The free licenses are added to the default ACCEPTABLE_LICENSES
variable. The pkgsrc user can override the default by setting the
ACCEPTABLE_LICENSES variable with "=" instead of "+=". The licenses accepted by
default are defined in the DEFAULT_ACCEPTABLE_LICENSES variable in the file
pkgsrc/mk/license.mk.

The license tag mechanism is intended to address copyright-related issues
surrounding building, installing and using a package, and not to address
redistribution issues (see RESTRICTED and NO_SRC_ON_FTP, etc.). Packages with
redistribution restrictions should set these tags.

Denoting that a package may be copied according to a particular license is done
by placing the license in pkgsrc/licenses and setting the LICENSE variable to a
string identifying the license, e.g. in graphics/xv:

LICENSE=        xv-license

When trying to build, the user will get a notice that the package is covered by
a license which has not been placed in the ACCEPTABLE_LICENSES variable:

% make
===> xv-3.10anb9 has an unacceptable license: xv-license.
===>     To view the license, enter "/usr/bin/make show-license".
===>     To indicate acceptance, add this line to your /etc/mk.conf:
===>     ACCEPTABLE_LICENSES+=xv-license
*** Error code 1

The license can be viewed with make show-license, and if the user so chooses,
the line printed above can be added to mk.conf to convey to pkgsrc that it
should not in the future fail because of that license:

ACCEPTABLE_LICENSES+=xv-license

The use of LICENSE=shareware, LICENSE=no-commercial-use, and similar language
is deprecated because it does not crisply refer to a particular license text.
Another problem with such usage is that it does not enable a user to tell
pkgsrc to proceed for a single package without also telling pkgsrc to proceed
for all packages with that tag.

21.1.3.1. Adding a package with a new license

When adding a package with a new license, the following steps are required:

 1. Check whether the license qualifies as Free or Open Source by referencing
    Various Licenses and Comments about Them and Licenses by Name | Open Source
    Initiative. If this is the case, the filename in pkgsrc/licenses/ does not
    need the -license suffix, and the license name should be added to:

      + DEFAULT_ACCEPTABLE_LICENSES in pkgsrc/mk/license.mk

      + default_acceptable_licenses in pkgsrc/pkgtools/pkg_install/files/lib/
        license.c

 2. The license text should be added to pkgsrc/licenses for displaying. A list
    of known licenses can be seen in this directory.

21.1.3.2. Change to the license

When the license changes (in a way other than formatting), make sure that the
new license has a different name (e.g., append the version number if it exists,
or the date). Just because a user told pkgsrc to build programs under a
previous version of a license does not mean that pkgsrc should build programs
under the new licenses. The higher-level point is that pkgsrc does not evaluate
licenses for reasonableness; the only test is a mechanistic test of whether a
particular text has been approved by either of two bodies (FSF or OSI).

21.1.4. Restricted packages

Some licenses restrict how software may be re-distributed. By declaring the
restrictions, package tools can automatically refrain from e.g. placing binary
packages on FTP sites.

There are four possible restrictions, which are the cross product of sources
(distfiles) and binaries not being placed on FTP sites and CD-ROMs. Because
this is rarely the exact language in any license, and because non-Free licenses
tend to be different from each other, pkgsrc adopts a definition of FTP and
CD-ROM. "FTP" means making the source or binary file available over the
Internet at no charge. "CD-ROM" means making the source or binary available on
some kind of media, together with other source and binary packages, which is
sold for a distribution charge.

In order to encode these restrictions, the package system defines five make
variables that can be set to note these restrictions:

  * RESTRICTED

    This variable should be set whenever a restriction exists (regardless of
    its kind). Set this variable to a string containing the reason for the
    restriction. It should be understood that those wanting to understand the
    restriction will have to read the license, and perhaps seek advice of
    counsel.

  * NO_BIN_ON_CDROM

    Binaries may not be placed on CD-ROM containing other binary packages, for
    which a distribution charge may be made. In this case, set this variable to
    ${RESTRICTED}.

  * NO_BIN_ON_FTP

    Binaries may not made available on the Internet without charge. In this
    case, set this variable to ${RESTRICTED}. If this variable is set, binary
    packages will not be included on ftp.NetBSD.org.

  * NO_SRC_ON_CDROM

    Distfiles may not be placed on CD-ROM, together with other distfiles, for
    which a fee may be charged. In this case, set this variable to $
    {RESTRICTED}.

  * NO_SRC_ON_FTP

    Distfiles may not made available via FTP at no charge. In this case, set
    this variable to ${RESTRICTED}. If this variable is set, the distfile(s)
    will not be mirrored on ftp.NetBSD.org.

Please note that packages will be removed from pkgsrc when the distfiles are
not distributable and cannot be obtained for a period of one full quarter
branch. Packages with manual/interactive fetch must have a maintainer and it is
his/her responsibility to ensure this.

21.1.5. Handling dependencies

Your package may depend on some other package being present - and there are
various ways of expressing this dependency. pkgsrc supports the BUILD_DEPENDS
and DEPENDS and TOOL_DEPENDS definitions, the USE_TOOLS definition, as well as
dependencies via buildlink3.mk, which is the preferred way to handle
dependencies, and which uses the variables named above. See Chapter 16, 
Buildlink methodology for more information.

The basic difference between the two variables is as follows: The DEPENDS
definition registers that pre-requisite in the binary package so it will be
pulled in when the binary package is later installed, whilst the BUILD_DEPENDS
and TOOL_DEPENDS definitions does not, marking a dependency that is only needed
for building the package.

This means that if you only need a package present whilst you are building, it
should be noted as a TOOL_DEPENDS or BUILD_DEPENDS. When cross-compiling,
TOOL_DEPENDS are native packages, i.e. packages for the architecture where the
package is built; BUILD_DEPENDS are target packages, i.e. packages for the
architecture for which the package is built.

The format for BUILD_DEPENDS, DEPENDS and TOOL_DEPENDS definition is:

<pre-req-package-name>:../../<category>/<pre-req-package>

Please note that the "pre-req-package-name" may include any of the wildcard
version numbers recognized by pkg_info(1).

 1. If your package needs another package's binaries or libraries to build and
    run, and if that package has a buildlink3.mk file available, use it:

    .include "../../graphics/jpeg/buildlink3.mk"

 2. If your package needs another package's binaries or libraries only for
    building, and if that package has a buildlink3.mk file available, use it:

    .include "../../graphics/jpeg/buildlink3.mk"

    but set BUILDLINK_DEPMETHOD.jpeg?=build to make it a build dependency only.
    This case is rather rare.

 3. If your package needs binaries from another package to build, use the
    TOOL_DEPENDS definition:

    TOOL_DEPENDS+= itstool-[0-9]*:../../textproc/itstool

 4. If your package needs static libraries to link against, header files to
    include, etc. from another package to build, use the BUILD_DEPENDS
    definition.

 5. If your package needs a library with which to link and there is no
    buildlink3.mk file available, create one. Using DEPENDS won't be sufficient
    because the include files and libraries will be hidden from the compiler.

 6. If your package needs some executable to be able to run correctly and if
    there's no buildlink3.mk file, this is specified using the DEPENDS
    variable. The print/lyx package needs to be able to execute the latex
    binary from the tex-latex-bin package when it runs, and that is specified:

    DEPENDS+=        tex-latex-bin-[0-9]*:../../print/tex-latex-bin

 7. You can use wildcards in package dependencies. Note that such wildcard
    dependencies are retained when creating binary packages. The dependency is
    checked when installing the binary package and any package which matches
    the pattern will be used. Wildcard dependencies should be used with care.

    The "-[0-9]*" should be used instead of "-*" to avoid potentially ambiguous
    matches such as "tk-postgresql" matching a "tk-*" DEPENDS.

    Wildcards can also be used to specify that a package will only build
    against a certain minimum version of a pre-requisite:

    DEPENDS+=       ImageMagick>=6.0:../../graphics/ImageMagick

    This means that the package will build using version 6.0 of ImageMagick or
    newer. Such a dependency may be warranted if, for example, the command line
    options of an executable have changed.

    If you need to depend on minimum versions of libraries, see the buildlink
    section of the pkgsrc guide.

    For security fixes, please update the package vulnerabilities file. See
    Section 21.1.9, "Handling packages with security problems" for more
    information.

If your package needs files from another package to build, add the relevant
distribution files to DISTFILES, so they will be extracted automatically. See
the print/ghostscript package for an example. (It relies on the jpeg sources
being present in source form during the build.)

21.1.6. Handling conflicts with other packages

Your package may conflict with other packages a user might already have
installed on his system, e.g. if your package installs the same set of files as
another package in the pkgsrc tree or has the same PKGNAME.

For example, x11/libXaw3d and x11/Xaw-Xpm install the same shared library, thus
you set in pkgsrc/x11/libXaw3d/Makefile:

CONFLICTS=      Xaw-Xpm-[0-9]*


and in pkgsrc/x11/Xaw-Xpm/Makefile:

CONFLICTS=      libXaw3d-[0-9]*


pkg_add(1) is able to detect attempts to install packages that conflict with
existing packages and abort. However, in many situations this is too late in
the process. Binary package managers will not know about the conflict until
they attempt to install the package after already downloading it and all its
dependencies. Users may also waste time building a package and its dependencies
only to find out at the end that it conflicts with another package they have
installed.

To avoid these issues CONFLICTS entries should be added in all cases where it
is known that packages conflict with each other. These CONFLICTS entries are
exported in pkg_summary(5) files and consumed by binary package managers to
inform users that packages cannot be installed onto the target system.

21.1.7. Packages that cannot or should not be built

There are several reasons why a package might be instructed to not build under
certain circumstances. If the package builds and runs on most platforms, the
exceptions should be noted with BROKEN_ON_PLATFORM. If the package builds and
runs on a small handful of platforms, set BROKEN_EXCEPT_ON_PLATFORM instead.
Both BROKEN_ON_PLATFORM and BROKEN_EXCEPT_ON_PLATFORM are OS triples
(OS-version-platform) that can use glob-style wildcards.

If a package is not appropriate for some platforms (as opposed to merely
broken), a different set of variables should be used as this affects failure
reporting and statistics. If the package is appropriate for most platforms, the
exceptions should be noted with NOT_FOR_PLATFORM. If the package is appropriate
for only a small handful of platforms (often exactly one), set
ONLY_FOR_PLATFORM instead. Both ONLY_FOR_PLATFORM and NOT_FOR_PLATFORM are OS
triples (OS-version-platform) that can use glob-style wildcards.

Some packages are tightly bound to a specific version of an operating system,
e.g. LKMs or sysutils/lsof. Such binary packages are not backwards compatible
with other versions of the OS, and should be uploaded to a version specific
directory on the FTP server. Mark these packages by setting OSVERSION_SPECIFIC
to "yes". This variable is not currently used by any of the package system
internals, but may be used in the future.

If the package should be skipped (for example, because it provides
functionality already provided by the system), set PKG_SKIP_REASON to a
descriptive message. If the package should fail because some preconditions are
not met, set PKG_FAIL_REASON to a descriptive message.

21.1.8. Packages which should not be deleted, once installed

To ensure that a package may not be deleted, once it has been installed, the
PKG_PRESERVE definition should be set in the package Makefile. This will be
carried into any binary package that is made from this pkgsrc entry. A "
preserved" package will not be deleted using pkg_delete(1) unless the "-f"
option is used.

21.1.9. Handling packages with security problems

When a vulnerability is found, this should be noted in localsrc/security/
advisories/pkg-vulnerabilities, and after committing that file, ask
pkgsrc-security@NetBSD.org to update the file on ftp.NetBSD.org.

After fixing the vulnerability by a patch, its PKGREVISION should be increased
(this is of course not necessary if the problem is fixed by using a newer
release of the software), and the pattern in the pkg-vulnerabilities file must
be updated.

Also, if the fix should be applied to the stable pkgsrc branch, be sure to
submit a pullup request!

Binary packages already on ftp.NetBSD.org will be handled semi-automatically by
a weekly cron job.

21.1.10. How to handle incrementing versions when fixing an existing package

When making fixes to an existing package it can be useful to change the version
number in PKGNAME. To avoid conflicting with future versions by the original
author, a "nb1", "nb2", ... suffix can be used on package versions by setting
PKGREVISION=1 (2, ...). The "nb" is treated like a "." by the package tools.
e.g.

DISTNAME=       foo-17.42
PKGREVISION=    9

will result in a PKGNAME of "foo-17.42nb9". If you want to use the original
value of PKGNAME without the "nbX" suffix, e.g. for setting DIST_SUBDIR, use
PKGNAME_NOREV.

When a new release of the package is released, the PKGREVISION should be
removed, e.g. on a new minor release of the above package, things should be
like:

DISTNAME=       foo-17.43

PKGREVISION should be incremented for any non-trivial change in the resulting
binary package. Without a PKGREVISION bump, someone with the previous version
installed has no way of knowing that their package is out of date. Thus,
changes without increasing PKGREVISION are essentially labeled "this is so
trivial that no reasonable person would want to upgrade", and this is the rough
test for when increasing PKGREVISION is appropriate. Examples of changes that
do not merit increasing PKGREVISION are:

  * Changing HOMEPAGE, MAINTAINER, OWNER, or comments in Makefile.

  * Changing build variables if the resulting binary package is the same.

  * Changing DESCR.

  * Adding PKG_OPTIONS if the default options don't change.

Examples of changes that do merit an increase to PKGREVISION include:

  * Security fixes

  * Changes or additions to a patch file

  * Changes to the PLIST

  * A dependency is changed or renamed.

PKGREVISION must also be incremented when dependencies have ABI changes.

21.1.11. Substituting variable text in the package files (the SUBST framework)

When you want to replace the same text in multiple files or when the
replacement text varies, patches alone cannot help. This is where the SUBST
framework comes in. It provides an easy-to-use interface for replacing text in
files. Example:

SUBST_CLASSES+=                 fix-paths
SUBST_STAGE.fix-paths=          pre-configure
SUBST_MESSAGE.fix-paths=        Fixing absolute paths.
SUBST_FILES.fix-paths=          src/*.c
SUBST_FILES.fix-paths+=         scripts/*.sh
SUBST_SED.fix-paths=            -e 's,"/usr/local,"${PREFIX},g'
SUBST_SED.fix-paths+=           -e 's,"/var/log,"${VARBASE}/log,g'

SUBST_CLASSES is a list of identifiers that are used to identify the different
SUBST blocks that are defined. The SUBST framework is heavily used by pkgsrc,
so it is important to always use the += operator with this variable. Otherwise
some substitutions may be skipped.

The remaining variables of each SUBST block are parameterized with the
identifier from the first line (fix-paths in this case.) They can be seen as
parameters to a function call.

SUBST_STAGE.* specifies the stage at which the replacement will take place. All
combinations of pre-, do- and post- together with a phase name are possible,
though only few are actually used. Most commonly used are post-patch and
pre-configure. Of these two, pre-configure should be preferred because then it
is possible to run bmake patch and have the state after applying the patches
but before making any other changes. This is especially useful when you are
debugging a package in order to create new patches for it. Similarly,
post-build is preferred over pre-install, because the install phase should
generally be kept as simple as possible. When you use post-build, you have the
same files in the working directory that will be installed later, so you can
check if the substitution has succeeded.

SUBST_MESSAGE.* is an optional text that is printed just before the
substitution is done.

SUBST_FILES.* is the list of shell globbing patterns that specifies the files
in which the substitution will take place. The patterns are interpreted
relatively to the WRKSRC directory.

SUBST_SED.* is a list of arguments to sed(1) that specify the actual
substitution. Every sed command should be prefixed with -e, so that all SUBST
blocks look uniform.

There are some more variables, but they are so seldomly used that they are only
documented in the mk/subst.mk file.

21.2. The fetch phase

21.2.1. Packages whose distfiles aren't available for plain downloading

If you need to download from a dynamic URL you can set DYNAMIC_MASTER_SITES and
a make fetch will call files/getsite.sh with the name of each file to download
as an argument, expecting it to output the URL of the directory from which to
download it. graphics/ns-cult3d is an example of this usage.

If the download can't be automated, because the user must submit personal
information to apply for a password, or must pay for the source, or whatever,
you can set FETCH_MESSAGE to a list of lines that are displayed to the user
before aborting the build. Example:

FETCH_MESSAGE=  "Please download the files"
FETCH_MESSAGE+= "    "${DISTFILES:Q}
FETCH_MESSAGE+= "manually from "${MASTER_SITES:Q}"."

21.2.2. How to handle modified distfiles with the 'old' name

Sometimes authors of a software package make some modifications after the
software was released, and they put up a new distfile without changing the
package's version number. If a package is already in pkgsrc at that time, the
checksum will no longer match. The contents of the new distfile should be
compared against the old one before changing anything, to make sure the
distfile was really updated on purpose, and that no trojan horse or so crept
in. Please mention that the distfiles were compared and what was found in your
commit message.

Then, the correct way to work around this is to set DIST_SUBDIR to a unique
directory name, usually based on PKGNAME_NOREV (but take care with python or
ruby packages, where PKGNAME includes a variable prefix). All DISTFILES and
PATCHFILES for this package will be put in that subdirectory of the local
distfiles directory. (See Section 21.1.10, "How to handle incrementing versions
when fixing an existing package" for more details.) In case this happens more
often, PKGNAME can be used (thus including the nbX suffix) or a date stamp can
be appended, like ${PKGNAME_NOREV}-YYYYMMDD.

DIST_SUBDIR is also used when a distfile's name does not contain a version and
the distfile is apt to change. In cases where the likelihood of this is very
small, DIST_SUBDIR might not be required. Additionally, DIST_SUBDIR must not be
removed unless the distfile name changes, even if a package is being moved or
renamed.

Do not forget regenerating the distinfo file after that, since it contains the
DIST_SUBDIR path in the filenames. Also, increase the PKGREVISION if the
installed package is different. Furthermore, a mail to the package's authors
seems appropriate telling them that changing distfiles after releases without
changing the file names is not good practice.

21.2.3. Packages hosted on github.com

Helper methods exist for packages hosted on github.com which will often have
distfile names that clash with other packages, for example 1.0.tar.gz. Use one
of the three recipes from below:

21.2.3.1. Fetch based on a tagged release

If your distfile URL looks similar to http://github.com/username/exampleproject
/archive/v1.0.zip, then you are packaging a tagged release.

DISTNAME=       exampleproject-1.0
MASTER_SITES=   ${MASTER_SITE_GITHUB:=username/}
#GITHUB_PROJECT=        # can be omitted if same as DISTNAME
GITHUB_TAG=     v${PKGVERSION_NOREV}
EXTRACT_SUFX=   .zip

21.2.3.2. Fetch based on a specific commit

If your distfile URL looks similar to http://github.com/example/example/archive
/988881adc9fc3655077dc2d4d757d480b5ea0e11.tar.gz, then you are packaging a
specific commit not tied to a release.

DISTNAME=       example-1.0
MASTER_SITES=   ${MASTER_SITE_GITHUB:=example/}
#GITHUB_PROJECT=        # can be omitted if same as DISTNAME
GITHUB_TAG=     988881adc9fc3655077dc2d4d757d480b5ea0e11

21.2.3.3. Fetch based on release

If your distfile URL looks similar to http://github.com/username/exampleproject
/releases/download/rel-1.6/offensive-1.6.zip, then you are packaging a release.

DISTNAME=       offensive-1.6
PKGNAME=        ${DISTNAME:S/offensive/proper/}
MASTER_SITES=   ${MASTER_SITE_GITHUB:=username/}
GITHUB_PROJECT= exampleproject
GITHUB_RELEASE= rel-${PKGVERSION_NOREV} # usually just set this to ${DISTNAME}
EXTRACT_SUFX=   .zip

21.3. The configure phase

21.3.1. Shared libraries - libtool

pkgsrc supports many different machines, with different object formats like
a.out and ELF, and varying abilities to do shared library and dynamic loading
at all. To accompany this, varying commands and options have to be passed to
the compiler, linker, etc. to get the Right Thing, which can be pretty annoying
especially if you don't have all the machines at your hand to test things. The
devel/libtool pkg can help here, as it just "knows" how to build both static
and dynamic libraries from a set of source files, thus being
platform-independent.

Here's how to use libtool in a package in seven simple steps:

 1. Add USE_LIBTOOL=yes to the package Makefile.

 2. For library objects, use "${LIBTOOL} --mode=compile ${CC}" in place of "$
    {CC}". You could even add it to the definition of CC, if only libraries are
    being built in a given Makefile. This one command will build both PIC and
    non-PIC library objects, so you need not have separate shared and
    non-shared library rules.

 3. For the linking of the library, remove any "ar", "ranlib", and "ld
    -Bshareable" commands, and instead use:

    ${LIBTOOL} --mode=link \
        ${CC} -o ${.TARGET:.a=.la} \
            ${OBJS:.o=.lo} \
            -rpath ${PREFIX}/lib \
            -version-info major:minor

    Note that the library is changed to have a .la extension, and the objects
    are changed to have a .lo extension. Change OBJS as necessary. This
    automatically creates all of the .a, .so.major.minor, and ELF symlinks (if
    necessary) in the build directory. Be sure to include "-version-info",
    especially when major and minor are zero, as libtool will otherwise strip
    off the shared library version.

    From the libtool manual:

    So, libtool library versions are described by three integers:

    CURRENT
    The most recent interface number that this library implements.

    REVISION
    The implementation number of the CURRENT interface.

    AGE
    The difference between the newest and oldest interfaces that
    this library implements.  In other words, the library implements
    all the interface numbers in the range from number `CURRENT -
    AGE' to `CURRENT'.

    If two libraries have identical CURRENT and AGE numbers, then the
    dynamic linker chooses the library with the greater REVISION number.

    The "-release" option will produce different results for a.out and ELF
    (excluding symlinks) in only one case. An ELF library of the form "
    libfoo-release.so.x.y" will have a symlink of "libfoo.so.x.y" on an a.out
    platform. This is handled automatically.

    The "-rpath argument" is the install directory of the library being built.

    In the PLIST, include only the .la file, the other files will be added
    automatically.

 4. When linking shared object (.so) files, i.e. files that are loaded via
    dlopen(3), NOT shared libraries, use "-module -avoid-version" to prevent
    them getting version tacked on.

    The PLIST file gets the foo.so entry.

 5. When linking programs that depend on these libraries before they are
    installed, preface the cc(1) or ld(1) line with "${LIBTOOL} --mode=link",
    and it will find the correct libraries (static or shared), but please be
    aware that libtool will not allow you to specify a relative path in -L
    (such as "-L../somelib"), because it expects you to change that argument to
    be the .la file. e.g.

    ${LIBTOOL} --mode=link ${CC} -o someprog -L../somelib -lsomelib

    should be changed to:

    ${LIBTOOL} --mode=link ${CC} -o someprog ../somelib/somelib.la

    and it will do the right thing with the libraries.

 6. When installing libraries, preface the install(1) or cp(1) command with "$
    {LIBTOOL} --mode=install", and change the library name to .la. e.g.

    ${LIBTOOL} --mode=install ${BSD_INSTALL_LIB} ${SOMELIB:.a=.la} ${PREFIX}/lib

    This will install the static .a, shared library, any needed symlinks, and
    run ldconfig(8).

 7. In your PLIST, include only the .la file (this is a change from previous
    behaviour).

21.3.2. Using libtool on GNU packages that already support libtool

Add USE_LIBTOOL=yes to the package Makefile. This will override the package's
own libtool in most cases. For older libtool using packages, libtool is made by
ltconfig script during the do-configure step; you can check the libtool script
location by doing make configure; find work*/ -name libtool.

LIBTOOL_OVERRIDE specifies which libtool scripts, relative to WRKSRC, to
override. By default, it is set to "libtool */libtool */*/libtool". If this
does not match the location of the package's libtool script(s), set it as
appropriate.

If you do not need *.a static libraries built and installed, then use
SHLIBTOOL_OVERRIDE instead.

If your package makes use of the platform-independent library for loading
dynamic shared objects, that comes with libtool (libltdl), you should include
devel/libltdl/buildlink3.mk.

Some packages use libtool incorrectly so that the package may not work or build
in some circumstances. Some of the more common errors are:

  * The inclusion of a shared object (-module) as a dependent library in an
    executable or library. This in itself isn't a problem if one of two things
    has been done:

     1. The shared object is named correctly, i.e. libfoo.la, not foo.la

     2. The -dlopen option is used when linking an executable.

  * The use of libltdl without the correct calls to initialisation routines.
    The function lt_dlinit() should be called and the macro
    LTDL_SET_PRELOADED_SYMBOLS included in executables.

21.3.3. GNU Autoconf/Automake

If a package needs GNU autoconf or automake to be executed to regenerate the
configure script and Makefile.in makefile templates, then they should be
executed in a pre-configure target.

For packages that need only autoconf:

AUTOCONF_REQD=  2.50            # if default version is not good enough
USE_TOOLS+=     autoconf        # use "autoconf213" for autoconf-2.13
...

pre-configure:
        cd ${WRKSRC} && autoconf

...

and for packages that need automake and autoconf:

AUTOMAKE_REQD=  1.7.1           # if default version is not good enough
USE_TOOLS+=     automake        # use "automake14" for automake-1.4
...

pre-configure:
        set -e; cd ${WRKSRC}; \
        aclocal; autoheader; automake -a --foreign -i; autoconf

...

Packages which use GNU Automake will almost certainly require GNU Make.

There are times when the configure process makes additional changes to the
generated files, which then causes the build process to try to re-execute the
automake sequence. This is prevented by touching various files in the configure
stage. If this causes problems with your package you can set AUTOMAKE_OVERRIDE=
NO in the package Makefile.

21.4. Programming languages

21.4.1. C, C++, and Fortran

Compilers for the C, C++, and Fortran languages comes with the NetBSD base
system. By default, pkgsrc assumes that a package is written in C and will hide
all other compilers (via the wrapper framework, see Chapter 16, Buildlink
methodology).

To declare which language's compiler a package needs, set the USE_LANGUAGES
variable. Allowed values currently are "c", "c++", and "fortran" (and any
combination). The default is "c". Packages using GNU configure scripts, even if
written in C++, usually need a C compiler for the configure phase.

21.4.2. Java

If a program is written in Java, use the Java framework in pkgsrc. The package
must include ../../mk/java-vm.mk. This Makefile fragment provides the following
variables:

  * USE_JAVA defines if a build dependency on the JDK is added. If USE_JAVA is
    set to "run", then there is only a runtime dependency on the JDK. The
    default is "yes", which also adds a build dependency on the JDK.

  * Set USE_JAVA2 to declare that a package needs a Java2 implementation. The
    supported values are "yes", "1.4", and "1.5". "yes" accepts any Java2
    implementation, "1.4" insists on versions 1.4 or above, and "1.5" only
    accepts versions 1.5 or above. This variable is not set by default.

  * PKG_JAVA_HOME is automatically set to the runtime location of the used Java
    implementation dependency. It may be used to set JAVA_HOME to a good value
    if the program needs this variable to be defined.

21.4.3. Packages containing perl scripts

If your package contains interpreted perl scripts, add "perl" to the USE_TOOLS
variable and set REPLACE_PERL to ensure that the proper interpreter path is
set. REPLACE_PERL should contain a list of scripts, relative to WRKSRC, that
you want adjusted. Every occurrence of */bin/perl in a she-bang line will be
replaced with the full path to the perl executable.

If a particular version of perl is needed, set the PERL5_REQD variable to the
version number. The default is "5.0".

See Section 21.6.6, "Packages installing perl modules" for information about
handling perl modules.

21.4.4. Packages containing shell scripts

REPLACE_SH, REPLACE_BASH, REPLACE_CSH, and REPLACE_KSH can be used to replace
shell hash bangs in files. Please use the appropriate one, prefering REPLACE_SH
in case this shell is sufficient. Each should contain a list of scripts,
relative to WRKSRC, that you want adjusted. Every occurrence of the matching
shell in a she-bang line will be replaced with the full path to the shell
executable. When using REPLACE_BASH, don't forget to add bash to USE_TOOLS.

21.4.5. Other programming languages

Currently, there is no special handling for other languages in pkgsrc. If a
compiler package provides a buildlink3.mk file, include that, otherwise just
add a (build) dependency on the appropriate compiler package.

21.5. The build phase

The most common failures when building a package are that some platforms do not
provide certain header files, functions or libraries, or they provide the
functions in a library that the original package author didn't know. To work
around this, you can rewrite the source code in most cases so that it does not
use the missing functions or provides a replacement function.

21.5.1. Compiling C and C++ code conditionally

If a package already comes with a GNU configure script, the preferred way to
fix the build failure is to change the configure script, not the code. In the
other cases, you can utilize the C preprocessor, which defines certain macros
depending on the operating system and hardware architecture it compiles for.
These macros can be queried using for example #if defined(__i386). Almost every
operating system, hardware architecture and compiler has its own macro. For
example, if the macros __GNUC__, __i386__ and __NetBSD__ are all defined, you
know that you are using NetBSD on an i386 compatible CPU, and your compiler is
GCC.

The list of the following macros for hardware and operating system depends on
the compiler that is used. For example, if you want to conditionally compile
code on Solaris, don't use __sun__, as the SunPro compiler does not define it.
Use __sun instead.

21.5.1.1. C preprocessor macros to identify the operating system

To distinguish between 4.4 BSD-derived systems and the rest of the world, you
should use the following code.

#include <sys/param.h>
#if (defined(BSD) && BSD >= 199306)
/* BSD-specific code goes here */
#else
/* non-BSD-specific code goes here */
#endif

If this distinction is not fine enough, you can also test for the following
macros.

Cygwin      __CYGWIN__
DragonFly   __DragonFly__
FreeBSD     __FreeBSD__
Haiku       __HAIKU__
Interix     __INTERIX
IRIX        __sgi (TODO: get a definite source for this)
Linux       linux, __linux, __linux__
Mac OS X    __APPLE__
MirBSD      __MirBSD__ (__OpenBSD__ is also defined)
Minix3      __minix
NetBSD      __NetBSD__
OpenBSD     __OpenBSD__
Solaris     sun, __sun

21.5.1.2. C preprocessor macros to identify the hardware architecture

i386        i386, __i386, __i386__
MIPS        __mips
SPARC       sparc, __sparc

21.5.1.3. C preprocessor macros to identify the compiler

GCC         __GNUC__ (major version), __GNUC_MINOR__
MIPSpro     _COMPILER_VERSION (0x741 for MIPSpro 7.41)
SunPro      __SUNPRO_C (0x570 for Sun C 5.7)
SunPro C++  __SUNPRO_CC (0x580 for Sun C++ 5.8)

21.5.2. How to handle compiler bugs

Some source files trigger bugs in the compiler, based on combinations of
compiler version and architecture and almost always relation to optimisation
being enabled. Common symptoms are gcc internal errors or never finishing
compiling a file.

Typically, a workaround involves testing the MACHINE_ARCH and compiler version,
disabling optimisation for that combination of file, MACHINE_ARCH and compiler.

This used to be a big problem in the past, but is rarely needed now as compiler
technology has matured. If you still need to add a compiler specific
workaround, please do so in the file hacks.mk and describe the symptom and
compiler version as detailed as possible.

21.5.3. Undefined reference to "..."

This error message often means that a package did not link to a shared library
it needs. The following functions are known to cause this error message over
and over.

+-----------------------------------------------------+
|        Function         |Library |Affected platforms|
|-------------------------+--------+------------------|
|accept, bind, connect    |-lsocket|Solaris           |
|-------------------------+--------+------------------|
|crypt                    |-lcrypt |DragonFly, NetBSD |
|-------------------------+--------+------------------|
|dlopen, dlsym            |-ldl    |Linux             |
|-------------------------+--------+------------------|
|gethost*                 |-lnsl   |Solaris           |
|-------------------------+--------+------------------|
|inet_aton                |-lresolv|Solaris           |
|-------------------------+--------+------------------|
|nanosleep, sem_*, timer_*|-lrt    |Solaris           |
|-------------------------+--------+------------------|
|openpty                  |-lutil  |Linux             |
+-----------------------------------------------------+

To fix these linker errors, it is often sufficient to say LIBS.OperatingSystem+
= -lfoo to the package Makefile and then say bmake clean; bmake.

21.5.3.1. Special issue: The SunPro compiler

When you are using the SunPro compiler, there is another possibility. That
compiler cannot handle the following code:

extern int extern_func(int);

static inline int
inline_func(int x)
{
        return extern_func(x);
}

int main(void)
{
        return 0;
}

It generates the code for inline_func even if that function is never used. This
code then refers to extern_func, which can usually not be resolved. To solve
this problem you can try to tell the package to disable inlining of functions.

21.5.4. Running out of memory

Sometimes packages fail to build because the compiler runs into an operating
system specific soft limit. With the UNLIMIT_RESOURCES variable pkgsrc can be
told to unlimit the resources. Currently, the allowed values are any
combination of "cputime", "datasize", "memorysize", and "stacksize". Setting
this variable is similar to running the shell builtin ulimit command to raise
the maximum data segment size or maximum stack size of a process, respectively,
to their hard limits.

21.6. The install phase

21.6.1. Creating needed directories

The BSD-compatible install supplied with some operating systems cannot create
more than one directory at a time. As such, you should call ${INSTALL_*_DIR}
like this:

${INSTALL_DATA_DIR} ${PREFIX}/dir1
${INSTALL_DATA_DIR} ${PREFIX}/dir2

You can also just append "dir1 dir2" to the INSTALLATION_DIRS variable, which
will automatically do the right thing.

21.6.2. Where to install documentation

In general, documentation should be installed into ${PREFIX}/share/doc/$
{PKGBASE} or ${PREFIX}/share/doc/${PKGNAME} (the latter includes the version
number of the package).

Many modern packages using GNU autoconf allow to set the directory where HTML
documentation is installed with the "--with-html-dir" option. Sometimes using
this flag is needed because otherwise the documentation ends up in ${PREFIX}/
share/doc/html or other places.

An exception to the above is that library API documentation generated with the
textproc/gtk-doc tools, for use by special browsers (devhelp) should be left at
their default location, which is ${PREFIX}/share/gtk-doc. Such documentation
can be recognized from files ending in .devhelp or .devhelp2. (It is also
acceptable to install such files in ${PREFIX}/share/doc/${PKGBASE} or ${PREFIX}
/share/doc/${PKGNAME}; the .devhelp* file must be directly in that directory
then, no additional subdirectory level is allowed in this case. This is usually
achieved by using "--with-html-dir=${PREFIX}/share/doc". ${PREFIX}/share/
gtk-doc is preferred though.)

21.6.3. Installing highscore files

Certain packages, most of them in the games category, install a score file that
allows all users on the system to record their highscores. In order for this to
work, the binaries need to be installed setgid and the score files owned by the
appropriate group and/or owner (traditionally the "games" user/group). Set
USE_GAMESGROUP to yes to support this. The following variables, documented in
more detail in mk/defaults/mk.conf, control this behaviour: GAMEDATAMODE,
GAMEDIRMODE, GAMES_GROUP, GAMEMODE, GAME_USER. Other useful variables are:
GAMEDIR_PERMS, GAMEDATA_PERMS and SETGID_GAMES_PERMS.

An example that illustrates some of the variables described above is games/
moon-buggy. OWN_DIRS_PERMS is used to properly set directory permissions of the
directory where the scorefile is saved, REQD_FILES_PERMS is used to create a
dummy scorefile (mbscore) with the proper permissions and SPECIAL_PERMS is used
to install setgid the game binary:

USE_GAMESGROUP=         yes

BUILD_DEFS+=            VARBASE

OWN_DIRS_PERMS+=        ${VARBASE}/games/moon-buggy ${GAMEDIR_PERMS}
REQD_FILES_PERMS+=      /dev/null ${VARBASE}/games/moon-buggy/mbscore ${GAMEDATA_PERMS}
SPECIAL_PERMS+=         ${PREFIX}/bin/moon-buggy ${SETGID_GAMES_PERMS}

Various INSTALL_* variables are also available: INSTALL_GAME to install setgid
game binaries, INSTALL_GAME_DIR to install game directories that are needed to
be accessed by setgid games and INSTALL_GAME_DATA to install scorefiles.

A package should therefore never hard code file ownership or access permissions
but rely on *_PERMS as described above or alternatively on INSTALL_GAME,
INSTALL_GAME_DATA and INSTALL_GAME_DIR to set these correctly.

21.6.4. Adding DESTDIR support to packages

DESTDIR support means that a package installs into a staging directory, not the
final location of the files. Then a binary package is created which can be used
for installation as usual. There are two ways: Either the package must install
as root ("destdir") or the package can install as non-root user ("user-destdir"
).

  * PKG_DESTDIR_SUPPORT has to be set to "destdir" or "user-destdir". By
    default PKG_DESTDIR_SUPPORT is set to "user-destdir" to help catching more
    potential packaging problems. If bsd.prefs.mk is included in the Makefile,
    PKG_DESTDIR_SUPPORT needs to be set before the inclusion.

  * All installation operations have to be prefixed with ${DESTDIR}.

  * automake gets this DESTDIR mostly right automatically. Many manual rules
    and pre/post-install often are incorrect; fix them.

  * If files are installed with special owner/group use SPECIAL_PERMS.

  * In general, packages should support UNPRIVILEGED to be able to use DESTDIR.

21.6.5. Packages with hardcoded paths to other interpreters

Your package may also contain scripts with hardcoded paths to other
interpreters besides (or as well as) perl. To correct the full pathname to the
script interpreter, you need to set the following definitions in your Makefile
(we shall use tclsh in this example):

REPLACE_INTERPRETER+=   tcl
REPLACE.tcl.old=        .*/bin/tclsh
REPLACE.tcl.new=        ${PREFIX}/bin/tclsh
REPLACE_FILES.tcl=      # list of tcl scripts which need to be fixed,
# relative to ${WRKSRC}, just as in REPLACE_PERL

Note

Before March 2006, these variables were called _REPLACE.* and _REPLACE_FILES.*.

21.6.6. Packages installing perl modules

Makefiles of packages providing perl5 modules should include the Makefile
fragment ../../lang/perl5/module.mk. It provides a do-configure target for the
standard perl configuration for such modules as well as various hooks to tune
this configuration. See comments in this file for details.

Perl5 modules will install into different places depending on the version of
perl used during the build process. To address this, pkgsrc will append lines
to the PLIST corresponding to the files listed in the installed .packlist file
generated by most perl5 modules. This is invoked by defining PERL5_PACKLIST to
a space-separated list of packlist files relative to PERL5_PACKLIST_DIR
(PERL5_INSTALLVENDORARCH by default), e.g.:

PERL5_PACKLIST= auto/Pg/.packlist

The perl5 config variables installarchlib, installscript, installvendorbin,
installvendorscript, installvendorarch, installvendorlib, installvendorman1dir,
and installvendorman3dir represent those locations in which components of perl5
modules may be installed, provided as variable with uppercase and prefixed with
PERL5_, e.g. PERL5_INSTALLARCHLIB and may be used by perl5 packages that don't
have a packlist. These variables are also substituted for in the PLIST as
uppercase prefixed with PERL5_SUB_.

21.6.7. Packages installing info files

Some packages install info files or use the "makeinfo" or "install-info"
commands. INFO_FILES should be defined in the package Makefile so that INSTALL
and DEINSTALL scripts will be generated to handle registration of the info
files in the Info directory file. The "install-info" command used for the info
files registration is either provided by the system, or by a special purpose
package automatically added as dependency if needed.

PKGINFODIR is the directory under ${PREFIX} where info files are primarily
located. PKGINFODIR defaults to "info" and can be overridden by the user.

The info files for the package should be listed in the package PLIST; however
any split info files need not be listed.

A package which needs the "makeinfo" command at build time must add "makeinfo"
to USE_TOOLS in its Makefile. If a minimum version of the "makeinfo" command is
needed it should be noted with the TEXINFO_REQD variable in the package
Makefile. By default, a minimum version of 3.12 is required. If the system does
not provide a makeinfo command or if it does not match the required minimum, a
build dependency on the devel/gtexinfo package will be added automatically.

The build and installation process of the software provided by the package
should not use the install-info command as the registration of info files is
the task of the package INSTALL script, and it must use the appropriate 
makeinfo command.

To achieve this goal, the pkgsrc infrastructure creates overriding scripts for
the install-info and makeinfo commands in a directory listed early in PATH.

The script overriding install-info has no effect except the logging of a
message. The script overriding makeinfo logs a message and according to the
value of TEXINFO_REQD either runs the appropriate makeinfo command or exit on
error.

21.6.8. Packages installing man pages

All packages that install manual pages should install them into the same
directory, so that there is one common place to look for them. In pkgsrc, this
place is ${PREFIX}/${PKGMANDIR}, and this expression should be used in
packages. The default for PKGMANDIR is "man". Another often-used value is "
share/man".

Note

The support for a custom PKGMANDIR is far from complete.

The PLIST files can just use man/ as the top level directory for the man page
file entries, and the pkgsrc framework will convert as needed. In all other
places, the correct PKGMANDIR must be used.

Packages that are configured with GNU_CONFIGURE set as "yes", by default will
use the ./configure --mandir switch to set where the man pages should be
installed. The path is GNU_CONFIGURE_MANDIR which defaults to ${PREFIX}/$
{PKGMANDIR}.

Packages that use GNU_CONFIGURE but do not use --mandir, can set
CONFIGURE_HAS_MANDIR to "no". Or if the ./configure script uses a non-standard
use of --mandir, you can set GNU_CONFIGURE_MANDIR as needed.

See Section 15.5, "Man page compression" for information on installation of
compressed manual pages.

21.6.9. Packages installing GConf data files

If a package installs .schemas or .entries files, used by GConf, you need to
take some extra steps to make sure they get registered in the database:

 1. Include ../../devel/GConf/schemas.mk instead of its buildlink3.mk file.
    This takes care of rebuilding the GConf database at installation and
    deinstallation time, and tells the package where to install GConf data
    files using some standard configure arguments. It also disallows any access
    to the database directly from the package.

 2. Ensure that the package installs its .schemas files under ${PREFIX}/share/
    gconf/schemas. If they get installed under ${PREFIX}/etc, you will need to
    manually patch the package.

 3. Check the PLIST and remove any entries under the etc/gconf directory, as
    they will be handled automatically. See Section 10.13, "How do I change the
    location of configuration files?" for more information.

 4. Define the GCONF_SCHEMAS variable in your Makefile with a list of all
    .schemas files installed by the package, if any. Names must not contain any
    directories in them.

 5. Define the GCONF_ENTRIES variable in your Makefile with a list of all
    .entries files installed by the package, if any. Names must not contain any
    directories in them.

21.6.10. Packages installing scrollkeeper/rarian data files

If a package installs .omf files, used by scrollkeeper/rarian, you need to take
some extra steps to make sure they get registered in the database:

 1. Include ../../mk/omf-scrollkeeper.mk instead of rarian's buildlink3.mk
    file. This takes care of rebuilding the scrollkeeper database at
    installation and deinstallation time, and disallows any access to it
    directly from the package.

 2. Check the PLIST and remove any entries under the libdata/scrollkeeper
    directory, as they will be handled automatically.

 3. Remove the share/omf directory from the PLIST. It will be handled by
    rarian. (make print-PLIST does this automatically.)

21.6.11. Packages installing X11 fonts

If a package installs font files, you will need to rebuild the fonts database
in the directory where they get installed at installation and deinstallation
time. This can be automatically done by using the pkginstall framework.

You can list the directories where fonts are installed in the FONTS_DIRS.type
variables, where type can be one of "ttf", "type1" or "x11". Also make sure
that the database file fonts.dir is not listed in the PLIST.

Note that you should not create new directories for fonts; instead use the
standard ones to avoid that the user needs to manually configure his X server
to find them.

21.6.12. Packages installing GTK2 modules

If a package installs GTK2 immodules or loaders, you need to take some extra
steps to get them registered in the GTK2 database properly:

 1. Include ../../x11/gtk2/modules.mk instead of its buildlink3.mk file. This
    takes care of rebuilding the database at installation and deinstallation
    time.

 2. Set GTK2_IMMODULES=YES if your package installs GTK2 immodules.

 3. Set GTK2_LOADERS=YES if your package installs GTK2 loaders.

 4. Patch the package to not touch any of the GTK2 databases directly. These
    are:

      + libdata/gtk-2.0/gdk-pixbuf.loaders

      + libdata/gtk-2.0/gtk.immodules

 5. Check the PLIST and remove any entries under the libdata/gtk-2.0 directory,
    as they will be handled automatically.

21.6.13. Packages installing SGML or XML data

If a package installs SGML or XML data files that need to be registered in
system-wide catalogs (like DTDs, sub-catalogs, etc.), you need to take some
extra steps:

 1. Include ../../textproc/xmlcatmgr/catalogs.mk in your Makefile, which takes
    care of registering those files in system-wide catalogs at installation and
    deinstallation time.

 2. Set SGML_CATALOGS to the full path of any SGML catalogs installed by the
    package.

 3. Set XML_CATALOGS to the full path of any XML catalogs installed by the
    package.

 4. Set SGML_ENTRIES to individual entries to be added to the SGML catalog.
    These come in groups of three strings; see xmlcatmgr(1) for more
    information (specifically, arguments recognized by the 'add' action). Note
    that you will normally not use this variable.

 5. Set XML_ENTRIES to individual entries to be added to the XML catalog. These
    come in groups of three strings; see xmlcatmgr(1) for more information
    (specifically, arguments recognized by the 'add' action). Note that you
    will normally not use this variable.

21.6.14. Packages installing extensions to the MIME database

If a package provides extensions to the MIME database by installing .xml files
inside ${PREFIX}/share/mime/packages, you need to take some extra steps to
ensure that the database is kept consistent with respect to these new files:

 1. Include ../../databases/shared-mime-info/mimedb.mk (avoid using the
    buildlink3.mk file from this same directory, which is reserved for
    inclusion from other buildlink3.mk files). It takes care of rebuilding the
    MIME database at installation and deinstallation time, and disallows any
    access to it directly from the package.

 2. Check the PLIST and remove any entries under the share/mime directory, 
    except for files saved under share/mime/packages. The former are handled
    automatically by the update-mime-database program, but the latter are
    package-dependent and must be removed by the package that installed them in
    the first place.

 3. Remove any share/mime/* directories from the PLIST. They will be handled by
    the shared-mime-info package.

21.6.15. Packages using intltool

If a package uses intltool during its build, add intltool to the USE_TOOLS,
which forces it to use the intltool package provided by pkgsrc, instead of the
one bundled with the distribution file.

This tracks intltool's build-time dependencies and uses the latest available
version; this way, the package benefits of any bug fixes that may have appeared
since it was released.

21.6.16. Packages installing startup scripts

If a package contains a rc.d script, it won't be copied into the startup
directory by default, but you can enable it, by adding the option
PKG_RCD_SCRIPTS=YES in mk.conf. This option will copy the scripts into /etc/
rc.d when a package is installed, and it will automatically remove the scripts
when the package is deinstalled.

21.6.17. Packages installing TeX modules

If a package installs TeX packages into the texmf tree, the ls-R database of
the tree needs to be updated.

Note

Except the main TeX packages such as kpathsea, packages should install files
into ${PREFIX}/share/texmf-dist, not ${PREFIX}/share/texmf.

 1. Include ../../print/kpathsea/texmf.mk. This takes care of rebuilding the
    ls-R database at installation and deinstallation time.

 2. If your package installs files into a texmf tree other than the one at $
    {PREFIX}/share/texmf-dist, set TEX_TEXMF_DIRS to the list of all texmf
    trees that need database update.

    If your package also installs font map files that need to be registered
    using updmap, include ../../print/tex-tetex/map.mk and set TEX_MAP_FILES
    and/or TEX_MIXEDMAP_FILES to the list of all such font map files. Then 
    updmap will be run automatically at installation/deinstallation to enable/
    disable font map files for TeX output drivers.

 3. Make sure that none of ls-R databases are included in PLIST, as they will
    be removed only by the kpathsea package.

21.6.18. Packages supporting running binaries in emulation

There are some packages that provide libraries and executables for running
binaries from a one operating system on a different one (if the latter supports
it). One example is running Linux binaries on NetBSD.

The pkgtools/rpm2pkg helps in extracting and packaging Linux rpm packages.

The CHECK_SHLIBS can be set to no to avoid the check-shlibs target, which tests
if all libraries for each installed executable can be found by the dynamic
linker. Since the standard dynamic linker is run, this fails for emulation
packages, because the libraries used by the emulation are not in the standard
directories.

21.6.19. Packages installing hicolor theme icons

If a package installs images under the share/icons/hicolor and/or updates the
share/icons/hicolor/icon-theme.cache database, you need to take some extra
steps to make sure that the shared theme directory is handled appropriately and
that the cache database is rebuilt:

 1. Include ../../graphics/hicolor-icon-theme/buildlink3.mk.

 2. Check the PLIST and remove the entry that refers to the theme cache.

 3. Ensure that the PLIST does not remove the shared icon directories from the
    share/icons/hicolor hierarchy because they will be handled automatically.

The best way to verify that the PLIST is correct with respect to the last two
points is to regenerate it using make print-PLIST.

21.6.20. Packages installing desktop files

If a package installs .desktop files under share/applications and these include
MIME information (MimeType key), you need to take extra steps to ensure that
they are registered into the MIME database:

 1. Include ../../sysutils/desktop-file-utils/desktopdb.mk.

 2. Check the PLIST and remove the entry that refers to the share/applications/
    mimeinfo.cache file. It will be handled automatically.

The best way to verify that the PLIST is correct with respect to the last point
is to regenerate it using make print-PLIST.

21.7. Marking packages as having problems

In some cases one does not have the time to solve a problem immediately. In
this case, one can plainly mark a package as broken. For this, one just sets
the variable BROKEN to the reason why the package is broken (similar to the
PKG_FAIL_REASON variable). A user trying to build the package will immediately
be shown this message, and the build will not be even tried.

BROKEN packages are removed from pkgsrc in irregular intervals.

Chapter 22. Debugging

To check out all the gotchas when building a package, here are the steps that I
do in order to get a package working. Please note this is basically the same as
what was explained in the previous sections, only with some debugging aids.

  * Be sure to set PKG_DEVELOPER=yes in mk.conf.

  * Install pkgtools/url2pkg, create a directory for a new package, change into
    it, then run url2pkg:

    % mkdir /usr/pkgsrc/category/examplepkg
    % cd /usr/pkgsrc/category/examplepkg
    % url2pkg http://www.example.com/path/to/distfile.tar.gz

  * Edit the Makefile as requested.

  * Fill in the DESCR file

  * Run make configure

  * Add any dependencies glimpsed from documentation and the configure step to
    the package's Makefile.

  * Make the package compile, doing multiple rounds of

    % make
    % pkgvi ${WRKSRC}/some/file/that/does/not/compile
    % mkpatches
    % patchdiff
    % mv ${WRKDIR}/.newpatches/* patches
    % make mps
    % make clean

    Doing this step as non-root user will ensure that no files are modified
    that shouldn't be, especially during the build phase. mkpatches, patchdiff
    and pkgvi are from the pkgtools/pkgdiff package.

  * Look at the Makefile, fix if necessary; see Section 13.1, "Makefile".

  * Generate a PLIST:

    # make install
    # make print-PLIST >PLIST
    # make deinstall
    # make install
    # make deinstall

    You usually need to be root to do this. Look if there are any files left:

    # make print-PLIST

    If this reveals any files that are missing in PLIST, add them.

  * Now that the PLIST is OK, install the package again and make a binary
    package:

    # make reinstall
    # make package

  * Delete the installed package:

    # pkg_delete examplepkg

  * Repeat the above make print-PLIST command, which shouldn't find anything
    now:

    # make print-PLIST

  * Reinstall the binary package:

    # pkg_add .../examplepkg.tgz

  * Play with it. Make sure everything works.

  * Run pkglint from pkgtools/pkglint, and fix the problems it reports:

    # pkglint

  * Submit (or commit, if you have cvs access); see Chapter 23, Submitting and
    Committing.

Chapter 23. Submitting and Committing

Table of Contents

23.1. Submitting binary packages
23.2. Submitting source packages (for non-NetBSD-developers)
23.3. General notes when adding, updating, or removing packages
23.4. Commit Messages
23.5. Committing: Adding a package to CVS
23.6. Updating a package to a newer version
23.7. Renaming a package in pkgsrc
23.8. Moving a package in pkgsrc

23.1. Submitting binary packages

Our policy is that we accept binaries only from pkgsrc developers to guarantee
that the packages don't contain any trojan horses etc. This is not to annoy
anyone but rather to protect our users! You're still free to put up your
home-made binary packages and tell the world where to get them. NetBSD
developers doing bulk builds and wanting to upload them please see Chapter 8, 
Creating binary packages for everything in pkgsrc (bulk builds).

23.2. Submitting source packages (for non-NetBSD-developers)

First, check that your package is complete, compiles and runs well; see
Chapter 22, Debugging and the rest of this document. Next, generate an
uuencoded gzipped tar(1) archive that contains all files that make up the
package. Finally, send this package to the pkgsrc bug tracking system, either
with the send-pr(1) command, or if you don't have that, go to the web page
http://www.NetBSD.org/support/send-pr.html, which contains some instructions
and a link to a form where you can submit packages. The sysutils/gtk-send-pr
package is also available as a substitute for either of the above two tools.

In the form of the problem report, the category should be "pkg", the synopsis
should include the package name and version number, and the description field
should contain a short description of your package (contents of the COMMENT
variable or DESCR file are OK). The uuencoded package data should go into the "
fix" field.

If you want to submit several packages, please send a separate PR for each one,
it's easier for us to track things that way.

Alternatively, you can also import new packages into pkgsrc-wip ("pkgsrc
work-in-progress"); see the homepage at http://pkgsrc.org/wip/ for details.

23.3. General notes when adding, updating, or removing packages

Please note all package additions, updates, moves, and removals in pkgsrc/doc/
CHANGES-YYYY. It's very important to keep this file up to date and conforming
to the existing format, because it will be used by scripts to automatically
update pages on www.NetBSD.org and other sites. Additionally, check the pkgsrc/
doc/TODO file and remove the entry for the package you updated or removed, in
case it was mentioned there.

When the PKGREVISION of a package is bumped, the change should appear in pkgsrc
/doc/CHANGES-YYYY if it is security related or otherwise relevant. Mass bumps
that result from a dependency being updated should not be mentioned. In all
other cases it's the developer's decision.

There is a make target that helps in creating proper CHANGES-YYYY entries: make
changes-entry. It uses the optional CTYPE and NETBSD_LOGIN_NAME variables. The
general usage is to first make sure that your CHANGES-YYYY file is up-to-date
(to avoid having to resolve conflicts later-on) and then to cd to the package
directory. For package updates, make changes-entry is enough. For new packages,
or package moves or removals, set the CTYPE variable on the command line to
"Added", "Moved", or "Removed". You can set NETBSD_LOGIN_NAME in mk.conf if
your local login name is not the same as your NetBSD login name. The target
also automatically removes possibly existing entries for the package in the
TODO file. Don't forget to commit the changes, e.g. by using make
commit-changes-entry! If you are not using a checkout directly from
cvs.NetBSD.org, but e.g. a local copy of the repository, you can set
USE_NETBSD_REPO=yes. This makes the cvs commands use the main repository.

23.4. Commit Messages

For several years, there have been mirrors of pkgsrc in fossil, git, and hg.
Standard practise when using these tools is to make the first line of a commit
message function as a summary that can be read without the rest, such as is
commonly done with "git log --oneline". For this reason, we have the following
guidelines for pkgsrc commit messages:

  * Start the commit message with a line that explains the big picture in 65
    characters or less. When a commit is for one package, include the name of
    the package. For updates, include the version to which it is updated.

  * Leave the next line empty.

  * Then come the details for the commit (changes in that package, reason for a
    change) and any relevant PRs. Wrap this section.

Here is an example:

  libxslt: update to 1.0.30

  Changes since 1.0.29:
  ...


Here is another example:

  mk/bsd.pkg.mk: enable SSP by default on NetBSD

  (rationale)


Commit messages are final: no "cvs admin" is allowed on the pkgsrc repository
to change commit messages.

23.5. Committing: Adding a package to CVS

This section is only of interest for pkgsrc developers with write access to the
pkgsrc repository.

When the package is finished, "cvs add" the files. Start by adding the
directory and then files in the directory. Don't forget to add the new package
to the category's Makefile. Make sure you don't forget any files; you can check
by running "cvs status". An example:

$ cd .../pkgsrc/category
$ cvs add pkgname
$ cd pkgname
$ cvs add DESCR Makefile PLIST distinfo buildlink3.mk patches
$ cvs add patches/p*
$ cvs status | less
$ cvs commit
$ cd ..
$ vi Makefile # add SUBDIRS+=pkgname line
$ cvs commit Makefile
$ cd pkgname
$ make CTYPE=Added commit-changes-entry

The commit message of the initial import should include part of the DESCR file,
so people reading the mailing lists know what the package is/does.

Also mention the new package in pkgsrc/doc/CHANGES-20xx.

Previously, "cvs import" was suggested, but it was much easier to get wrong
than "cvs add".

23.6. Updating a package to a newer version

Please always put a concise, appropriate and relevant summary of the changes
between old and new versions into the commit log when updating a package. There
are various reasons for this:

  * A URL is volatile, and can change over time. It may go away completely or
    its information may be overwritten by newer information.

  * Having the change information between old and new versions in our CVS
    repository is very useful for people who use either cvs or anoncvs.

  * Having the change information between old and new versions in our CVS
    repository is very useful for people who read the pkgsrc-changes mailing
    list, so that they can make tactical decisions about when to upgrade the
    package.

Please also recognize that, just because a new version of a package has been
released, it should not automatically be upgraded in the CVS repository. We
prefer to be conservative in the packages that are included in pkgsrc -
development or beta packages are not really the best thing for most places in
which pkgsrc is used. Please use your judgement about what should go into
pkgsrc, and bear in mind that stability is to be preferred above new and
possibly untested features.

23.7. Renaming a package in pkgsrc

Renaming packages is not recommended.

When renaming packages, be sure to fix any references to old name in other
Makefiles, options, buildlink files, etc.

Also when renaming a package, please add the package name and version pattern
(s) of the previous package to SUPERSEDES. This may be repeated for multiple
renames. The new package would be an exact replacement. Example:

SUPERSEDES+=    p5-IO-Compress-Zlib<2.017
SUPERSEDES+=    optcomp-[0-9]*

Note that "successor" in the CHANGES-YYYY file doesn't necessarily mean that it
supersedes, as that successor may not be an exact replacement but is a
suggestion for the replaced functionality.

23.8. Moving a package in pkgsrc

It is preferred that packages are not renamed or moved, but if needed please
follow these steps.

 1. Make a copy of the directory somewhere else.

 2. Remove all CVS dirs.

    Alternatively to the first two steps you can also do:

    % cvs -d user@cvs.NetBSD.org:/cvsroot export -D today pkgsrc/category/package

    and use that for further work.

 3. Fix CATEGORIES and any DEPENDS paths that just did "../package" instead of 
    "../../category/package".

 4. In the modified package's Makefile, consider setting PREV_PKGPATH to the
    previous category/package pathname. The PREV_PKGPATH can be used by tools
    for doing an update using pkgsrc building; for example, it can search the
    pkg_summary(5) database for PREV_PKGPATH (if no SUPERSEDES) and then use
    the corresponding new PKGPATH for that moved package. Note that it may have
    multiple matches, so the tool should also check on the PKGBASE too. The
    PREV_PKGPATH probably has no value unless SUPERSEDES is not set, i.e.
    PKGBASE stays the same.

 5. cvs import the modified package in the new place.

 6. Check if any package depends on it:

    % cd /usr/pkgsrc
    % grep /package */*/Makefile* */*/buildlink*

 7. Fix paths in packages from step 5 to point to new location.

 8. cvs rm (-f) the package at the old location.

 9. Remove from oldcategory/Makefile.

10. Add to newcategory/Makefile.

11. Commit the changed and removed files:

    % cvs commit oldcategory/package oldcategory/Makefile newcategory/Makefile

    (and any packages from step 5, of course).

Chapter 24. Frequently Asked Questions

This section contains the answers to questions that may arise when you are
writing a package. If you don't find your question answered here, first have a
look in the other chapters, and if you still don't have the answer, ask on the
pkgsrc-users mailing list.

24.1. What is the difference between MAKEFLAGS, .MAKEFLAGS and MAKE_FLAGS?
24.2. What is the difference between MAKE, GMAKE and MAKE_PROGRAM?
24.3. What is the difference between CC, PKG_CC and PKGSRC_COMPILER?
24.4. What is the difference between BUILDLINK_LDFLAGS, BUILDLINK_LDADD and
    BUILDLINK_LIBS?
24.5. Why does make show-var VARNAME=BUILDLINK_PREFIX.foo say it's empty?
24.6. What does ${MASTER_SITE_SOURCEFORGE:=package/} mean? I don't understand
    the := inside it.
24.7. Which mailing lists are there for package developers?
24.8. Where is the pkgsrc documentation?
24.9. I have a little time to kill. What shall I do?

24.1. What is the difference between MAKEFLAGS, .MAKEFLAGS and MAKE_FLAGS?

      MAKEFLAGS are the flags passed to the pkgsrc-internal invocations of make
      (1), while MAKE_FLAGS are the flags that are passed to the MAKE_PROGRAM
      when building the package. [FIXME: What is .MAKEFLAGS for?]

24.2. What is the difference between MAKE, GMAKE and MAKE_PROGRAM?

      MAKE is the path to the make(1) program that is used in the pkgsrc
      infrastructure. GMAKE is the path to GNU Make, but you need to say
      USE_TOOLS+=gmake to use that. MAKE_PROGRAM is the path to the Make
      program that is used for building the package.

24.3. What is the difference between CC, PKG_CC and PKGSRC_COMPILER?

      CC is the path to the real C compiler, which can be configured by the
      pkgsrc user. PKG_CC is the path to the compiler wrapper. PKGSRC_COMPILER
      is not a path to a compiler, but the type of compiler that should be
      used. See mk/compiler.mk for more information about the latter variable.

24.4. What is the difference between BUILDLINK_LDFLAGS, BUILDLINK_LDADD and
      BUILDLINK_LIBS?

      [FIXME]

24.5. Why does make show-var VARNAME=BUILDLINK_PREFIX.foo say it's empty?

      For optimization reasons, some variables are only available in the "
      wrapper" phase and later. To "simulate" the wrapper phase, append 
      PKG_PHASE=wrapper to the above command.

24.6. What does ${MASTER_SITE_SOURCEFORGE:=package/} mean? I don't understand
      the := inside it.

      The := is not really an assignment operator, although it looks like it.
      Instead, it is a degenerate form of ${LIST:old_string=new_string}, which
      is documented in the make(1) man page and which is commonly used in the
      form ${SRCS:.c=.o}. In the case of MASTER_SITE_*, old_string is the empty
      string and new_string is package/. That's where the : and the = fall
      together.

24.7. Which mailing lists are there for package developers?

      tech-pkg

          This is a list for technical discussions related to pkgsrc
          development, e.g. soliciting feedback for changes to pkgsrc
          infrastructure, proposed new features, questions related to porting
          pkgsrc to a new platform, advice for maintaining a package, patches
          that affect many packages, help requests moved from pkgsrc-users when
          an infrastructure bug is found, etc.

      pkgsrc-bugs

          All bug reports in category "pkg" sent with send-pr(1) appear here.
          Please do not report your bugs here directly; use one of the other
          mailing lists.

24.8. Where is the pkgsrc documentation?

      There are many places where you can find documentation about pkgsrc:

        * The pkgsrc guide (this document) is a collection of chapters that
          explain large parts of pkgsrc, but some chapters tend to be outdated.
          Which ones they are is hard to say.

        * On the mailing list archives (see http://mail-index.NetBSD.org/), you
          can find discussions about certain features, announcements of new
          parts of the pkgsrc infrastructure and sometimes even announcements
          that a certain feature has been marked as obsolete. The benefit here
          is that each message has a date appended to it.

        * Many of the files in the mk/ directory start with a comment that
          describes the purpose of the file and how it can be used by the
          pkgsrc user and package authors. An easy way to find this
          documentation is to run bmake help.

        * The CVS log messages are a rich source of information, but they tend
          to be highly abbreviated, especially for actions that occur often.
          Some contain a detailed description of what has changed, but they are
          geared towards the other pkgsrc developers, not towards an average
          pkgsrc user. They also only document changes, so if you don't know
          what has been before, these messages may not be worth too much to
          you.

        * Some parts of pkgsrc are only "implicitly documented", that is the
          documentation exists only in the mind of the developer who wrote the
          code. To get this information, use the cvs annotate command to see
          who has written it and ask on the tech-pkg mailing list, so that
          others can find your questions later (see above). To be sure that the
          developer in charge reads the mail, you may CC him or her.

24.9. I have a little time to kill. What shall I do?

      This is not really an FAQ yet, but here's the answer anyway.

        * Run pkg_chk -N (from the pkgtools/pkg_chk package). It will tell you
          about newer versions of installed packages that are available, but
          not yet updated in pkgsrc.

        * Browse pkgsrc/doc/TODO ? it contains a list of suggested new packages
          and a list of cleanups and enhancements for pkgsrc that would be nice
          to have.

        * Review packages for which review was requested on the tech-pkg
          mailing list.

Chapter 25. GNOME packaging and porting

Table of Contents

25.1. Meta packages
25.2. Packaging a GNOME application
25.3. Updating GNOME to a newer version
25.4. Patching guidelines

Quoting GNOME's web site:

    The GNOME project provides two things: The GNOME desktop environment, an
    intuitive and attractive desktop for users, and the GNOME development
    platform, an extensive framework for building applications that integrate
    into the rest of the desktop.

pkgsrc provides a seamless way to automatically build and install a complete
GNOME environment under many different platforms. We can say with confidence
that pkgsrc is one of the most advanced build and packaging systems for GNOME
due to its included technologies buildlink3, the wrappers and tools framework
and automatic configuration file management. Lots of efforts are put into
achieving a completely clean deinstallation of installed software components.

Given that pkgsrc is NetBSD's official packaging system, the above also means
that great efforts are put into making GNOME work under this operating system.
Recently, DragonFly BSD also adopted pkgsrc as its preferred packaging system,
contributing lots of portability fixes to make GNOME build and install under
it.

This chapter is aimed at pkgsrc developers and other people interested in
helping our GNOME porting and packaging efforts. It provides instructions on
how to manage the existing packages and some important information regarding
their internals.

We need your help!

Should you have some spare cycles to devote to NetBSD, pkgsrc and GNOME and are
willing to learn new exciting stuff, please jump straight to the pending work
list! There is still a long way to go to get a fully-functional GNOME desktop
under NetBSD and we need your help to achieve it!

25.1. Meta packages

pkgsrc includes three GNOME-related meta packages:

  * meta-pkgs/gnome-base: Provides the core GNOME desktop environment. It only
    includes the necessary bits to get it to boot correctly, although it may
    lack important functionality for daily operation. The idea behind this
    package is to let end users build their own configurations on top of this
    one, first installing this meta package to achieve a functional setup and
    then adding individual applications.

  * meta-pkgs/gnome: Provides a complete installation of the GNOME platform and
    desktop as defined by the GNOME project; this is based on the components
    distributed in the platform/x.y/x.y.z/sources and desktop/x.y/x.y.z/sources
    directories of the official FTP server. Developer-only tools found in those
    directories are not installed unless required by some other component to
    work properly. Similarly, packages from the bindings set (bindings/x.y/
    x.y.z/sources) are not pulled in unless required as a dependency for an
    end-user component. This package "extends" meta-pkgs/gnome-base.

  * meta-pkgs/gnome-devel: Installs all the tools required to build a GNOME
    component when fetched from the CVS repository. These are required to let
    the autogen.sh scripts work appropriately.

In all these packages, the DEPENDS lines are sorted in a way that eases
updates: a package may depend on other packages listed before it but not on any
listed after it. It is very important to keep this order to ease updates so... 
do not change it to alphabetical sorting!

25.2. Packaging a GNOME application

Almost all GNOME applications are written in C and use a common set of tools as
their build system. Things get different with the new bindings to other
languages (such as Python), but the following will give you a general idea on
the minimum required tools:

  * Almost all GNOME applications use the GNU Autotools as their build system.
    As a general rule you will need to tell this to your package:

    GNU_CONFIGURE=yes
    USE_LIBTOOL=yes
    USE_TOOLS+=gmake

  * If the package uses pkg-config to detect dependencies, add this tool to the
    list of required utilities:

    USE_TOOLS+=pkg-config

    Also use pkgtools/verifypc at the end of the build process to ensure that
    you did not miss to specify any dependency in your package and that the
    version requirements are all correct.

  * If the package uses intltool, be sure to add intltool to the USE_TOOLS to
    handle dependencies and to force the package to use the latest available
    version.

  * If the package uses gtk-doc (a documentation generation utility), do not
    add a dependency on it. The tool is rather big and the distfile should come
    with pregenerated documentation anyway; if it does not, it is a bug that
    you ought to report. For such packages you should disable gtk-doc (unless
    it is the default):

    CONFIGURE_ARGS+=--disable-gtk-doc

    The default location of installed HTML files (share/gtk-doc/<package-name>)
    is correct and should not be changed unless the package insists on
    installing them somewhere else. Otherwise programs as devhelp will not be
    able to open them. You can do that with an entry similar to:

    CONFIGURE_ARGS+=--with-html-dir=${PREFIX}/share/gtk-doc/...

GNOME uses multiple shared directories and files under the installation prefix
to maintain databases. In this context, shared means that those exact same
directories and files are used among several different packages, leading to
conflicts in the PLIST. pkgsrc currently includes functionality to handle the
most common cases, so you have to forget about using @unexec ${RMDIR} lines in
your file lists and omitting shared files from them. If you find yourself doing
those, your package is most likely incorrect.

The following table lists the common situations that result in using shared
directories or files. For each of them, the appropriate solution is given.
After applying the solution be sure to regenerate the package's file list with 
make print-PLIST and ensure it is correct.

Table 25.1. PLIST handling for GNOME packages

+-----------------------------------------------------------------------------+
|             If the package...             |             Then...             |
|-------------------------------------------+---------------------------------|
|                                           |See Section 21.6.10, "Packages   |
|Installs OMF files under share/omf.        |installing scrollkeeper/rarian   |
|                                           |data files".                     |
|-------------------------------------------+---------------------------------|
|Installs icons under the share/icons/      |See Section 21.6.19, "Packages   |
|hicolor hierarchy or updates share/icons/  |installing hicolor theme icons". |
|hicolor/icon-theme.cache.                  |                                 |
|-------------------------------------------+---------------------------------|
|                                           |See Section 21.6.14, "Packages   |
|Installs files under share/mime/packages.  |installing extensions to the MIME|
|                                           |database".                       |
|-------------------------------------------+---------------------------------|
|Installs .desktop files under share/       |See Section 21.6.20, "Packages   |
|applications and these include MIME        |installing desktop files".       |
|information.                               |                                 |
+-----------------------------------------------------------------------------+


25.3. Updating GNOME to a newer version

When seeing GNOME as a whole, there are two kinds of updates:

Major update

    Given that there is still a very long way for GNOME 3 (if it ever appears),
    we consider a major update one that goes from a 2.X version to a 2.Y one,
    where Y is even and greater than X. These are hard to achieve because they
    introduce lots of changes in the components' code and almost all GNOME
    distfiles are updated to newer versions. Some of them can even break API
    and ABI compatibility with the previous major version series. As a result,
    the update needs to be done all at once to minimize breakage.

    A major update typically consists of around 80 package updates and the
    addition of some new ones.

Minor update

    We consider a minor update one that goes from a 2.A.X version to a 2.A.Y
    one where Y is greater than X. These are easy to achieve because they do
    not update all GNOME components, can be done in an incremental way and do
    not break API nor ABI compatibility.

    A minor update typically consists of around 50 package updates, although
    the numbers here may vary a lot.

In order to update the GNOME components in pkgsrc to a new stable release
(either major or minor), the following steps should be followed:

 1. Get a list of all the tarballs that form the new release by using the
    following commands. These will leave the full list of the components'
    distfiles into the list.txt file:

    % echo ls "*.tar.bz2" | \
        ftp -V ftp://ftp.gnome.org/pub/gnome/platform/x.y/x.y.z/sources/ | \
        awk '{ print $9 }' >list.txt
    % echo ls "*.tar.bz2" | \
        ftp -V ftp://ftp.gnome.org/pub/gnome/desktop/x.y/x.y.z/sources/ | \
        awk '{ print $9 }' >>list.txt

 2. Open each meta package's Makefile and bump their version to the release you
    are updating them to. The three meta packages should be always consistent
    with versioning. Obviously remove any PKGREVISIONs that might be in them.

 3. For each meta package, update all its DEPENDS lines to match the latest
    versions as shown by the above commands. Do not list any newer version
    (even if found in the FTP) because the meta packages are supposed to list
    the exact versions that form a specific GNOME release. Exceptions are
    permitted here if a newer version solves a serious issue in the overall
    desktop experience; these typically come in the form of a revision bump in
    pkgsrc, not in newer versions from the developers.

    Packages not listed in the list.txt file should be updated to the latest
    version available (if found in pkgsrc). This is the case, for example, of
    the dependencies on the GNU Autotools in the meta-pkgs/gnome-devel meta
    package.

 4. Generate a patch from the modified meta packages and extract the list of
    "new" lines. This will provide you an outline on what packages need to be
    updated in pkgsrc and in what order:

    % cvs diff -u gnome-devel gnome-base gnome | grep '^+D' >todo.txt

 5. For major desktop updates it is recommended to zap all your installed
    packages and start over from scratch at this point.

 6. Now comes the longest step by far: iterate over the contents of todo.txt
    and update the packages listed in it in order. For major desktop updates
    none of these should be committed until the entire set is completed because
    there are chances of breaking not-yet-updated packages.

 7. Once the packages are up to date and working, commit them to the tree one
    by one with appropriate log messages. At the end, commit the three meta
    package updates and all the corresponding changes to the doc/CHANGES-<YEAR>
    and pkgsrc/doc/TODO files.

25.4. Patching guidelines

GNOME is a very big component in pkgsrc which approaches 100 packages. Please,
it is very important that you always, always, always feed back any portability
fixes you do to a GNOME package to the mainstream developers (see
Section 13.3.5, "Feedback to the author"). This is the only way to get their
attention on portability issues and to ensure that future versions can be built
out-of-the box on NetBSD. The less custom patches in pkgsrc, the easier further
updates are. Those developers in charge of issuing major GNOME updates will be
grateful if you do that.

The most common places to report bugs are the GNOME's Bugzilla and the
freedesktop.org's Bugzilla. Not all components use these to track bugs, but
most of them do. Do not be short on your reports: always provide detailed
explanations of the current failure, how it can be improved to achieve maximum
portability and, if at all possible, provide a patch against CVS head. The more
verbose you are, the higher chances of your patch being accepted.

Also, please avoid using preprocessor magic to fix portability issues. While
the FreeBSD GNOME people are doing a great job in porting GNOME to their
operating system, the official GNOME sources are now plagued by conditionals
that check for __FreeBSD__ and similar macros. This hurts portability. Please
see our patching guidelines (Section 13.3.4, "Patching guidelines") for more
details.

Part III. The pkgsrc infrastructure internals

This part of the guide deals with everything from the infrastructure that is
behind the interfaces described in the developer's guide. A casual package
maintainer should not need anything from this part.

Table of Contents

26. Design of the pkgsrc infrastructure

    26.1. The meaning of variable definitions
    26.2. Avoiding problems before they arise
    26.3. Variable evaluation

        26.3.1. At load time
        26.3.2. At runtime

    26.4. How can variables be specified?
    26.5. Designing interfaces for Makefile fragments

        26.5.1. Procedures with parameters
        26.5.2. Actions taken on behalf of parameters

    26.6. The order in which files are loaded

        26.6.1. The order in bsd.prefs.mk
        26.6.2. The order in bsd.pkg.mk

27. Regression tests

    27.1. Running the regression tests
    27.2. Adding a new regression test

        27.2.1. Overridable functions
        27.2.2. Helper functions

28. Porting pkgsrc

    28.1. Porting pkgsrc to a new operating system

Chapter 26. Design of the pkgsrc infrastructure

Table of Contents

26.1. The meaning of variable definitions
26.2. Avoiding problems before they arise
26.3. Variable evaluation

    26.3.1. At load time
    26.3.2. At runtime

26.4. How can variables be specified?
26.5. Designing interfaces for Makefile fragments

    26.5.1. Procedures with parameters
    26.5.2. Actions taken on behalf of parameters

26.6. The order in which files are loaded

    26.6.1. The order in bsd.prefs.mk
    26.6.2. The order in bsd.pkg.mk

The pkgsrc infrastructure consists of many small Makefile fragments. Each such
fragment needs a properly specified interface. This chapter explains how such
an interface looks like.

26.1. The meaning of variable definitions

Whenever a variable is defined in the pkgsrc infrastructure, the location and
the way of definition provide much information about the intended use of that
variable. Additionally, more documentation may be found in a header comment or
in this pkgsrc guide.

A special file is mk/defaults/mk.conf, which lists all variables that are
intended to be user-defined. They are either defined using the ?= operator or
they are left undefined because defining them to anything would effectively
mean "yes". All these variables may be overridden by the pkgsrc user in the
MAKECONF file.

Outside this file, the following conventions apply: Variables that are defined
using the ?= operator may be overridden by a package.

Variables that are defined using the = operator may be used read-only at
run-time.

Variables whose name starts with an underscore must not be accessed outside the
pkgsrc infrastructure at all. They may change without further notice.

Note

These conventions are currently not applied consistently to the complete pkgsrc
infrastructure.

26.2. Avoiding problems before they arise

All variables that contain lists of things should default to being empty. Two
examples that do not follow this rule are USE_LANGUAGES and DISTFILES. These
variables cannot simply be modified using the += operator in package Makefiles
(or other files included by them), since there is no guarantee whether the
variable is already set or not, and what its value is. In the case of
DISTFILES, the packages "know" the default value and just define it as in the
following example.

DISTFILES=      ${DISTNAME}${EXTRACT_SUFX} additional-files.tar.gz

Because of the selection of this default value, the same value appears in many
package Makefiles. Similarly for USE_LANGUAGES, but in this case the default
value ("c") is so short that it doesn't stand out. Nevertheless it is mentioned
in many files.

26.3. Variable evaluation

26.3.1. At load time

Variable evaluation takes place either at load time or at runtime, depending on
the context in which they occur. The contexts where variables are evaluated at
load time are:

  * The right hand side of the := and != operators,

  * Make directives like .if or .for,

  * Dependency lines.

A special exception are references to the iteration variables of .for loops,
which are expanded inline, no matter in which context they appear.

As the values of variables may change during load time, care must be taken not
to evaluate them by accident. Typical examples for variables that should not be
evaluated at load time are DEPENDS and CONFIGURE_ARGS. To make the effect more
clear, here is an example:

CONFIGURE_ARGS=         # none
CFLAGS=                 -O
CONFIGURE_ARGS+=        CFLAGS=${CFLAGS:Q}

CONFIGURE_ARGS:=        ${CONFIGURE_ARGS}

CFLAGS+=                -Wall

This code shows how the use of the := operator can quickly lead to unexpected
results. The first paragraph is fairly common code. The second paragraph
evaluates the CONFIGURE_ARGS variable, which results in CFLAGS=-O. In the third
paragraph, the -Wall is appended to the CFLAGS, but this addition will not
appear in CONFIGURE_ARGS. In actual code, the three paragraphs from above
typically occur in completely unrelated files.

26.3.2. At runtime

After all the files have been loaded, the values of the variables cannot be
changed anymore. Variables that are used in the shell commands are expanded at
this point.

26.4. How can variables be specified?

There are many ways in which the definition and use of a variable can be
restricted in order to detect bugs and violations of the (mostly unwritten)
policies. A package can be checked with pkglint -Wall to see whether it meets
these rules.

26.5. Designing interfaces for Makefile fragments

Most of the .mk files fall into one of the following classes. Cases where a
file falls into more than one class should be avoided as it often leads to
subtle bugs.

26.5.1. Procedures with parameters

In a traditional imperative programming language some of the .mk files could be
described as procedures. They take some input parameters and?after
inclusion?provide a result in output parameters. Since all variables in
Makefiles have global scope care must be taken not to use parameter names that
have already another meaning. For example, PKGNAME is a bad choice for a
parameter name.

Procedures are completely evaluated at preprocessing time. That is, when
calling a procedure all input parameters must be completely resolvable. For
example, CONFIGURE_ARGS should never be an input parameter since it is very
likely that further text will be added after calling the procedure, which would
effectively apply the procedure to only a part of the variable. Also,
references to other variables will be modified after calling the procedure.

A procedure can declare its output parameters either as suitable for use in
preprocessing directives or as only available at runtime. The latter
alternative is for variables that contain references to other runtime
variables.

Procedures shall be written such that it is possible to call the procedure more
than once. That is, the file must not contain multiple-inclusion guards.

Examples for procedures are mk/bsd.options.mk and mk/buildlink3/bsd.builtin.mk.
To express that the parameters are evaluated at load time, they should be
assigned using the := operator, which should be used only for this purpose.

26.5.2. Actions taken on behalf of parameters

Action files take some input parameters and may define runtime variables. They
shall not define loadtime variables. There are action files that are included
implicitly by the pkgsrc infrastructure, while other must be included
explicitly.

An example for action files is mk/subst.mk.

26.6. The order in which files are loaded

Package Makefiles usually consist of a set of variable definitions, and include
the file ../../mk/bsd.pkg.mk in the very last line. Before that, they may also
include various other *.mk files if they need to query the availability of
certain features like the type of compiler or the X11 implementation. Due to
the heavy use of preprocessor directives like .if and .for, the order in which
the files are loaded matters.

This section describes at which point the various files are loaded and gives
reasons for that order.

26.6.1. The order in bsd.prefs.mk

The very first action in bsd.prefs.mk is to define some essential variables
like OPSYS, OS_VERSION and MACHINE_ARCH.

Then, the user settings are loaded from the file specified in MAKECONF, which
is usually mk.conf. After that, those variables that have not been overridden
by the user are loaded from mk/defaults/mk.conf.

After the user settings, the system settings and platform settings are loaded,
which may override the user settings.

Then, the tool definitions are loaded. The tool wrappers are not yet in effect.
This only happens when building a package, so the proper variables must be used
instead of the direct tool names.

As the last steps, some essential variables from the wrapper and the package
system flavor are loaded, as well as the variables that have been cached in
earlier phases of a package build.

26.6.2. The order in bsd.pkg.mk

First, bsd.prefs.mk is loaded.

Then, the various *-vars.mk files are loaded, which fill default values for
those variables that have not been defined by the package. These variables may
later be used even in unrelated files.

Then, the file bsd.pkg.error.mk provides the target error-check that is added
as a special dependency to all other targets that use DELAYED_ERROR_MSG or
DELAYED_WARNING_MSG.

Then, the package-specific hacks from hacks.mk are included.

Then, various other files follow. Most of them don't have any dependencies on
what they need to have included before or after them, though some do.

The code to check PKG_FAIL_REASON and PKG_SKIP_REASON is then executed, which
restricts the use of these variables to all the files that have been included
before. Appearances in later files will be silently ignored.

Then, the files for the main targets are included, in the order of later
execution, though the actual order should not matter.

At last, some more files are included that don't set any interesting variables
but rather just define make targets to be executed.

Chapter 27. Regression tests

Table of Contents

27.1. Running the regression tests
27.2. Adding a new regression test

    27.2.1. Overridable functions
    27.2.2. Helper functions

The pkgsrc infrastructure consists of a large codebase, and there are many
corners where every little bit of a file is well thought out, making pkgsrc
likely to fail as soon as anything is changed near those parts. To prevent most
changes from breaking anything, a suite of regression tests should go along
with every important part of the pkgsrc infrastructure. This chapter describes
how regression tests work in pkgsrc and how you can add new tests.

27.1. Running the regression tests

You first need to install the pkgtools/pkg_regress package, which provides the 
pkg_regress command. Then you can simply run that command, which will run all
tests in the regress/ directory.

27.2. Adding a new regression test

Every directory in the regress/ directory that contains a file called spec is
considered a regression test. This file is a shell program that is included by
the pkg_regress command. The following functions can be overridden to suit your
needs.

27.2.1. Overridable functions

These functions do not take any parameters. Although they are called in "set -e
" mode, they don't stop at the first failing command. See this Stack Overflow
question for details.

do_setup

    This function prepares the environment for the test. By default it does
    nothing.

do_test

    This function runs the actual test. By default, it calls TEST_MAKE with the
    arguments MAKEARGS_TEST and writes its output including error messages into
    the file TEST_OUTFILE.

    When defining this function, make sure that all output that needs to be
    checked is written to the correct output file. Example:

    do_test() {
            echo "Example output"
    } 1>$TEST_OUTFILE 2>&1

check_result

    This function is run after the test and is typically used to compare the
    actual output from the one that is expected. It can make use of the various
    helper functions from the next section. Example:

    check_result() {
            exit_status 0
            output_require "Example"
            output_require "^[[:alpha:]+[[:space:]][[:alpha:]]{6}$"
            output_prohibit "no such file or directory"
    }

do_cleanup

    This function cleans everything up after the test has been run. By default
    it does nothing.

27.2.2. Helper functions

regress_fail message...

    This function makes the test fail with the given error message.

exit_status expected

    This function compares the exitcode of the do_test function with its first
    parameter. If they differ, the test will fail.

output_require regex...

    This function checks for each of its parameters if the output from do_test
    matches the extended regular expression. If it does not, the test will
    fail. Example:

    output_require "looks fine"
    output_require "^[[:alpha:]+[[:space:]][[:alpha:]]{6}$"

output_prohibit(regex...)

    This function checks for each of its parameters if the output from do_test
    () does not match the extended regular expression. If any of the regular
    expressions matches, the test will fail.

Chapter 28. Porting pkgsrc

Table of Contents

28.1. Porting pkgsrc to a new operating system

The pkgsrc system has already been ported to many operating systems, hardware
architectures and compilers. This chapter explains the necessary steps to make
pkgsrc even more portable.

28.1. Porting pkgsrc to a new operating system

To port pkgsrc to a new operating system (called MyOS in this example), you
need to touch the following files:

pkgtools/bootstrap-mk-files/files/mods/MyOS.sys.mk

    This file contains some basic definitions, for example the name of the C
    compiler.

mk/bsd.prefs.mk

    Insert code that defines the variables OPSYS, OS_VERSION, LOWER_OS_VERSION,
    LOWER_VENDOR, MACHINE_ARCH, OBJECT_FMT, APPEND_ELF, and the other variables
    that appear in this file.

mk/platform/MyOS.mk

    This file contains the platform-specific definitions that are used by
    pkgsrc. Start by copying one of the other files and edit it to your needs.

mk/tools/tools.MyOS.mk

    This file defines the paths to all the tools that are needed by one or the
    other package in pkgsrc, as well as by pkgsrc itself. Find out where these
    tools are on your platform and add them.

Now, you should be able to build some basic packages, like lang/perl5, shells/
bash.

Appendix A. A simple example package: bison

Table of Contents

A.1. files

    A.1.1. Makefile
    A.1.2. DESCR
    A.1.3. PLIST
    A.1.4. Checking a package with pkglint

A.2. Steps for building, installing, packaging

We checked to find a piece of software that wasn't in the packages collection,
and picked GNU bison. Quite why someone would want to have bison when Berkeley 
yacc is already present in the tree is beyond us, but it's useful for the
purposes of this exercise.

A.1. files

A.1.1. Makefile

# $NetBSD$
#

DISTNAME=       bison-1.25
CATEGORIES=     devel
MASTER_SITES=   ${MASTER_SITE_GNU}

MAINTAINER=     pkgsrc-users@NetBSD.org
HOMEPAGE=       http://www.gnu.org/software/bison/bison.html
COMMENT=        GNU yacc clone

GNU_CONFIGURE=  yes
INFO_FILES=     yes

.include "../../mk/bsd.pkg.mk"

A.1.2. DESCR

GNU version of yacc.  Can make re-entrant parsers, and numerous other
improvements.  Why you would want this when Berkeley yacc(1) is part
of the NetBSD source tree is beyond me.

A.1.3. PLIST

@comment $NetBSD$
bin/bison
man/man1/bison.1.gz
share/bison.simple
share/bison.hairy

A.1.4. Checking a package with pkglint

The NetBSD package system comes with pkgtools/pkglint which helps to check the
contents of these files. After installation it is quite easy to use, just
change to the directory of the package you wish to examine and execute pkglint:

$ pkglint
looks fine.

Depending on the supplied command line arguments (see pkglint(1)), more checks
will be performed. Use e.g. pkglint -Call -Wall for a very thorough check.

A.2. Steps for building, installing, packaging

Create the directory where the package lives, plus any auxiliary directories:

# cd /usr/pkgsrc/lang
# mkdir bison
# cd bison
# mkdir patches

Create Makefile, DESCR and PLIST (see Chapter 13, Package components - files,
directories and contents) then continue with fetching the distfile:

# make fetch
>> bison-1.25.tar.gz doesn't seem to exist on this system.
>> Attempting to fetch from ftp://prep.ai.mit.edu/pub/gnu//.
Requesting ftp://prep.ai.mit.edu/pub/gnu//bison-1.25.tar.gz (via ftp://orpheus.amdahl.com:80/)
ftp: Error retrieving file: 500 Internal error

>> Attempting to fetch from ftp://wuarchive.wustl.edu/systems/gnu//.
Requesting ftp://wuarchive.wustl.edu/systems/gnu//bison-1.25.tar.gz (via ftp://orpheus.amdahl.com:80/)
ftp: Error retrieving file: 500 Internal error

>> Attempting to fetch from ftp://ftp.freebsd.org/pub/FreeBSD/distfiles//.
Requesting ftp://ftp.freebsd.org/pub/FreeBSD/distfiles//bison-1.25.tar.gz (via ftp://orpheus.amdahl.com:80/)
Successfully retrieved file.

Generate the checksum of the distfile into distinfo:

# make makedistinfo

Now compile:

# make
>> Checksum OK for bison-1.25.tar.gz.
===>  Extracting for bison-1.25
===>  Patching for bison-1.25
===>   Ignoring empty patch directory
===>  Configuring for bison-1.25
creating cache ./config.cache
checking for gcc... cc
checking whether we are using GNU C... yes
checking for a BSD compatible install... /usr/bin/install -c -o bin -g bin
checking how to run the C preprocessor... cc -E
checking for minix/config.h... no
checking for POSIXized ISC... no
checking whether cross-compiling... no
checking for ANSI C header files... yes
checking for string.h... yes
checking for stdlib.h... yes
checking for memory.h... yes
checking for working const... yes
checking for working alloca.h... no
checking for alloca... yes
checking for strerror... yes
updating cache ./config.cache
creating ./config.status
creating Makefile
===>  Building for bison-1.25
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g LR0.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g allocate.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g closure.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g conflicts.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g derives.c
cc -c -DXPFILE=\"/usr/pkg/share/bison.simple\"  -DXPFILE1=\"/usr/pkg/share/bison.hairy\" -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1  -g  ./files.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g getargs.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g gram.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g lalr.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g lex.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g main.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g nullable.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g output.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g print.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g reader.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g reduce.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g symtab.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g warshall.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g version.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g getopt.c
cc -c -DSTDC_HEADERS=1 -DHAVE_STRING_H=1 -DHAVE_STDLIB_H=1 -DHAVE_MEMORY_H=1 -DHAVE_ALLOCA=1 -DHAVE_STRERROR=1 -I./../include  -g getopt1.c
cc  -g -o bison LR0.o allocate.o closure.o conflicts.o derives.o files.o         getargs.o gram.o lalr.o lex.o                                   main.o nullable.o output.o print.o reader.o reduce.o symtab.o   warshall.o version.o getopt.o getopt1.o
./files.c:240: warning: mktemp() possibly used unsafely, consider using mkstemp()
rm -f bison.s1
sed -e "/^#line/ s|bison|/usr/pkg/share/bison|" < ./bison.simple > bison.s1

Everything seems OK, so install the files:

# make install
>> Checksum OK for bison-1.25.tar.gz.
===>  Installing for bison-1.25
sh ./mkinstalldirs /usr/pkg/bin /usr/pkg/share  /usr/pkg/info /usr/pkg/man/man1
rm -f /usr/pkg/bin/bison
cd /usr/pkg/share; rm -f bison.simple bison.hairy
rm -f /usr/pkg/man/man1/bison.1 /usr/pkg/info/bison.info*
install -c  -o bin -g bin -m 555 bison /usr/pkg/bin/bison
/usr/bin/install -c -o bin -g bin -m 644 bison.s1 /usr/pkg/share/bison.simple
/usr/bin/install -c -o bin -g bin -m 644 ./bison.hairy /usr/pkg/share/bison.hairy
cd .; for f in bison.info*;  do /usr/bin/install -c -o bin -g bin -m 644 $f /usr/pkg/info/$f; done
/usr/bin/install -c -o bin -g bin -m 644 ./bison.1 /usr/pkg/man/man1/bison.1
===>  Registering installation for bison-1.25

You can now use bison, and also - if you decide so - remove it with pkg_delete
bison. Should you decide that you want a binary package, do this now:

# make package
>> Checksum OK for bison-1.25.tar.gz.
===>  Building package for bison-1.25
Creating package bison-1.25.tgz
Registering depends:.
Creating gzip'd tar ball in '/u/pkgsrc/lang/bison/bison-1.25.tgz'

Now that you don't need the source and object files any more, clean up:

# make clean
===>  Cleaning for bison-1.25

Appendix B. Build logs

Table of Contents

B.1. Building figlet
B.2. Packaging figlet

B.1. Building figlet

# make
===> Checking for vulnerabilities in figlet-2.2.1nb2
=> figlet221.tar.gz doesn't seem to exist on this system.
=> Attempting to fetch figlet221.tar.gz from ftp://ftp.figlet.org/pub/figlet/program/unix/.
=> [172219 bytes]
Connected to ftp.plig.net.
220 ftp.plig.org NcFTPd Server (licensed copy) ready.
331 Guest login ok, send your complete e-mail address as password.
230-You are user #5 of 500 simultaneous users allowed.
230-
230-  ___ _             _ _
230- |  _| |_ ___   ___| |_|___   ___ ___ ___
230- |  _|  _| . |_| . | | | . |_| . |  _| . |
230- |_| |_| |  _|_|  _|_|_|_  |_|___|_| |_  |
230-         |_|   |_|     |___|         |___|
230-
230-** Welcome to ftp.plig.org **
230-
230-Please note that all transfers from this FTP site are logged. If you
230-do not like this, please disconnect now.
230-
230-This archive is available via
230-
230-HTTP:  http://ftp.plig.org/
230-FTP:   ftp://ftp.plig.org/     (max 500 connections)
230-RSYNC: rsync://ftp.plig.org/   (max  30 connections)
230-
230-Please email comments, bug reports and requests for packages to be
230-mirrored to ftp-admin@plig.org.
230-
230-
230 Logged in anonymously.
Remote system type is UNIX.
Using binary mode to transfer files.
200 Type okay.
250 "/pub" is new cwd.
250-"/pub/figlet" is new cwd.
250-
250-Welcome to the figlet archive at ftp.figlet.org
250-
250-    ftp://ftp.figlet.org/pub/figlet/
250-
250-The official FIGlet web page is:
250-    http://www.figlet.org/
250-
250-If you have questions, please mailto:info@figlet.org. If you want to
250-contribute a font or something else, you can email us.
250
250 "/pub/figlet/program" is new cwd.
250 "/pub/figlet/program/unix" is new cwd.
local: figlet221.tar.gz remote: figlet221.tar.gz
502 Unimplemented command.
227 Entering Passive Mode (195,40,6,41,246,104)
150 Data connection accepted from 84.128.86.72:65131; transfer starting for figlet221.tar.gz (172219 bytes).
38% |**************                       | 65800      64.16 KB/s    00:01 ETA
226 Transfer completed.
172219 bytes received in 00:02 (75.99 KB/s)
221 Goodbye.
=> Checksum OK for figlet221.tar.gz.
===> Extracting for figlet-2.2.1nb2
===> Required installed package ccache-[0-9]*: ccache-2.3nb1 found
===> Patching for figlet-2.2.1nb2
===> Applying pkgsrc patches for figlet-2.2.1nb2
===> Overriding tools for figlet-2.2.1nb2
===> Creating toolchain wrappers for figlet-2.2.1nb2
===> Configuring for figlet-2.2.1nb2
===> Building for figlet-2.2.1nb2
gcc -O2 -DDEFAULTFONTDIR=\"/usr/pkg/share/figlet\"  -DDEFAULTFONTFILE=\"standard.flf\"  figlet.c zipio.c crc.c inflate.c -o figlet
chmod a+x figlet
gcc -O2 -o chkfont chkfont.c
=> Unwrapping files-to-be-installed.
#
# make install
===> Checking for vulnerabilities in figlet-2.2.1nb2
===> Installing for figlet-2.2.1nb2
install -d -o root -g wheel -m 755 /usr/pkg/bin
install -d -o root -g wheel -m 755 /usr/pkg/man/man6
mkdir -p /usr/pkg/share/figlet
cp figlet /usr/pkg/bin
cp chkfont /usr/pkg/bin
chmod 555 figlist showfigfonts
cp figlist /usr/pkg/bin
cp showfigfonts /usr/pkg/bin
cp fonts/*.flf /usr/pkg/share/figlet
cp fonts/*.flc /usr/pkg/share/figlet
cp figlet.6 /usr/pkg/man/man6
===> Registering installation for figlet-2.2.1nb2
#

B.2. Packaging figlet

# make package
===> Checking for vulnerabilities in figlet-2.2.1nb2
===> Packaging figlet-2.2.1nb2
===> Building binary package for figlet-2.2.1nb2
Creating package /home/cvs/pkgsrc/packages/i386/All/figlet-2.2.1nb2.tgz
Using SrcDir value of /usr/pkg
Registering depends:.
#

Appendix C. Directory layout of the pkgsrc FTP server

Table of Contents

C.1. distfiles: The distributed source files
C.2. misc: Miscellaneous things
C.3. packages: Binary packages
C.4. reports: Bulk build reports
C.5. current, stable, pkgsrc-20xxQy: source packages

As in other big projects, the directory layout of pkgsrc is quite complex for
newbies. This chapter explains where you find things on the FTP server. The
base directory on ftp.NetBSD.org is /pub/pkgsrc/. On other servers it may be
different, but inside this directory, everything should look the same, no
matter on which server you are. This directory contains some subdirectories,
which are explained below.

C.1. distfiles: The distributed source files

The directory distfiles contains lots of archive files from all pkgsrc
packages, which are mirrored here. The subdirectories are called after their
package names and are used when the distributed files have names that don't
explicitly contain a version number or are otherwise too generic (for example
release.tar.gz).

C.2. misc: Miscellaneous things

This directory contains things that individual pkgsrc developers find worth
publishing.

C.3. packages: Binary packages

This directory contains binary packages for the various platforms that are
supported by pkgsrc. Each subdirectory is of the form OPSYS/ARCH/OSVERSION_TAG.
The meaning of these variables is:

  * OPSYS is the name of the operating system for which the packages have been
    built. The name is taken from the output of the uname command, so it may
    differ from the one you are used to hear.

  * ARCH is the hardware architecture of the platform for which the packages
    have been built. It also includes the ABI (Application Binary Interface)
    for platforms that have several of them.

  * OSVERSION is the version of the operating system. For version numbers that
    change often (for example NetBSD-current), the often-changing part should
    be replaced with an x, for example 4.99.x.

  * TAG is either 20xxQy for a stable branch, or head for packages built from
    the HEAD branch. The latter should only be used when the packages are
    updated on a regular basis. Otherwise the date from checking out pkgsrc
    should be appended, for example head_20071015.

The rationale for exactly this scheme is that the pkgsrc users looking for
binary packages can quickly click through the directories on the server and
find the best binary packages for their machines. Since they usually know the
operating system and the hardware architecture, OPSYS and ARCH are placed
first. After these choices, they can select the best combination of OSVERSION
and TAG together, since it is usually the case that packages stay compatible
between different version of the operating system.

In each of these directories, there is a whole binary packages collection for a
specific platform. It has a directory called All which contains all binary
packages. Besides that, there are various category directories that contain
symbolic links to the real binary packages.

C.4. reports: Bulk build reports

Here are the reports from bulk builds, for those who want to fix packages that
didn't build on some of the platforms. The structure of subdirectories should
look like the one in Section C.3, "packages: Binary packages".

C.5. current, stable, pkgsrc-20xxQy: source packages

These directories contain the "real" pkgsrc, that is the files that define how
to create binary packages from source archives.

Each of the current, stable and pkgsrc-20xxQy directories share the same
structure. They each contain a pkgsrc directory and pkgsrc.tar.{bz,gz,xz} file.

The directory pkgsrc contains a snapshot of the CVS repository, which is
updated regularly. The file pkgsrc.tar.{bz,gz,xz} contains the same as the
directory, ready to be downloaded as a whole.

The current directory contains files related to the HEAD branch of the CVS
repository. In this directory there is an additional file called
pkgsrc-readmes.tar.{bz,gz,xz} that contains all pkgsrc READMEs with information
about categories and packages.

The stable directory is a symlink to the latest pkgsrc-20xxQy.

The pkgsrc-20xxQy. directories contain files related to the -20xxQy stable
branch of the CVS repository. In these directories there is an additional file
called pkgsrc-20xxQy.tar.{bz,gz,xz}, which contains the state of pkgsrc when it
was branched.

Appendix D. Help topics

The following list contains all help topics that are available when running 
bmake help topic=:index.

#!                               -lintl
64bit                            ABI
ACCEPTABLE_LICENSES              ACROREAD_FONTPATH
ADDITIONAL                       AFAIK
AIX                              ALLOW_VULNERABLE_PACKAGES
ALL_ENV                          ALSA_PC
ALTERNATIVES_SRC                 AMANDA_TMP
AMANDA_USER                      AMANDA_VAR
APACHE_GROUP                     APACHE_MODULE_NAME
APACHE_MODULE_SRC                APACHE_MODULE_SRCDIR
APACHE_PKG_PREFIX                APACHE_SUEXEC_CONFIGURE_ARGS
APACHE_SUEXEC_DOCROOT            APACHE_USER
APPEND_ABI                       APPEND_ELF
ARLA_CACHE                       AUDIT_PACKAGES_FLAGS
AUTOCONF_REQD                    AUTOMAKE_OVERRIDE
AUTOMAKE_REQD                    AUTO_MKDIRS
BDB185_DEFAULT                   BDBBASE
BDB_ACCEPTED                     BDB_DEFAULT
BDB_LIBS                         BDB_TYPE
BIND_DIR                         BIND_GROUP
BIND_USER                        BINPKG_SITES
BIN_INSTALL_FLAGS                BISON_PKGDATADIR
BLAS_ACCEPTED                    BLAS_LIBS
BLAS_TYPE                        BOOTSTRAP_DEPENDS
BOOTSTRAP_SETUPTOOLS             BROKEN
BROKEN_EXCEPT_ON_PLATFORM        BROKEN_ON_PLATFORM
BSDSRCDIR                        BSDXSRCDIR
BSD_MAKE_ENV                     BUILDLINK_AUTO_DIRS
BUILDLINK_AUTO_VARS              BUILDLINK_CFLAGS
BUILDLINK_CONTENTS_FILTER        BUILDLINK_CPPFLAGS
BUILDLINK_DEPMETHOD              BUILDLINK_FILES
BUILDLINK_FILES_CMD              BUILDLINK_FNAME_TRANSFORM
BUILDLINK_LDFLAGS                BUILDLINK_LIBS
BUILDLINK_OPSYS_SUPPORT_PTHREAD  BUILDLINK_PKGNAME
BUILDLINK_PREFIX                 BUILDLINK_RPATHDIRS
BUILDLINK_TREE                   BUILD_DEFS
BUILD_DEFS_EFFECTS               BUILD_DEPENDS
BUILD_DIRS                       BUILD_ENV_SHELL
BUILD_MAKE_CMD                   BUILD_MAKE_FLAGS
BUILD_TARGET                     BUILTIN_FIND_FILES
BUILTIN_FIND_FILES_VAR           BUILTIN_FIND_GREP
BUILTIN_FIND_HEADERS             BUILTIN_FIND_HEADERS_VAR
BUILTIN_PKG                      BUILTIN_TEST_CURSES_DEFINES
BUILTIN_TEST_CURSES_FUNCS        BUILTIN_VERSION_SCRIPT
BUILTIN_X11_TYPE                 BUILTIN_X11_VERSION
CACTI_GROUP                      CACTI_USER
CANNA_GROUP                      CANNA_USER
CAT                              CCACHE_BASE
CCACHE_DIR                       CCACHE_LOGFILE
CC_VERSION                       CC_VERSION_STRING
CDRECORD_CONF                    CDROM_PKG_URL_DIR
CDROM_PKG_URL_HOST               CHECKOUT_DATE
CHECK_FAKEHOME                   CHECK_FILES
CHECK_FILES_SKIP                 CHECK_FILES_STRICT
CHECK_HEADERS                    CHECK_HEADERS_SKIP
CHECK_INTERPRETER                CHECK_INTERPRETER_SKIP
CHECK_PERMS                      CHECK_PERMS_AUTOFIX
CHECK_PERMS_SKIP                 CHECK_PORTABILITY
CHECK_PORTABILITY_SKIP           CHECK_RELRO
CHECK_RELRO_SKIP                 CHECK_RELRO_SUPPORTED
CHECK_SHLIBS                     CHECK_SHLIBS_BLACKLIST
CHECK_SHLIBS_SKIP                CHECK_SHLIBS_SUPPORTED
CHECK_SSP                        CHECK_SSP_SKIP
CHECK_SSP_SUPPORTED              CHECK_STRIPPED
CHECK_STRIPPED_SKIP              CHECK_WRKREF
CHECK_WRKREF_EXTRA_DIRS          CHECK_WRKREF_SKIP
CLAMAV_DBDIR                     CLAMAV_GROUP
CLAMAV_USER                      CLANGBASE
CLEANDEPENDS                     CMAKE_DEPENDENCIES_REWRITE
CMAKE_INSTALL_PREFIX             CMAKE_MODULE_PATH_OVERRIDE
CMAKE_PKGSRC_BUILD_FLAGS         CMAKE_PREFIX_PATH
CMAKE_USE_GNU_INSTALL_DIRS       COMMON_LISP_DOCFILES
COMMON_LISP_EXAMPLES             COMMON_LISP_EXTRAFILES
COMMON_LISP_PACKAGES             COMMON_LISP_SYSTEM
COMPILER_RPATH_FLAG              COMPILER_USE_SYMLINKS
CONFIGURE_ARGS                   CONFIGURE_DIRS
CONFIGURE_ENV                    CONFIGURE_HAS_INFODIR
CONFIGURE_HAS_MANDIR             CONFIGURE_SCRIPT
CONFIG_SHELL                     CONFIG_SHELL_FLAGS
CONF_FILES                       CONF_FILES_MODE
CONF_FILES_PERMS                 CONSERVER_DEFAULTHOST
CONSERVER_DEFAULTPORT            CP
CPP                              CPP_PRECOMP_FLAGS
CREATE_WRKDIR_SYMLINK            CROSSBASE
CTFCONVERT                       CTF_FILES_SKIP
CTF_SUPPORTED                    CTYPE
CUPS_GROUP                       CUPS_SYSTEM_GROUPS
CUPS_USER                        CURSES_DEFAULT
CURSES_TYPE                      CVS_EXTRACTDIR
CVS_MODULE                       CVS_PROJECT
CVS_REPOSITORIES                 CVS_ROOT
CVS_ROOT_GNU                     CVS_ROOT_NONGNU
CVS_ROOT_SOURCEFORGE             CVS_TAG
CXX                              CYRUS_GROUP
CYRUS_IDLE                       CYRUS_USER
DAEMONTOOLS_GROUP                DAEMONTOOLS_LOG_USER
DBUS_GROUP                       DBUS_USER
DEFANG_GROUP                     DEFANG_USER
DEFAULT_ACCEPTABLE_LICENSES      DEFAULT_DISTFILES
DEFAULT_IRC_SERVER               DEFAULT_SERIAL_DEVICE
DEF_UMASK                        DEINSTALLDEPENDS
DEINSTALL_SRC                    DEINSTALL_TEMPLATES
DELAYED_ERROR_MSG                DELAYED_WARNING_MSG
DEPENDS                          DEPENDS_TARGET
DEPENDS_TYPE                     DESTDIR
DESTDIR_VARNAME                  DIALER_GROUP
DIGEST_REQD                      DISTDIR
DISTFILES                        DISTINFO_FILE
DISTNAME                         DIST_PATH
DIST_SUBDIR                      DJBDNS_AXFR_USER
DJBDNS_CACHE_USER                DJBDNS_DJBDNS_GROUP
DJBDNS_LOG_USER                  DJBDNS_RBL_USER
DJBDNS_TINY_USER                 DLOPEN_REQUIRE_PTHREADS
DL_AUTO_VARS                     DL_CFLAGS
DL_LDFLAGS                       DL_LIBS
DNS                              DOWNLOADED_DISTFILE
DT_LAYOUT                        DYNAMIC_SITES_CMD
DYNAMIC_SITES_SCRIPT             ECHO
ECHO_N                           ELK_GUI
EMACS_TYPE                       EMULDIR
EMULSUBDIR                       EMULSUBDIRSLASH
EMUL_ARCH                        EMUL_DISTRO
EMUL_EXEC_FMT                    EMUL_IS_NATIVE
EMUL_MODULES                     EMUL_OPSYS
EMUL_PKG_FMT                     EMUL_PLATFORM
EMUL_PLATFORMS                   EMUL_PREFER
EMUL_REQD                        EMUL_TYPE
ERROR_MSG                        EXIM_GROUP
EXIM_USER                        EXPORT_SYMBOLS_LDFLAGS
EXTRACTOR                        EXTRACT_CMD
EXTRACT_CMD_DEFAULT              EXTRACT_DIR
EXTRACT_ELEMENTS                 EXTRACT_ENV
EXTRACT_ONLY                     EXTRACT_OPTS
EXTRACT_SUFX                     EXTRACT_USING
FAILOVER_FETCH                   FAIL_MSG
FAKE_NCURSES                     FAM
FAM_ACCEPTED                     FAM_DEFAULT
FAM_SERVER                       FCPATH
FEATURE_CPPFLAGS                 FEATURE_LDFLAGS
FEATURE_LIBS                     FETCH_AFTER_ARGS
FETCH_BEFORE_ARGS                FETCH_CMD
FETCH_OUTPUT_ARGS                FETCH_PROXY
FETCH_RESUME_ARGS                FETCH_USING
FILES_SUBST                      FILES_SUBST_SED
FIX_SYSTEM_HEADERS               FLUXBOX_USE_GNOME
FLUXBOX_USE_KDE                  FLUXBOX_USE_XFT
FLUXBOX_USE_XINERAMA             FONTDIR
FONTS_DIRS                       FONTS_VERBOSE
FOO_HACKS_MK                     FOSSIL_EXTRACTDIR
FOSSIL_REPO                      FOSSIL_REPOSITORIES
FOSSIL_VERSION                   FOX_USE_XUNICODE
FREEWNN_GROUP                    FREEWNN_USER
FTP_PKG_URL_DIR                  FTP_PKG_URL_HOST
GAMEDATAMODE                     GAMEDATA_PERMS
GAMEDIRMODE                      GAMEDIR_PERMS
GAMEGRP                          GAMEMODE
GAMEOWN                          GAMES_GROUP
GAMES_USER                       GCC
GCCBASE                          GCC_REQD
GCC_VERSION_SUFFIX               GEM_BUILD
GEM_CLEANBUILD                   GEM_CLEANBUILD_EXTENSIONS
GEM_DOCDIR                       GEM_EXTSDIR
GEM_HOME                         GEM_LIBDIR
GEM_NAME                         GEM_PATH
GEM_SPECFILE                     GENERATE_PLIST
GHOSTSCRIPT_REQD                 GITHUB_PROJECT
GITHUB_RELEASE                   GITHUB_TAG
GITHUB_TYPE                      GIT_BRANCH
GIT_ENV                          GIT_EXTRACTDIR
GIT_REPO                         GIT_REPOSITORIES
GIT_REVISION                     GIT_TAG
GNU                              GNU_CONFIGURE
GNU_CONFIGURE_INFODIR            GNU_CONFIGURE_MANDIR
GNU_CONFIGURE_STRICT             GODEP_REDIRECTS
GO_BUILD_PATTERN                 GO_DEPS
GO_DIST_BASE                     GO_SRCPATH
GO_VERSION_DEFAULT               GROUP_SPECIFIC_PKGS
GRUB_NETWORK_CARDS               GRUB_PRESET_COMMAND
GRUB_SCAN_ARGS                   GZIP
HASKELL_COMPILER                 HASKELL_ENABLE_HADDOCK_DOCUMENTATION
HASKELL_ENABLE_LIBRARY_PROFILING HASKELL_ENABLE_SHARED_LIBRARY
HAS_CONFIGURE                    HEADER_TEMPLATES
HG_REPO                          HG_REPOSITORIES
HG_TAG                           HOST_PKGTOOLS_ARGS
HOST_SPECIFIC_PKGS               HOWL_GROUP
HOWL_USER                        ICCBASE
ICECAST_CHROOTDIR                ICON_THEMES
IDOBASE                          IGNORE_CCACHE
IGNORE_INFO_DIRS                 IGNORE_INTERACTIVE_FETCH
IMAKE                            IMAKEOPTS
IMAKE_MAKE                       IMAKE_MANINSTALL
IMAP_UW_CCLIENT_MBOX_FMT         IMDICTDIR
INCOMPAT_CURSES                  INFO_DIR
INFO_FILES                       INFO_FILES_VERBOSE
INFO_MSG                         INIT_SYSTEM
INN_DATA_DIR                     INN_GROUP
INN_USER                         INSTALLATION_DIRS
INSTALLATION_DIRS_FROM_PLIST     INSTALL_ENV
INSTALL_SH_OVERRIDE              INSTALL_SRC
INSTALL_TEMPLATES                INSTALL_UNSTRIPPED
IRCD_HYBRID_IRC_GROUP            IRCD_HYBRID_IRC_USER
IRCD_HYBRID_MAXCONN              IRCD_HYBRID_NICLEN
IRCD_HYBRID_SYSLOG_EVENTS        IRCD_HYBRID_SYSLOG_FACILITY
IRCD_HYBRID_TOPICLEN             IRIX
IRRD_USE_PGP                     JABBERD_GROUP
JABBERD_LOGDIR                   JABBERD_PIDDIR
JABBERD_SPOOLDIR                 JABBERD_USER
JAKARTA_HOME                     JAVA_APP_PATH
JAVA_APP_TARGETS                 JAVA_BINPREFIX
JAVA_CLASSPATH                   JAVA_HOME
JAVA_LD_LIBRARY_PATH             JAVA_NAME
JAVA_UNLIMIT                     JAVA_WRAPPERS
JPEG_ACCEPTED                    JPEG_DEFAULT
KERBEROS                         KERMIT_SUID_UUCP
KJS_USE_PCRE                     KNEWS_DOMAIN_FILE
KNEWS_DOMAIN_NAME                KRB5_ACCEPTED
KRB5_DEFAULT                     LANGUAGES
LAPACK_LIBS                      LATEX2HTML_ICONPATH
LDCONFIG_ADD_CMD                 LDCONFIG_REMOVE_CMD
LEAFNODE_DATA_DIR                LEAFNODE_GROUP
LEAFNODE_USER                    LIBDVDCSS_HOMEPAGE
LIBDVDCSS_MASTER_SITES           LIBRSVG_TYPE
LIBTOOL                          LIBTOOLIZE_PLIST
LIBTOOL_M4_OVERRIDE              LIBUSB_TYPE
LICENSE                          LINKER_RPATH_FLAG
LINK_RPATH_FLAG                  LINUX_BASE_NODEPS
LINUX_BASE_PREFERRED             LINUX_BASE_REQUIRED
LINUX_LOCALES                    LOCALBASE
LOCALBASE_LOCKTYPE               LOCALPATCHES
LOVE_DATA                        LOVE_GAME
LOVE_VERSION                     LP64PLATFORMS
MACHINE_PLATFORM                 MAILAGENT_DOMAIN
MAILAGENT_EMAIL                  MAILAGENT_FQDN
MAILAGENT_ORGANIZATION           MAJORDOMO_HOMEDIR
MAJOR_OS_VERSION                 MAKEINFO_ARGS
MAKE_DIRS                        MAKE_DIRS_PERMS
MAKE_ENV                         MAKE_FILE
MAKE_FLAGS                       MAKE_JOBS
MAKE_JOBS_SAFE                   MAKE_PROGRAM
MANINSTALL                       MANZ
MASTER_SITES                     MASTER_SITE_BACKUP
MASTER_SITE_CYGWIN               MASTER_SITE_GNOME
MASTER_SITE_GNU                  MASTER_SITE_LOCAL
MASTER_SITE_MOZILLA              MASTER_SITE_OPENOFFICE
MASTER_SITE_OVERRIDE             MASTER_SITE_PERL_CPAN
MASTER_SITE_SUNSITE              MASTER_SITE_SUSE
MASTER_SITE_TEX_CTAN             MASTER_SITE_XCONTRIB
MASTER_SITE_XEMACS               MASTER_SORT
MASTER_SORT_RANDOM               MASTER_SORT_REGEX
MECAB_CHARSET                    MEDIATOMB_GROUP
MEDIATOMB_USER                   MIPSPROBASE
MIREDO_GROUP                     MIREDO_USER
MISSING_FEATURES                 MKDIR
MLDONKEY_GROUP                   MLDONKEY_HOME
MLDONKEY_USER                    MONOTONE_GROUP
MONOTONE_USER                    MOTIFBASE
MOTIF_TYPE                       MOTIF_TYPE_DEFAULT
MPI_TYPE                         MSGFMT_STRIP_MSGCTXT
MSGFMT_STRIP_MSGID_PLURAL        MTOOLS_ENABLE_FLOPPYD
MUST                             MV
MYSQL_CHARSET                    MYSQL_DATADIR
MYSQL_EXTRA_CHARSET              MYSQL_GROUP
MYSQL_PKGSRCDIR                  MYSQL_USER
MYSQL_VERSIONS_ACCEPTED          MYSQL_VERSION_DEFAULT
NAGIOSCMD_GROUP                  NAGIOSDIR
NAGIOS_GROUP                     NAGIOS_USER
NATIVE_APPEND_ABI                NATIVE_APPEND_ELF
NATIVE_EXEC_FMT                  NATIVE_MACHINE_PLATFORM
NATIVE_OBJECT_FMT                NBPAX_PROGRAM_PREFIX
NETBSD_LOGIN_NAME                NMH_EDITOR
NMH_MTA                          NMH_PAGER
NOLOGIN                          NONZERO_FILESIZE_P
NOTE                             NOT_FOR_PLATFORM
NOT_PAX_ASLR_SAFE                NOT_PAX_MPROTECT_SAFE
NO_BUILD                         NO_CHECKSUM
NO_CONFIGURE                     NO_SKIP
NS_PREFERRED                     NULLMAILER_GROUP
NULLMAILER_USER                  OASIS
OASIS_BUILD_ARGS                 OBJHOSTNAME
OBJMACHINE                       OCAML_FINDLIB_DIRS
OCAML_FINDLIB_REGISTER           OCAML_FINDLIB_REGISTER_VERBOSE
OCAML_SITELIBDIR                 OCAML_TOPKG_DOCDIR
OCAML_USE_DUNE                   OCAML_USE_FINDLIB
OCAML_USE_JBUILDER               OCAML_USE_OASIS
OCAML_USE_OASIS_DYNRUN           OCAML_USE_OPAM
OCAML_USE_OPT_COMPILER           OCAML_USE_TOPKG
OMF                              ONLY_FOR_COMPILER
ONLY_FOR_PLATFORM                OPENSSH_CHROOT
OPENSSH_GROUP                    OPENSSH_USER
OPSYS                            OPSYS_EMULDIR
OSS_TYPE                         OSX
OSX_TOLERATE_SDK_SKEW            OS_HAVE_ALSA
OS_HAVE_RCD                      OS_VARIANT
OS_VERSION                       OTF_FONTS_DIR
OVERRIDE_DIRDEPTH                OVERRIDE_GEMSPEC
OVERRIDE_GNU_CONFIG_SCRIPTS      OVERRIDE_ROCKSPEC
OWN_DIRS                         OWN_DIRS_PERMS
P4GROUP                          P4PORT
P4ROOT                           P4USER
PACKAGES                         PALMOS_DEFAULT_SDK
PAMBASE                          PAM_DEFAULT
PAPERSIZE                        PASSIVE_FETCH
PATCHDIR                         PATCHFILES
PATCH_ARGS                       PATCH_DEBUG
PATCH_DIST_ARGS                  PATCH_DIST_CAT
PATCH_DIST_STRIP                 PATCH_FUZZ_FACTOR
PATCH_STRIP                      PATH
PCCBASE                          PEAR
PEAR_CHANNEL                     PEAR_CHANNEL_ALIAS
PEAR_CHANNEL_VERSION             PEAR_CMD
PEAR_LIB                         PEAR_PACKAGE_XML
PERL5                            PERL5_CONFIGURE
PERL5_CONFIGURE_DIRS             PERL5_LDFLAGS
PERL5_LICENSE                    PERL5_MODULE_TYPE
PERL5_PACKLIST                   PERL5_PACKLIST_DIR
PERL5_PERLBASE                   PERL5_SITEBASE
PERL5_USE_PACKLIST               PERL5_VENDORBASE
PFCTL                            PFVAR_H
PF_VERSION                       PGGROUP
PGHOME                           PGPKGSRCDIR
PGSQL_TYPE                       PGSQL_VERSIONS_ACCEPTED
PGSQL_VERSION_DEFAULT            PGUSER
PG_LIB_EXT                       PHP
PHPCOMMON_MK                     PHPPKGSRCDIR
PHP_BASE_VERS                    PHP_CHECK_INSTALLED
PHP_EXTENSION_DIR                PHP_INITIAL_TEENY
PHP_PKG_PREFIX                   PHP_VERSION
PHP_VERSIONS_ACCEPTED            PHP_VERSIONS_INCOMPATIBLE
PHP_VERSION_DEFAULT              PHP_VERSION_REQD
PILRC_USE_GTK                    PKGCONFIG_BASE
PKGCONFIG_FILE                   PKGCONFIG_OVERRIDE
PKGCONFIG_OVERRIDE_STAGE         PKGDIR
PKGGNUDIR                        PKGINFODIR
PKGLOCALEDIR                     PKGMANDIR
PKGNAME                          PKGNAME_REQD
PKGPATH                          PKGREVISION
PKGSRC_BLAS_TYPES                PKGSRC_CHANGES
PKGSRC_COMPILER                  PKGSRC_KEEP_BIN_PKGS
PKGSRC_LOCKTYPE                  PKGSRC_MAKE_ENV
PKGSRC_MESSAGE_RECIPIENTS        PKGSRC_MKPIE
PKGSRC_MKREPRO                   PKGSRC_RUN_TEST
PKGSRC_SETENV                    PKGSRC_SLEEPSECS
PKGSRC_TODO                      PKGSRC_USE_CTF
PKGSRC_USE_FORTIFY               PKGSRC_USE_RELRO
PKGSRC_USE_SSP                   PKGSRC_USE_STACK_CHECK
PKGTASKS_DATAFILE                PKGTOOLS_ARGS
PKGTOOLS_ENV                     PKG_ALTERNATIVES
PKG_APACHE                       PKG_APACHE_ACCEPTED
PKG_APACHE_DEFAULT               PKG_BEST_EXISTS
PKG_BUILD_OPTIONS                PKG_COMPRESSION
PKG_CONFIG                       PKG_CONFIG_PERMS
PKG_CREATE_USERGROUP             PKG_DB_TMPDIR
PKG_DEBUG_LEVEL                  PKG_DEFAULT_OPTIONS
PKG_DESTDIR_SUPPORT              PKG_DEVELOPER
PKG_DISABLED_OPTIONS             PKG_FATAL_ERRORS
PKG_FC                           PKG_FILELIST_CMD
PKG_GECOS                        PKG_GID
PKG_GROUPS                       PKG_GROUPS_VARS
PKG_HOME                         PKG_INIT_SCRIPTS
PKG_JAVA_HOME                    PKG_JVM
PKG_JVMS_ACCEPTED                PKG_JVM_DEFAULT
PKG_LEGACY_OPTIONS               PKG_LIBTOOL
PKG_OPTIONS                      PKG_OPTIONS_DEPRECATED_WARNINGS
PKG_OPTIONS_LEGACY_OPTS          PKG_OPTIONS_LEGACY_VARS
PKG_OPTIONS_NONEMPTY_SETS        PKG_OPTIONS_OPTIONAL_GROUPS
PKG_OPTIONS_REQUIRED_GROUPS      PKG_OPTIONS_VAR
PKG_PHP                          PKG_PHP_MAJOR_VERS
PKG_PHP_VERSION                  PKG_RCD_SCRIPTS
PKG_REFCOUNT_DBDIR               PKG_REGISTER_SHELLS
PKG_RESUME_TRANSFERS             PKG_SHELL
PKG_SUGGESTED_OPTIONS            PKG_SUPPORTED_OPTIONS
PKG_SYSCONFBASE                  PKG_SYSCONFBASEDIR
PKG_SYSCONFDIR                   PKG_SYSCONFDIR_PERMS
PKG_SYSCONFSUBDIR                PKG_SYSCONFVAR
PKG_TOOLS_BIN                    PKG_UID
PKG_UPDATE_FONTS_DB              PKG_USERS
PKG_USERS_VARS                   PKG_VERBOSE
PLIST                            PLIST_AWK
PLIST_AWK_ENV                    PLIST_SRC
PLIST_SUBST                      PLIST_TYPE
PLIST_VARS                       POPTOP_USE_MPPE
POST_FETCH_HOOK                  PREFER
PREFER_NATIVE                    PREFER_NATIVE_PTHREADS
PREFER_PKGSRC                    PREFIX
PREPEND_PATH                     PRE_ROOT_CMD
PRIVILEGED_STAGES                PS
PTHREAD_AUTO_VARS                PTHREAD_CFLAGS
PTHREAD_LDFLAGS                  PTHREAD_LIBS
PTHREAD_OPTS                     PTHREAD_TYPE
PVM_SSH                          PYPKGPREFIX
PYTHON_FOR_BUILD_ONLY            PYTHON_SELF_CONFLICT
PYTHON_VERSIONED_DEPENDENCIES    PYTHON_VERSIONS_ACCEPTED
PYTHON_VERSIONS_INCOMPATIBLE     PYTHON_VERSION_DEFAULT
PYTHON_VERSION_REQD              PYVERSSUFFIX
PY_NO_EGG                        QMAILDIR
QMAIL_ALIAS_USER                 QMAIL_DAEMON_USER
QMAIL_LOG_USER                   QMAIL_NOFILES_GROUP
QMAIL_PASSWD_USER                QMAIL_QMAIL_GROUP
QMAIL_QUEUE_DIR                  QMAIL_QUEUE_EXTRA
QMAIL_QUEUE_USER                 QMAIL_REMOTE_USER
QMAIL_ROOT_USER                  QMAIL_SEND_USER
QPOPPER_FAC                      QPOPPER_SPOOL_DIR
QPOPPER_USER                     RAKE_NAME
RASMOL_DEPTH                     RCD_DIR
RCD_ORDER                        RCD_SCRIPTS
RCD_SCRIPTS_DIR                  RCD_SCRIPTS_EXAMPLEDIR
RCD_SCRIPTS_MODE                 RCD_SCRIPTS_SHELL
RCD_SCRIPT_SRC                   RCD_SUBR
RDOC                             READLINE_DEFAULT
READLINE_TYPE                    REAL_ROOT_GROUP
REAL_ROOT_USER                   RECURSIVE_MAKE
RELAY_CTRL_DIR                   REPLACE_AWK
REPLACE_BASH                     REPLACE_CSH
REPLACE_KSH                      REPLACE_PERL
REPLACE_PERL6                    REPLACE_PHP
REPLACE_PYTHON                   REPLACE_RUBY
REPLACE_RUBY_DIRS                REPLACE_RUBY_PAT
REPLACE_SH                       REPLACE_TEXLUA
REQD_DIRS                        REQD_DIRS_PERMS
REQD_FILES                       REQD_FILES_MODE
REQD_FILES_PERMS                 RESOLV_AUTO_VARS
RESOLV_LDFLAGS                   RESOLV_LIBS
RM                               ROCKSPEC_NAME
ROCKSPEC_SPECFILE                ROOT_CMD
ROOT_GROUP                       ROOT_USER
RPCGEN                           RPM
RPM2PKG_PLIST                    RPM2PKG_PREFIX
RPM2PKG_STAGE                    RPM2PKG_STRIP
RPM2PKG_SUBPREFIX                RPMFILES
RPMIGNOREPATH                    RPM_DB_PREFIX
RSSH_CVS_PATH                    RSSH_RDIST_PATH
RSSH_RSYNC_PATH                  RSSH_SCP_PATH
RSSH_SFTP_SERVER_PATH            RUBY
RUBYGEM                          RUBYGEM_NAME
RUBYGEM_OPTIONS                  RUBY_ABI_VERSION
RUBY_ARCH                        RUBY_ARCHINC
RUBY_ARCHLIB                     RUBY_BASE
RUBY_BASERIDIR                   RUBY_BUILD_DOCUMENT
RUBY_DLEXT                       RUBY_DOC
RUBY_DYNAMIC_DIRS                RUBY_EG
RUBY_ENCODING_ARG                RUBY_EXTCONF
RUBY_EXTCONF_CHECK               RUBY_EXTCONF_DEBUG
RUBY_EXTCONF_MAKEFILE            RUBY_GEM_BASE
RUBY_INC                         RUBY_LIB
RUBY_LIB_BASE                    RUBY_NAME
RUBY_NOVERSION                   RUBY_PKGPREFIX
RUBY_RAILS                       RUBY_RAILS42_VERSION
RUBY_RAILS51_VERSION             RUBY_RAILS52_VERSION
RUBY_RAILS_ACCEPTED              RUBY_RAILS_DEFAULT
RUBY_RAILS_REQD                  RUBY_RAILS_STRICT_DEP
RUBY_RIDIR                       RUBY_SETUP
RUBY_SHLIB                       RUBY_SHLIBALIAS
RUBY_SHLIBVER                    RUBY_SIMPLE_INSTALL
RUBY_SITEARCHLIB                 RUBY_SITELIB
RUBY_SITELIB_BASE                RUBY_SITERIDIR
RUBY_SLEXT                       RUBY_SRCDIR
RUBY_STATICLIB                   RUBY_SUFFIX
RUBY_SYSRIDIR                    RUBY_USE_PTHREAD
RUBY_VENDORARCHLIB               RUBY_VENDORLIB
RUBY_VENDORLIB_BASE              RUBY_VER
RUBY_VERSION                     RUBY_VERSIONS_ACCEPTED
RUBY_VERSION_DEFAULT             RUBY_VERSION_REQD
RUBY_VER_DIR                     RUN
RUN_LDCONFIG                     SAWFISH_THEMES
SCO                              SCREWS_GROUP
SCREWS_USER                      SCRIPTS_ENV
SCROLLKEEPER_DATADIR             SCROLLKEEPER_REBUILDDB
SCROLLKEEPER_UPDATEDB            SDIST_PAWD
SERIAL_DEVICES                   SETGIDGAME
SETGID_GAMES_PERMS               SETUID_ROOT_PERMS
SH                               SHLIB
SHORTNAME                        SIGN_PACKAGES
SILC_CLIENT_WITH_PERL            SITE_SPECIFIC_PKGS
SKIP_DEPENDS                     SMF_INSTANCES
SMF_MANIFEST                     SMF_METHODS
SMF_METHOD_SHELL                 SMF_METHOD_SRC
SMF_NAME                         SMF_PREFIX
SMF_SRCDIR                       SNIPROXY_GROUP
SNIPROXY_USER                    SOURCE_BUFFSIZE
SPECIAL_PERMS                    SPECIFIC_PKGS
SSH_SUID                         SSP_SUPPORTED
SSYNC_PAWD                       STEP_MSG
STRIP                            STRIP_DBG
STRIP_DEBUG                      STRIP_DEBUG_SUPPORTED
STRIP_FILES_SKIP                 SU
SUBDIR                           SUBST_CLASSES
SUBST_FILES                      SUBST_FILTER_CMD
SUBST_MESSAGE                    SUBST_SED
SUBST_SHOW_DIFF                  SUBST_SKIP_TEXT_CHECK
SUBST_STAGE                      SUBST_VARS
SUNWSPROBASE                     SUSE_PREFER
SU_CMD                           SVN_EXTRACTDIR
SVN_REPO                         SVN_REPOSITORIES
SVN_REVISION                     TERMCAP_TYPE
TERMINFO_DEFAULT                 TERMINFO_TYPE
TEST                             TEST_DEPENDS
TEST_DIRS                        TEST_ENV
TEST_MAKE_CMD                    TEST_MAKE_FLAGS
TEST_TARGET                      TEXLIVE_IGNORE_PATTERNS
TEXLIVE_REV                      TEXLIVE_UNVERSIONED
TEXMFSITE                        TEX_FORMATS
TEX_HYPHEN_DAT                   TEX_HYPHEN_DEF
TEX_TEXMF_DIRS                   THTTPD_LOG_FACILITY
TO                               TOOLS_ALIASES
TOOLS_ARGS                       TOOLS_BROKEN
TOOLS_CMD                        TOOLS_CREATE
TOOLS_DIR                        TOOLS_FAIL
TOOLS_GNU_MISSING                TOOLS_LDCONFIG
TOOLS_NOOP                       TOOLS_PATH
TOOLS_SCRIPT                     TOOL_DEPENDS
TTF_FONTDIR                      TTF_FONTS_DIR
TYPE                             UAC_REQD_EXECS
UCSPI_SSL_GROUP                  UCSPI_SSL_USER
UNLIMIT_RESOURCES                UNPRIVILEGED
UNPRIVILEGED_GROUP               UNPRIVILEGED_GROUPS
UNPRIVILEGED_USER                UNWRAP_FILES
UNWRAP_PATTERNS                  UPDATE_GEMSPEC
UPDATE_TARGET                    URI
USA                              USERGROUP_PHASE
USERPPP_GROUP                    USER_SPECIFIC_PKGS
USE_ABI_DEPENDS                  USE_APR
USE_BSD_MAKEFILE                 USE_BUILTIN
USE_CROSS_COMPILE                USE_CURSES
USE_CWRAPPERS                    USE_DB185
USE_FEATURES                     USE_GAMESGROUP
USE_GCC_RUNTIME                  USE_IMAKE
USE_JAVA                         USE_JAVA2
USE_LANGUAGES                    USE_LIBTOOL
USE_NATIVE_GCC                   USE_NETBSD_REPO
USE_PKGSRC_GCC                   USE_PKGSRC_GCC_RUNTIME
USE_PKGTASKS                     USE_RUBY_EXTCONF
USE_RUBY_INSTALL                 USE_RUBY_SETUP
USE_RUBY_SETUP_PKG               USE_TOOLS
UUCP_GROUP                       UUCP_USER
VARBASE                          VARNAME
VIM_EXTRA_OPTS                   WARNING_MSG
WCALC_CGIDIR                     WCALC_CGIPATH
WCALC_HTMLDIR                    WCALC_HTMLPATH
WDM_MANAGERS                     WRAPPER_REORDER_CMDS
WRKDIR                           WRKDIR_BASENAME
WRKDIR_LOCKTYPE                  WRKLOG
WRKOBJDIR                        WRKSRC
WXGTK_ACCEPTED                   WXGTK_DEFAULT
X10_PORT                         X11
X11BASE                          X11_PKGSRCDIR
X11_TYPE                         X509_CERTIFICATE
X509_KEY                         XAW_TYPE
XLOCK_DEFAULT_MODE               XMKMF_FLAGS
XXX                              XXXX
YES                              ZERO_FILESIZE_P
ZSH_STATIC                       __stdc__
_vargroups                       add
all                              alternatives
aslr                             asprintf
atlas                            autoconf
automake                         autoreconf
awk                              bash
big-endian                       bin-install
binpkg-list                      blas
bootstrap-depends                broken
broken_on_platform               build
build-env                        buildlink-directories
buildlink-oss-soundcard-h        c
c++                              ccache
cce                              cdefs
changes                          changes-entry
changes-entry-noupdate           check
check-clean                      check-files
check-files-clean                check-vulnerable
checksum                         checksum-phase
clean                            clean-depends
cleandir                         commit
commit-changes-entry             compact
compiler                         conf
config.guess                     config.sub
configuration                    configure
configure-help                   configure_args
cputime                          create-usergroup
csh                              ctf
cvs                              debug
declaration                      declare
defined                          depend
dependencies                     depends
depends-checksum                 depends-fetch
deps                             describe
destdir                          disable
distclean                        distinfo
dl                               dlopen
do-build                         do-buildlink
do-clean                         do-configure-post-hook
do-extract                       do-fetch
do-install                       emul
emulation                        emulator
enable                           endian
enomem                           err
errx                             etc
feature                          features
fetch                            fetch-list
follows                          forbids
form                             format
fortify                          fortify_source
fossil                           friend
from                             fts
fts_close                        fts_open
fts_read                         fts_set
full                             gcc
getopt_long                      getprogname
gettext                          git
github                           glob
gnu                              gnu_configure_strict
go                               go-deps
golang                           guess-license
hashbang                         heimdal
help                             hg
imake                            increment
interp                           interpreter
intl                             iso
kerberos                         krb
krb5                             ksh
lapack                           latex
libnbcompat                      libs
libtool                          licence
license                          lintl
little-endian                    lock
locking                          lvalue
make                             makesum
memory                           mercurial
meta                             meta-package
meta_package                     mit-krb5
mk.conf                          mkl
mount                            mprotect
mremap                           nb
nbcompat                         no
obstack                          obstack_ptr_grow
occurs                           only
openblas                         options
options.mk                       order
override                         override-intltool
override-message-intltool        package
parallel                         partial
path                             pax
paxctl                           pbulk-index
pc                               perl
perl5                            perms
php                              pkg-build-options
pkg-config                       pkg_build_options
platform                         plist
post-extract                     post-fetch
post-wrapper                     pre-configure
pre-extract                      pre-fetch
print-go-deps                    print-plist
print-summary-data               privileged-install-hook
pypi                             python
readme-all                       regcomp
relro                            rename
reorder                          replace
replace_interpreter              reproducible
resolv                           root
ruby                             setenv
setgid                           setprogname
setuid                           sh
show                             show-all
show-build-defs                  show-depends
show-deps                        show-distfiles
show-downlevel                   show-subdir-var
show-tools                       show-var
show-vars                        snprintf
ssp                              st_mode
stage-install                    strict
strip                            strnlen
strong                           subst
subversion                       sun
sunpro                           sunwspro
svn                              symlink
test                             tex
texlive                          tmp
tool                             tools
tools-libtool-m4-override        type
ulimit                           undefined
undo-replace                     unlimit
unprivileged                     unprivileged-install-hook
unstripped                       update
upload                           upload-distfiles
usage                            use_tools
user                             utimes
vasprintf                        verbose
vsnprintf                        warn
warning                          warnings
warnx                            weak
work                             wrapper
wrkdir                           yes

Appendix E. Editing guidelines for the pkgsrc guide

Table of Contents

E.1. Make targets
E.2. Procedure

This section contains information on editing the pkgsrc guide itself.

E.1. Make targets

The pkgsrc guide's source code is stored in pkgsrc/doc/guide/files, and several
files are created from it:

  * pkgsrc/doc/pkgsrc.txt

  * pkgsrc/doc/pkgsrc.html

  * http://www.NetBSD.org/docs/pkgsrc/

  * http://www.NetBSD.org/docs/pkgsrc/pkgsrc.pdf: The PDF version of the pkgsrc
    guide.

  * http://www.NetBSD.org/docs/pkgsrc/pkgsrc.ps: PostScript version of the
    pkgsrc guide.

E.2. Procedure

The procedure to edit the pkgsrc guide is:

 1. Make sure you have the packages needed to regenerate the pkgsrc guide (and
    other XML-based NetBSD documentation) installed. These are automatically
    installed when you install the meta-pkgs/pkgsrc-guide-tools package.

 2. Run cd doc/guide to get to the right directory. All further steps will take
    place here.

 3. Edit the XML file(s) in files/.

 4. Run bmake to check the pkgsrc guide for valid XML and to build the final
    output files. If you get any errors at this stage, you can just edit the
    files, as there are only symbolic links in the working directory, pointing
    to the files in files/.

 5. (cd files && cvs commit)

 6. Run bmake clean && bmake to regenerate the output files with the proper RCS
    Ids.

 7. Run bmake regen to install and commit the files in both pkgsrc/doc and
    htdocs.

    Note

    If you have added, removed or renamed some chapters, you need to
    synchronize them using cvs add or cvs delete in the htdocs directory.