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freebsd-src/crypto/openssl/providers/build.info
Pierre Pronchery b077aed33b Merge OpenSSL 3.0.9 
Migrate to OpenSSL 3.0 in advance of FreeBSD 14.0.  OpenSSL 1.1.1 (the
version we were previously using) will be EOL as of 2023-09-11.

Most of the base system has already been updated for a seamless switch
to OpenSSL 3.0.  For many components we've added
`-DOPENSSL_API_COMPAT=0x10100000L` to CFLAGS to specify the API version,
which avoids deprecation warnings from OpenSSL 3.0.  Changes have also
been made to avoid OpenSSL APIs that were already deprecated in OpenSSL
1.1.1.  The process of updating to contemporary APIs can continue after
this merge.

Additional changes are still required for libarchive and Kerberos-
related libraries or tools; workarounds will immediately follow this
commit.  Fixes are in progress in the upstream projects and will be
incorporated when those are next updated.

There are some performance regressions in benchmarks (certain tests in
`openssl speed`) and in some OpenSSL consumers in ports (e.g.  haproxy).
Investigation will continue for these.

Netflix's testing showed no functional regression and a rather small,
albeit statistically significant, increase in CPU consumption with
OpenSSL 3.0.

Thanks to ngie@ and des@ for updating base system components, to
antoine@ and bofh@ for ports exp-runs and port fixes/workarounds, and to
Netflix and everyone who tested prior to commit or contributed to this
update in other ways.

PR:		271615
PR:		271656 [exp-run]
Relnotes:	Yes
Sponsored by:	The FreeBSD Foundation
2023-06-23 18:53:36 -04:00

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# libcommon.a Contains common building blocks and other routines,
# potentially needed by any of our providers.
#
# libfips.a Contains all algorithm implementations that should
# go in the FIPS provider. The compilations for this
# library are all done with FIPS_MODULE defined.
#
# liblegacy.a Contains all algorithm implementations that should
# go into the legacy provider. The compilations for
# this library are all done with STATIC_LEGACY defined.
#
# libdefault.a Contains all algorithm implementations that should
# into the default or base provider.
#
# To be noted is that the FIPS provider shares source code with libcrypto,
# which means that select source files from crypto/ are compiled for
# libfips.a the sources from providers/implementations.
#
# This is how a provider module should be linked:
#
# -o {modulename}.so {object files...} lib{modulename}.a libcommon.a
#
# It is crucial that code that checks the FIPS_MODULE macro ends up in
# libfips.a.
# It is crucial that code that checks the STATIC_LEGACY macro ends up in
# liblegacy.a.
# It is recommended that code that is written for libcommon.a doesn't end
# up depending on libfips.a, liblegacy.a or libdefault.a
#
# Code in providers/implementations/ should be written in such a way that
# the OSSL_DISPATCH arrays (and preferably the majority of the actual code)
# end up in either libfips.a, liblegacy.a or libdefault.a.
SUBDIRS=common implementations
INCLUDE[../libcrypto]=common/include
# Libraries we're dealing with
$LIBCOMMON=libcommon.a
$LIBFIPS=libfips.a
$LIBLEGACY=liblegacy.a
$LIBDEFAULT=libdefault.a
LIBS{noinst}=$LIBDEFAULT $LIBCOMMON
# Enough of our implementations include prov/ciphercommon.h (present in
# providers/implementations/include), which includes crypto/*_platform.h
# (present in include), which in turn may include very internal header
# files in crypto/, so let's have a common include list for them all.
$COMMON_INCLUDES=../crypto ../include implementations/include common/include
INCLUDE[$LIBCOMMON]=$COMMON_INCLUDES
INCLUDE[$LIBFIPS]=.. $COMMON_INCLUDES
INCLUDE[$LIBLEGACY]=.. $COMMON_INCLUDES
INCLUDE[$LIBDEFAULT]=.. $COMMON_INCLUDES
DEFINE[$LIBFIPS]=FIPS_MODULE
# Weak dependencies to provide library order information. What is actually
# used is determined by non-weak dependencies.
DEPEND[$LIBCOMMON]{weak}=../libcrypto
# Strong dependencies. This ensures that any time an implementation library
# is used, libcommon gets included as well.
# The $LIBFIPS dependency on $LIBCOMMON is extra strong, to mitigate for
# linking problems because they are interdependent
SOURCE[$LIBFIPS]=$LIBCOMMON
DEPEND[$LIBLEGACY]=$LIBCOMMON
DEPEND[$LIBDEFAULT]=$LIBCOMMON
#
# Default provider stuff
#
# Because the default provider is built in, it means that libcrypto must
# include all the object files that are needed (we do that indirectly,
# by using the appropriate libraries as source). Note that for shared
# libraries, SOURCEd libraries are considered as if they were specified
# with DEPEND.
$DEFAULTGOAL=../libcrypto
SOURCE[$DEFAULTGOAL]=$LIBDEFAULT defltprov.c
INCLUDE[$DEFAULTGOAL]=implementations/include
#
# Base provider stuff
#
# Because the base provider is built in, it means that libcrypto must
# include all of the object files that are needed, just like the default
# provider.
$BASEGOAL=../libcrypto
SOURCE[$BASEGOAL]=$LIBDEFAULT baseprov.c
INCLUDE[$BASEGOAL]=implementations/include
#
# FIPS provider stuff
#
# We define it this way to ensure that configdata.pm will have all the
# necessary information even if we don't build the module. This will allow
# us to make all kinds of checks on the source, based on what we specify in
# diverse build.info files. libfips.a, fips.so and their sources aren't
# built unless the proper LIBS or MODULES statement has been seen, so we
# have those and only those within a condition.
IF[{- !$disabled{fips} -}]
SUBDIRS=fips
$FIPSGOAL=fips
# This is the trigger to actually build the FIPS module. Without these
# statements, the final build file will not have a trace of it.
MODULES{fips}=$FIPSGOAL
LIBS{noinst}=$LIBFIPS
DEPEND[$FIPSGOAL]=$LIBFIPS
INCLUDE[$FIPSGOAL]=../include
DEFINE[$FIPSGOAL]=FIPS_MODULE
IF[{- defined $target{shared_defflag} -}]
SOURCE[$FIPSGOAL]=fips.ld
GENERATE[fips.ld]=../util/providers.num
ENDIF
DEPEND[|build_modules_nodep|]=fipsmodule.cnf
GENERATE[fipsmodule.cnf]=../util/mk-fipsmodule-cnf.pl \
-module $(FIPSMODULE) -section_name fips_sect -key $(FIPSKEY)
DEPEND[fipsmodule.cnf]=$FIPSGOAL
# Add VERSIONINFO resource for windows
IF[{- $config{target} =~ /^(?:Cygwin|mingw|VC-|BC-)/ -}]
GENERATE[fips.rc]=../util/mkrc.pl fips
SOURCE[$FIPSGOAL]=fips.rc
ENDIF
ENDIF
#
# Legacy provider stuff
#
IF[{- !$disabled{legacy} -}]
LIBS{noinst}=$LIBLEGACY
IF[{- $disabled{module} -}]
# Become built in
# In this case, we need to do the same thing a for the default provider,
# and make the liblegacy object files end up in libcrypto. We could also
# just say that for the built-in legacy, we put the source directly in
# libcrypto instead of going via liblegacy, but that makes writing the
# implementation specific build.info files harder to write, so we don't.
$LEGACYGOAL=../libcrypto
SOURCE[$LEGACYGOAL]=$LIBLEGACY
DEFINE[$LEGACYGOAL]=STATIC_LEGACY
ELSE
# Become a module
# In this case, we can work with dependencies
$LEGACYGOAL=legacy
MODULES=$LEGACYGOAL
DEPEND[$LEGACYGOAL]=$LIBLEGACY ../libcrypto
IF[{- defined $target{shared_defflag} -}]
SOURCE[legacy]=legacy.ld
GENERATE[legacy.ld]=../util/providers.num
ENDIF
# Add VERSIONINFO resource for windows
IF[{- $config{target} =~ /^(?:Cygwin|mingw|VC-|BC-)/ -}]
GENERATE[legacy.rc]=../util/mkrc.pl legacy
SOURCE[$LEGACYGOAL]=legacy.rc
ENDIF
SOURCE[$LIBLEGACY]=prov_running.c
ENDIF
# Common things that are valid no matter what form the Legacy provider
# takes.
SOURCE[$LEGACYGOAL]=legacyprov.c
INCLUDE[$LEGACYGOAL]=../include implementations/include common/include
ENDIF
#
# Null provider stuff
#
# Because the null provider is built in, it means that libcrypto must
# include all the object files that are needed.
$NULLGOAL=../libcrypto
SOURCE[$NULLGOAL]=nullprov.c prov_running.c
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