mirror of
https://github.com/openssl/openssl.git
synced 2024-12-21 06:09:35 +08:00
57cd10dd1e
Reviewed-by: Tomas Mraz <tomas@openssl.org> Reviewed-by: Shane Lontis <shane.lontis@oracle.com> (Merged from https://github.com/openssl/openssl/pull/16641)
645 lines
18 KiB
Plaintext
645 lines
18 KiB
Plaintext
=pod
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=head1 NAME
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build.info - Building information files
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=head1 SYNOPSIS
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B<IF[>0|1B<]>
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B<ELSIF[>0|1B<]>
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B<ELSE>
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B<ENDIF>
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B<SUBDIRS=> I<dir> ...
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B<PROGRAMS=> I<name> ...
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B<LIBS=> I<name> ...
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B<MODULES=> I<name> ...
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B<SCRIPTS=> I<name> ...
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B<DEPEND[>I<items>B<]=> I<otheritem> ...
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B<GENERATE[>I<item>B<]=> I<generator> I<generator-args> ...
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B<SOURCE[>I<item>B<]=> I<file> ...
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B<SHARED_SOURCE[>I<item>B<]=> I<file> ...
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B<DEFINE[>I<items>B<]=> I<name>[B<=>I<value>] ...
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B<INCLUDE[>I<items>B<]=> I<dir> ...
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B<$>I<VARIABLE>B<=>I<value>
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=head1 DESCRIPTION
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OpenSSL's build system revolves around three questions:
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=over 4
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=item What to build for?
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This is about choice of platform (combination of hardware, operating
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system, and toolchain).
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=item What to build?
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This is about having all the information on what needs to be built and
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from what.
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=item How to build it?
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This is about build file generation.
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=back
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This document is all about the second item, "What to build?", and most
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of all, how to specify that information.
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For some terms used in this document, please see the L</GLOSSARY> at
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the end.
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=head2 F<build.info> files
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F<build.info> files are meta data files for OpenSSL's built file
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generators, and are used to specify exactly what end product files
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(programs, libraries, modules or scripts) are to be produced, and from
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what sources.
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Intermediate files, such as object files, are seldom referred to at
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all. They sometimes can be, if there's a need, but this should happen
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very rarely, and support for that sort of thing is added on as-needed
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basis.
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Any time a directory or file is expected in a statement value, Unix
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syntax must be used, which means that the slash C</> must be used as
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the directory separator.
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=head2 General syntax
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=head3 Comments
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Comments are any line that start with a hash sign (C<#>). The hash
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sign may be preceded by any number of horizontal spaces.
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=head3 Filenames
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F<build.info> files are platform agnostic. This means that there is
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some information in them that is representative rather than specific.
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This is particularly visible with end product names, they work more
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like a tag than as the actual filename that's going to be produced.
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This is because different platforms have different decorations on
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different types of files.
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For example, if we say that we want to produce a program C<foo>, it
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would look like this:
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PROGRAM=foo
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However, the program filename may end up being just C<foo> (typical
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for Unix), or C<foo.exe> (typical for Windows), or even C<BLAH$FOO.EXE>
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(possible on VMS, depending on policy).
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These platform specific decorations are not the concern of
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F<build.info> files. The build file generators are responsible for
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transforming these platform agnostic names to their platform specific
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counterparts.
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=head3 Statements
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With the exception of variables and conditions, the general statement
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syntax is one of:
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=over 4
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=item B<I<KEYWORD>> B<=> I<value> ...
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=item B<I<KEYWORD>[>I<items>B<]> B<=> I<value> ...
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=back
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Every B<I<KEYWORD>> represents some particular type of information.
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The first form (sometimes called "plain statement") is used to specify
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information on what end products need to be built, for example:
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PROGRAMS=foo bar
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LIBS=libpoly libcookie
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MODULES=awesome-plugin
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SCRIPTS=tool1 tool2
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SUBDIRS=dir1 dir2
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This says that we want to build programs C<foo> and C<bar>, the
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libraries C<libpoly> and C<libcookie>, an awesome plugin module
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C<awesome-plugin>, a couple of scripts C<tool1> and C<tool2>, and
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finally that there are more F<build.info> files in subdirectories
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C<dir1> and C<dir2>.
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The second form (sometimes called "indexed statement") is used to
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specify further details for existing items, for example:
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SOURCE[foo]=foo.c details.c
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DEPEND[foo]=libcookie
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This says that the program C<foo> is built from the source files
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F<foo.c> and F<details.c>, and that it depends on the library
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C<libcookie> (in other words, the library will be included when
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linking that program together).
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Multiple space separated items are allowed too:
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SOURCE[foo]=foo.c
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SOURCE[details]=details.c
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DEPEND[foo details]=libcookie
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For any indexed statement for which the items haven't been specified
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through any plain statement, or where the items exists but the indexed
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statement does not apply, the value is simply ignored by the build
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file generators.
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=head3 Statement attributes
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Some statements can have attributes added to them, to allow for
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variations on how they are treated.
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=over 4
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=item B<I<KEYWORD>{> I<attrib> | I<attrib>B<=>I<attrib-value> [,...]B<}>
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B<=> I<value> ...
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=item B<I<KEYWORD>[>I<items>B<]{> I<attrib> | I<attrib>B<=>I<attrib-value>
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[,...]B<}> B<=> I<value> ...
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=back
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Attributes are passed as they are to the build file generators, and
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the exact interpretation of those attributes is entirely up to them
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(see L</Known attributes> below for details).
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A current example:
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LIBS{noinst,has_main}=libtestutil.a
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This says that the static library C<libtestutil.a> should not be
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installed (C<noinst>), and that it includes an object file that has
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the C<main> symbol (C<has_main>). Most platforms don't need to know
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the latter, but there are some where the program linker will not look
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for C<main> in libraries unless it's explicitly told so, so this is
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way to tell the build file generator to emit the necessary command
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options to make that happen.
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Attributes are accumulated globally. This means that a library could
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be given like this in different places:
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# Location 1
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LIBS=libwhatever
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# Location 2
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LIBS{noinst}=libwhatever
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# Location 3
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LIBS{has_main}=libwhatever
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The end result is that the library C<libwhatever> will have the
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attributes C<noinst> and C<has_main> attached to it.
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=head3 Quoting and tokens
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Statement values are normally split into a list of tokens, separated
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by spaces.
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To avoid having a value split up into several tokens, they may be
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quoted with double (C<">) or single (C<'>) quotes.
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For example:
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PROGRAMS=foo "space cadet" bar
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This says that we sant to build three programs, C<foo>, C<space cadet>
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and C<bar>.
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=head3 Conditionals
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F<build.info> files include a very simple condition system, involving
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the following keywords:
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=over 4
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=item B<IF[>0|1B<]>
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=item B<ELSIF[>0|1B<]>
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=item B<ELSE>
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=item B<ENDIF>
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=back
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This works like any condition system with similar syntax, and the
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condition value in B<IF> and B<ELSIF> can really be any literal value
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that perl can interpret as true or false.
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Conditional statements are nesting.
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In itself, this is not very powerful, but together with L</Perl nuggets>,
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it can be.
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=head3 Variables
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F<build.info> handles simple variables. They are defined by
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assignment:
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=over 4
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=item B<$>I<NAME> B<=> I<value>
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=back
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These variables can then be used as part of any statement value or
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indexed statement item. This should be used with some care, as
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I<variables are expanded into their values before the value they are
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part of is tokenized>.
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I<Variable assignment values are not tokenized.>
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Variable references can be one of:
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=over 4
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=item B<$>I<NAME> or B<${>I<NAME>B<}>
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Simple reference; the variable reference is replaced with its value,
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verbatim.
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=item B<${>I<NAME>B</>I<str>B</>I<subst>B<}>
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Substitution reference; the variable reference is replaced with its
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value, modified by replacing all occurrences of I<str> with I<subst>.
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=back
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=head2 Scope
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Most of the statement values are accumulated globally from all the
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F<build.info> files that are digested. There are two exceptions,
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F<build.info> variables and B<SUBDIRS> statement, for which the scope
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is the F<build.info> file they are in.
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=head2 Perl nuggets
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Whenever a F<build.info> file is read, it is passed through the Perl
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template processor L<OpenSSL::Template>, which is a small extension of
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L<Text::Template>.
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Perl nuggets are anything between C<{-> and C<-}>, and whatever the
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result from such a nugget is, that value will replace the nugget in
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text form. This is useful to get dynamically generated F<build.info>
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statements, and is most often seen used together with the B<IF> and
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B<ELSIF> conditional statements.
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For example:
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IF[{- $disabled{something} -}]
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# do whatever's needed when "something" is disabled
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ELSIF[{- $somethingelse eq 'blah' -}]
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# do whatever's needed to satisfy this condition
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ELSE
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# fallback
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ENDIF
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Normal Perl scope applies, so it's possible to have an initial perl
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nugget that sets diverse global variables that are used in later
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nuggets. Each nugget is a Perl block of its own, so B<my> definitions
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are only in scope within the same nugget, while B<our> definitions are
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in scope within the whole F<build.info> file.
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=head1 REFERENCE
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=head2 Conditionals
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=over 4
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=item B<IF[>0|1B<]>
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If the condition is true (represented as C<1> here), everything
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between this B<IF> and the next corresponding B<ELSIF> or B<ELSE>
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applies, and the rest until the corresponding B<ENDIF> is skipped
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over.
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If the condition is false (represented as C<0> here), everything
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from this B<IF> is skipped over until the next corresponding B<ELSIF>
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or B<ELSE>, at which point processing continues.
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=item B<ELSE>
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If F<build.info> statements have been skipped over to this point since
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the corresponding B<IF> or B<ELSIF>, F<build.info> processing starts
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again following this line.
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=item B<ELSIF[>0|1B<]>
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This is B<ELSE> and B<IF> combined.
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=item B<ENDIF>
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Marks the end of a conditional.
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=back
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=head2 Plain statements
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=over 4
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=item B<SUBDIRS=> I<dir> ...
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This instructs the F<build.info> reader to also read the F<build.info>
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file in every specified directory. All directories should be given
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relative to the location of the current F<build.info> file.
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=item B<PROGRAMS=> I<name> ...
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Collects names of programs that should be built.
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B<PROGRAMS> statements may have attributes, which apply to all the
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programs given in such a statement. For example:
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PROGRAMS=foo
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PROGRAMS{noinst}=bar
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With those two lines, the program C<foo> will not have the attribute
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C<noinst>, while the program C<bar> will.
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=item B<LIBS=> I<name> ...
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Collects names of libraries that should be built.
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The normal case is that libraries are built in both static and shared
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form. However, if a name ends with C<.a>, only the static form will
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be produced.
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Similarly, libraries may be referred in indexed statements as just the
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plain name, or the name including the ending C<.a>. If given without
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the ending C<.a>, any form available will be used, but if given with
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the ending C<.a>, the static library form is used unconditionally.
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B<LIBS> statements may have attributes, which apply to all the
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libraries given in such a statement. For example:
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LIBS=libfoo
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LIBS{noinst}=libbar
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With those two lines, the library C<libfoo> will not have the
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attribute C<noinst>, while the library C<libbar> will.
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=item B<MODULES=> I<name>
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Collects names of dynamically loadable modules that should be built.
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B<MODULES> statements may have attributes, which apply to all the
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modules given in such a statement. For example:
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MODULES=foo
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MODULES{noinst}=bar
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With those two lines, the module C<foo> will not have the attribute
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C<noinst>, while the module C<bar> will.
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=item B<SCRIPTS=> I<name>
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Collects names of scripts that should be built, or that just exist.
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That is how they differ from programs, as programs are always expected
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to be compiled from multiple sources.
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B<SCRIPTS> statements may have attributes, which apply to all the
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scripts given in such a statement. For example:
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SCRIPTS=foo
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SCRIPTS{noinst}=bar
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With those two lines, the script C<foo> will not have the attribute
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C<noinst>, while the script C<bar> will.
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=back
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=head2 Indexed statements
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=over 4
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=item B<DEPEND[>I<items>B<]> B<=> I<file> ...
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Collects dependencies, where I<items> depend on the given I<file>s.
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As a special case, the I<items> may be empty, for which the build file
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generators should make the whole build depend on the given I<file>s,
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rather than the specific I<items>.
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The I<items> may be any program, library, module, script, or any
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filename used as a value anywhere.
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The I<items> may also be literal build file targets. Those are
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recognised by being surrounded be vertical bars (also known as the
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"pipe" character), C<|>. For example:
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DEPEND[|tests|]=fipsmodule.cnf
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B<DEPEND> statements may have attributes, which apply to each
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individual dependency in such a statement. For example:
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DEPEND[libfoo.a]=libmandatory.a
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DEPEND[libfoo.a]{weak}=libbar.a libcookie.a
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With those statements, the dependency between C<libfoo.a> and
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C<libmandatory.a> is strong, while the dependency between C<libfoo.a>
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and C<libbar.a> and C<libcookie.a> is weak. See the description of
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B<weak> in L</Known attributes> for more information.
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=item B<GENERATE[>I<item>B<]> B<=> I<generator> I<generator-arg> ...
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This specifies that the I<item> is generated using the I<generator>
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with the I<generator-arg>s as arguments, plus the name of the output
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file as last argument.
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For I<generator>s where this is applicable, any B<INCLUDE> statement
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for the same I<item> will be given to the I<generator> as its
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inclusion directories. Likewise, any B<DEPEND> statement for the same
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I<item> will be given to the I<generator> as an extra file or module
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to load, where this is applicable.
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The build file generators must be able to recognise the I<generator>.
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Currently, they at least recognise files ending in C<.pl>, and will
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execute them to generate the I<item>, and files ending in C<.in>,
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which will be used as input for L<OpenSSL::Template> to generate
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I<item> (in other words, we use the exact same style of
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L</Perl nuggets> mechanism that is used to read F<build.info> files).
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=item B<SOURCE[>I<item>B<]> B<=> I<file> ...
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Collects filenames that will be used as source files for I<item>.
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The I<item> must be a singular item, and may be any program, library,
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module or script given with B<PROGRAMS>, B<LIBS>, B<MODULES> and
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B<SCRIPTS>.
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Static libraries may be sources. In that case, its object files are
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used directly when building I<item> instead of relying on library
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dependency and symbol resolution (through B<DEPEND> statements).
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B<SOURCE> statements may have attributes, which apply to each
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individual dependency in such a statement. For example:
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SOURCE[prog]=prog_a.c
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SOURCE[prog]{check}=prog_b.c prog_c.c
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With those statements, the association between C<prog> and C<prog_a.c>
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comes with no extra attributes, while the association between C<prog>
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and C<prog_b.c> as well as C<prog_c.c> comes with the extra attribute
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C<check>.
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=item B<SHARED_SOURCE[>I<item>B<]> B<=> I<file> ...
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Collects filenames that will be used as source files for I<item>.
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The I<item> must be a singular item, and may be any library or module
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given with B<LIBS> or B<MODULES>. For libraries, the given filenames
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are only used for their shared form, so if the item is a library name
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ending with C<.a>, the filenames will be ignored.
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B<SHARED_SOURCE> statements may have attributes, just as B<SOURCE>
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statements.
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=item B<DEFINE[>I<items>B<]> B<=> I<name>[B<=>I<value>] ...
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Collects I<name> / I<value> pairs (or just I<name> with no defined
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value if no I<value> is given) associated with I<items>.
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The build file generators will decide what to do with them. For
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example, these pairs should become C macro definitions whenever a
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C<.c> file is built into an object file.
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=item B<INCLUDE[>I<items>B<]> B<=> I<dir> ...
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Collects inclusion directories that will be used when building the
|
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I<items> components (object files and whatever else). This is used at
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the discretion of the build file generators.
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|
|
=back
|
|
|
|
=head2 Known attributes
|
|
|
|
Note: this will never be a complete list of attributes.
|
|
|
|
=over 4
|
|
|
|
=item B<noinst>
|
|
|
|
This is used to specify that the end products this is set for should
|
|
not be installed, that they are only internal. This is applicable on
|
|
internal static libraries, or on test programs.
|
|
|
|
=item B<misc>
|
|
|
|
This is used with B<SCRIPTS>, to specify that some scripts should be
|
|
installed in the "misc" directory rather than the normal program
|
|
directory.
|
|
|
|
=item B<engine>
|
|
|
|
This is used with B<MODULES>, to specify what modules are engines and
|
|
should be installed in the engines directory instead of the modules
|
|
directory.
|
|
|
|
=item B<weak>
|
|
|
|
This is used with B<DEPEND> where libraries are involved, to specify
|
|
that the dependency between two libraries is weak and is only there to
|
|
infer order.
|
|
|
|
Without this attribute, a dependency between two libraries, expressed
|
|
like this, means that if C<libfoo.a> appears in a linking command
|
|
line, so will C<libmandatory.a>:
|
|
|
|
DEPEND[libfoo.a]=libmandatory.a
|
|
|
|
With this attribute, a dependency between two libraries, expressed
|
|
like this, means that if I<both> C<libfoo.a> and C<libmandatory.a>
|
|
appear in a linking command line (because of recursive dependencies
|
|
through other libraries), they will be ordered in such a way that this
|
|
dependency is maintained:
|
|
|
|
DEPEND[libfoo.a]{weak}=libfoo.a libcookie.a
|
|
|
|
This is useful in complex dependency trees where two libraries can be
|
|
used as alternatives for each other. In this example, C<lib1.a> and
|
|
C<lib2.a> have alternative implementations of the same thing, and
|
|
C<libmandatory.a> has unresolved references to that same thing, and is
|
|
therefore depending on either of them, but not both at the same time:
|
|
|
|
DEPEND[program1]=libmandatory.a lib1.a
|
|
DEPEND[program2]=libmandatory.a lib2.a
|
|
DEPEND[libmandatory]{weak}=lib1.a lib2.a
|
|
|
|
=back
|
|
|
|
=head1 GLOSSARY
|
|
|
|
=over 4
|
|
|
|
=item "build file"
|
|
|
|
This is any platform specific file that describes the complete build,
|
|
with platform specific commands. On Unix, this is typically
|
|
F<Makefile>; on VMS, this is typically F<descrip.mms>.
|
|
|
|
=item "build file generator"
|
|
|
|
Perl code that generates build files, given configuration data and
|
|
data collected from F<build.info> files.
|
|
|
|
=item "plain statement"
|
|
|
|
Any F<build.info> statement of the form B<I<KEYWORD>>=I<values>, with
|
|
the exception of conditional statements and variable assignments.
|
|
|
|
=item "indexed statement"
|
|
|
|
Any F<build.info> statement of the form B<I<KEYWORD>[>I<items>B<]=>I<values>,
|
|
with the exception of conditional statements.
|
|
|
|
=item "intermediate file"
|
|
|
|
Any file that's an intermediate between a source file and an end
|
|
product.
|
|
|
|
=item "end product"
|
|
|
|
Any file that is mentioned in the B<PROGRAMS>, B<LIBS>, B<MODULES> or
|
|
B<SCRIPTS>.
|
|
|
|
=back
|
|
|
|
=head1 SEE ALSO
|
|
|
|
For OpenSSL::Template documentation,
|
|
C<perldoc -o man util/perl/OpenSSL/Template.pm>
|
|
|
|
L<Text::Template|https://metacpan.org/pod/Text::Template>
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright 2019-2021 The OpenSSL Project Authors. All Rights Reserved.
|
|
|
|
Licensed under the Apache License 2.0 (the "License"). You may not use this
|
|
file except in compliance with the License. You can obtain a copy in the file
|
|
LICENSE in the source distribution or at
|
|
L<https://www.openssl.org/source/license.html>.
|
|
|
|
=cut
|