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#/*! \page config_macros Default configuration: /usr/lib/rpm/macros
# \verbatim
#
# This is a global RPM configuration file. All changes made here will
# be lost when the rpm package is upgraded. Any per-system configuration
# should be added to /etc/rpm/macros, while per-user configuration should
# be added to ~/.rpmmacros.
#

#==============================================================================
# ---- A macro that expands to nothing.
#
%nil			%{!?nil}

#==============================================================================
# ---- filesystem macros.
#
%_usr			/usr
%_usrsrc		%{_usr}/src
%_var			/var

#==============================================================================
# ---- Generally useful path macros.
#
%__7zip			/usr/bin/7za
%__awk			gawk
%__bzip2		/usr/bin/bzip2
%__cat			/usr/bin/cat
%__chgrp		/usr/bin/chgrp
%__chmod		/usr/bin/chmod
%__chown		/usr/bin/chown
%__cp			/usr/bin/cp
%__cpio			/usr/bin/cpio
%__file			/usr/bin/file
%__gpg			/usr/bin/gpg2
%__grep			/usr/bin/grep
%__gzip			/usr/bin/gzip
%__id			/usr/bin/id
%__id_u			%{__id} -u
%__install		/usr/bin/install
%__ln_s			ln -s
%__lrzip		/usr/bin/lrzip
%__lzip			/usr/bin/lzip
# Deprecated, use %__xz instead.
%__lzma			%__xz --format=lzma
%__xz			/usr/bin/xz
%__make			/usr/bin/make
%__mkdir		/usr/bin/mkdir
%__mkdir_p		/usr/bin/mkdir -p
%__mv			/usr/bin/mv
%__patch		/usr/bin/patch
%__perl			/usr/bin/perl
%__python		%{error:attempt to use unversioned python, define %%__python to %{_bindir}/python2 or %{_bindir}/python3 explicitly}
%__restorecon		/sbin/restorecon
%__rm			/usr/bin/rm
%__rsh			/usr/bin/rsh
%__sed			/usr/bin/sed
%__semodule		/usr/bin/semodule
%__ssh			/usr/bin/ssh
%__tar			/usr/bin/tar
%__unzip		/usr/bin/unzip
%__zstd			/usr/bin/zstd
%__gem			/usr/bin/gem
%__git			/usr/bin/git
%__hg			/usr/bin/hg
%__bzr			/usr/bin/bzr
%__quilt		/usr/bin/quilt

#==============================================================================
# ---- Build system path macros.
#
%__ar			ar
%__as			as
%__cc			gcc
%__cpp			gcc -E
%__cxx			g++
%__ld			/usr/bin/ld
%__nm			/usr/bin/nm
%__objcopy		/usr/bin/objcopy
%__objdump		/usr/bin/objdump
%__ranlib		ranlib
%__remsh		%{__rsh}
%__strip		/usr/bin/strip

%__find_debuginfo	%{_rpmconfigdir}/find-debuginfo.sh

# XXX avoid failures if tools are not installed when rpm is built.
%__libtoolize		libtoolize
%__aclocal		aclocal
%__autoheader		autoheader
%__automake		automake
%__autoconf		autoconf

#==============================================================================
# Conditional build stuff.

# Check if symbol is defined.
# Example usage: %if %{defined with_foo} && %{undefined with_bar} ...
%defined()	%{expand:%%{?%{1}:1}%%{!?%{1}:0}}
%undefined()	%{expand:%%{?%{1}:0}%%{!?%{1}:1}}

# Shorthand for %{defined with_...}
%with()		%{expand:%%{?with_%{1}:1}%%{!?with_%{1}:0}}
%without()	%{expand:%%{?with_%{1}:0}%%{!?with_%{1}:1}}

# Handle conditional builds. %bcond_with is for case when feature is
# default off and needs to be activated with --with ... command line
# switch. %bcond_without is for the dual case.
#
# %bcond_with foo defines symbol with_foo if --with foo was specified on
# command line.
# %bcond_without foo defines symbol with_foo if --without foo was *not*
# specified on command line.
#
# For example (spec file):
#
# (at the beginning)
# %bcond_with extra_fonts
# %bcond_without static
# (and later)
# %if %{with extra_fonts}
# ...
# %else
# ...
# %endif
# %if ! %{with static}
# ...
# %endif
# %if %{with static}
# ...
# %endif
# %{?with_static: ... }
# %{!?with_static: ... }
# %{?with_extra_fonts: ... }
# %{!?with_extra_fonts: ... }

#
# The bottom line: never use without_foo, _with_foo nor _without_foo, only
# with_foo. This way changing default set of bconds for given spec is just
# a matter of changing single line in it and syntax is more readable.
%bcond_with()		%{expand:%%{?_with_%{1}:%%global with_%{1} 1}}
%bcond_without()	%{expand:%%{!?_without_%{1}:%%global with_%{1} 1}}
#
#==============================================================================
# ---- Required rpmrc macros.
#	Macros that used to be initialized as a side effect of rpmrc parsing.
#	These are the default values that can be overridden by other
#	(e.g. per-platform, per-system, per-packager, per-package) macros.
#
#	The directory where rpm's configuration and scripts live
%_rpmconfigdir		%{getconfdir}
#       The directory where rpm's macro files live
%_rpmmacrodir		%{_rpmconfigdir}/macros.d
#	The directory where rpm's addon lua libraries live
%_rpmluadir		%{_rpmconfigdir}/lua

#	The directory where sources/patches will be unpacked and built.
%_builddir		%{_topdir}/BUILD

#	The interpreter used for build scriptlets.
%_buildshell		/bin/sh

#	The path to the bzip2 executable (legacy, use %{__bzip2} instead).
%_bzip2bin		%{__bzip2}

#	The location of the rpm database file(s).
%_dbpath		%{_var}/lib/rpm

#	The location of the rpm database file(s) after "rpm --rebuilddb".
%_dbpath_rebuild	%{_dbpath}

%_keyringpath		%{_dbpath}/pubkeys/

#
#	Path to script that creates debug symbols in a /usr/lib/debug
#	shadow tree.
#
#	A spec file can %%define _find_debuginfo_opts to pass options to
#	the script.  See the script for details.
#
%__debug_install_post   \
    %{__find_debuginfo} \\\
    %{?_smp_mflags} \\\
    %{?_missing_build_ids_terminate_build:--strict-build-id} \\\
    %{?_no_recompute_build_ids:-n} \\\
    %{?_include_minidebuginfo:-m} \\\
    %{?_include_gdb_index:-i} \\\
    %{?_unique_build_ids:--build-id-seed "%{VERSION}-%{RELEASE}"} \\\
    %{?_unique_debug_names:--unique-debug-suffix "-%{VERSION}-%{RELEASE}.%{_arch}"} \\\
    %{?_unique_debug_srcs:--unique-debug-src-base "%{name}-%{VERSION}-%{RELEASE}.%{_arch}"} \\\
    %{?_find_debuginfo_dwz_opts} \\\
    %{?_find_debuginfo_opts} \\\
    %{?_debugsource_packages:-S debugsourcefiles.list} \\\
    "%{_builddir}/%{?buildsubdir}"\
%{nil}

#	Template for debug information sub-package.
%_debuginfo_template \
%package debuginfo\
Summary: Debug information for package %{name}\
Group: Development/Debug\
AutoReq: 0\
AutoProv: 1\
%description debuginfo\
This package provides debug information for package %{name}.\
Debug information is useful when developing applications that use this\
package or when debugging this package.\
%files debuginfo -f debugfiles.list\
%{nil}

%_debugsource_template \
%package debugsource\
Summary: Debug sources for package %{name}\
Group: Development/Debug\
AutoReqProv: 0\
%description debugsource\
This package provides debug sources for package %{name}.\
Debug sources are useful when developing applications that use this\
package or when debugging this package.\
%files debugsource -f debugsourcefiles.list\
%{nil}

%debug_package \
%ifnarch noarch\
%global __debug_package 1\
%_debuginfo_template\
%{?_debugsource_packages:%_debugsource_template}\
%endif\
%{nil}

%_defaultdocdir		%{_datadir}/doc
%_defaultlicensedir	%{_datadir}/licenses

# Following macros for filtering auto deps must not be used in spec files.
# Their purpouse is to set up global filtering for all packages. If you need
# to set up specific filtering for your package use %__requires_exclude_from
# and %__provides_exclude_from instead.
%__global_requires_exclude_from		%{?_docdir:%{_docdir}}
%__global_provides_exclude_from		%{?_docdir:%{_docdir}}

#	The path to the gzip executable (legacy, use %{__gzip} instead).
%_gzipbin		%{__gzip}

#	The Unix time of the latest kept changelog entry in binary packages.
#	Any older entry is not packaged in binary packages.
%_changelog_trimtime	0

#	If true, set the SOURCE_DATE_EPOCH environment variable
#	to the timestamp of the topmost changelog entry
%source_date_epoch_from_changelog 0

#	If true, make sure that timestamps in built rpms
#	are not later than the value of SOURCE_DATE_EPOCH.
#	Is ignored when SOURCE_DATE_EPOCH is not set.
%clamp_mtime_to_source_date_epoch 0

#	The directory where newly built binary packages will be written.
%_rpmdir		%{_topdir}/RPMS

#	A template used to generate the output binary package file name
#	(legacy).
%_rpmfilename		%{_build_name_fmt}

#	The directory where sources/patches from a source package will be
#	installed. This is also where sources/patches are found when building.
%_sourcedir		%{_topdir}/SOURCES

#	The directory where the spec file from a source package will be
#	installed.
%_specdir		%{_topdir}/SPECS

#	The directory where newly built source packages will be written.
%_srcrpmdir		%{_topdir}/SRPMS

#	The directory where buildroots will be created.
%_buildrootdir		%{_topdir}/BUILDROOT

#	Build root path, where %install installs the package during build.
%buildroot		%{_buildrootdir}/%{NAME}-%{VERSION}-%{RELEASE}.%{_arch}

#	Directory where temporaray files can be created.
%_tmppath		%{_var}/tmp

#	Path to top of build area.
%_topdir		%{getenv:HOME}/rpmbuild

#	The path to the unzip executable (legacy, use %{__unzip} instead).
%_unzipbin		%{__unzip}

#==============================================================================
# ---- Optional rpmrc macros.
#	Macros that are initialized as a side effect of rpmrc and/or spec
#	file parsing.
#
#	The sub-directory (relative to %{_builddir}) where sources are compiled.
#	This macro is set after processing %setup, either explicitly from the
#	value given to -n or the default name-version.
#
#%buildsubdir

#	Configurable distribution information, same as Distribution: tag in a
#	specfile.
#
#%distribution

#	Configurable distribution URL, same as DistURL: tag in a specfile.
#	The URL will be used to supply reliable information to tools like
#	rpmfind.
#
# Note: You should not configure with disturl (or build packages with
# the DistURL: tag) unless you are willing to supply content in a
# yet-to-be-determined format at the URL specified.
#
#%disturl

#	Configurable distribution tag, same as DistTag: tag in a specfile.
#	The tag will be used to supply reliable information to tools like
#	rpmfind.
#
#%disttag

#	Configurable bug URL, same as BugURL: tag in a specfile.
#	The URL will be used to supply reliable information to where
#	to file bugs.
#
#%bugurl

#	Boolean (i.e. 1 == "yes", 0 == "no") that controls whether files
#	marked as %doc should be installed.
#%_excludedocs

#	The port and machine name of a FTP proxy host running TIS firewall.
#
#%_ftpport
#%_ftpproxy

#	The signature to use and the location of configuration files for
#	signing packages with GNU gpg.
#
#%_gpg_name
#%_gpg_path

#	The port and machine name of an HTTP proxy host.
#
#%_httpport
#%_httpproxy

#	The PATH put into the environment before running %pre/%post et al.
#
%_install_script_path	/sbin:/bin:/usr/sbin:/usr/bin:/usr/X11R6/bin

#	A colon separated list of desired locales to be installed;
#	"all" means install all locale specific files.
#	
%_install_langs	all

#	The value of CLASSPATH in build scriptlets (iff configured).
#	
#%_javaclasspath	all

#	Import packaging conventions from jpackage.org (prefixed with _
#	to avoid name collisions).
#	
%_javadir      %{_datadir}/java
%_javadocdir   %{_datadir}/javadoc


#	Set ModularityLabel: for packages being build
#
#%modularitylabel

#	A colon separated list of paths where files should *not* be installed.
#	Usually, these are network file system mount points.
#
#%_netsharedpath

#	(experimental)
#	The type of pattern match used on rpmdb iterator selectors:
#	"default"	simple glob-like regex, periods will be escaped,
#			splats will have period prepended, full "^...$" match
#			required. Also, file path tags will use glob(7).
#	"strcmp"	compare strings
#	"regex"		regex(7) patterns using regcomp(3)/regexec(3)
#	"glob"		glob(7) patterns using fnmatch(3)
#
%_query_selector_match	default

#	Configurable packager information, same as Packager: in a specfile.
#
#%packager

#	Compression type and level for source/binary package payloads.
#		"w9.gzdio"	gzip level 9 (default).
#		"w9.bzdio"	bzip2 level 9.
#		"w6.xzdio"	xz level 6, xz's default.
#		"w7T16.xzdio"	xz level 7 using 16 thread (xz only)
#		"w6.lzdio"	lzma-alone level 6, lzma's default
#
#%_source_payload	w9.gzdio
#%_binary_payload	w9.gzdio

#	Algorithm to use for generating file checksum digests on build.
#	If not specified or 0, MD5 is used.
#	WARNING: non-MD5 is backwards incompatible with rpm < 4.6!
#	The supported algorithms may depend on the underlying crypto
#	implementation but generally at least the following are supported:
#	1	MD5
#	2	SHA1
#	8	SHA256 (default)
#	9	SHA384
#	10	SHA512
#
%_source_filedigest_algorithm	8
%_binary_filedigest_algorithm	8

#	Configurable vendor information, same as Vendor: in a specfile.
#
#%vendor

#	Default fuzz level for %patch in spec file.
%_default_patch_fuzz	0

#	Default patch flags
#%_default_patch_flags	-s
%_default_patch_flags --no-backup-if-mismatch

#==============================================================================
# ---- Build configuration macros.
#
# Script gets packaged file list on input and buildroot as first parameter.
# Returns list of unpackaged files, i.e. files in $RPM_BUILD_ROOT not packaged.
#
# Note: Disable (by commenting out) for legacy compatibility.
%__check_files         %{_rpmconfigdir}/check-files %{buildroot}

#
# Should unpackaged files in a build root terminate a build?
#
# Note: The default value should be 0 for legacy compatibility.
%_unpackaged_files_terminate_build	1

#
# Should missing %doc files in the build directory terminate a build?
#
# Note: The default value should be 0 for legacy compatibility.
%_missing_doc_files_terminate_build	1

#
# Should empty %files manifest file terminate a build?
#
# Note: The default value should be 0 for legacy compatibility.
%_empty_manifest_terminate_build	1

#
# Should binaries in noarch packages terminate a build?
%_binaries_in_noarch_packages_terminate_build	1

# Should invalid utf8 encoding in package metadata terminate a build?
%_invalid_encoding_terminates_build 0

# Should invalid version format in requires, provides, ... terminate a build?
%_wrong_version_format_terminate_build 1

#
# Should rpm try to download missing sources at build-time?
# Enabling this is dangerous as long as rpm has no means to validate
# the integrity of the download with a digest or signature.
%_disable_source_fetch 1

#
# Program to call for each successfully built and written binary package.
# The package name is passed to the program as a command-line argument.
#
#%_build_pkgcheck	%{_bindir}/rpmlint

#
# Program to call for the whole binary package set after build.
# The package set is passed to the program via command-line arguments.
#
#%_build_pkgcheck_set	%{_bindir}/rpmlint

#
# Program to call for successfully built and written SRPM.
# The package name is passed to the program as a command-line argument.
#
#%_build_pkgcheck_srpm	%{_bindir}/rpmlint

#
# Should the build of packages fail if package checker (if defined) returns
# non-zero exit status?
#
#%_nonzero_exit_pkgcheck_terminate_build	1

#
# Should an ELF file processed by find-debuginfo.sh having no build ID
# terminate a build?  This is left undefined to disable it and defined to
# enable.
#
#%_missing_build_ids_terminate_build	1

#
# Include minimal debug information in build binaries.
# Requires _enable_debug_packages.
#
#%_include_minidebuginfo	1

#
# Include a .gdb_index section in the .debug files.
# Requires _enable_debug_packages and gdb-add-index installed.
#
#%_include_gdb_index	1

#
# Defines how and if build_id links are generated for ELF files.
# The following settings are supported:
#
# - none
#   No build_id links are generated.
#
# - alldebug
#   build_id links are generated only when the __debug_package global is
#   defined. This will generate build_id links in the -debuginfo package
#   for both the main file as /usr/lib/debug/.build-id/xx/yyy and for
#   the .debug file as /usr/lib/debug/.build-id/xx/yyy.debug.
#   This is the old style build_id links as generated by the original
#   find-debuginfo.sh script.
#
# - separate
#   build_id links are generate for all binary packages. If this is a
#   main package (the __debug_package global isn't set) then the
#   build_id link is generated as /usr/lib/.build-id/xx/yyy. If this is
#   a -debuginfo package (the __debug_package global is set) then the
#   build_id link is generated as /usr/lib/debug/.build-id/xx/yyy.
#
# - compat
#   Same as for "separate" but if the __debug_package global is set then
#   the -debuginfo package will have a compatibility link for the main
#   ELF /usr/lib/debug/.build-id/xx/yyy -> /usr/lib/.build-id/xx/yyy
%_build_id_links compat

# Whether build-ids should be made unique between package version/releases
# when generating debuginfo packages. If set to 1 this will pass
# --build-id-seed "%{VERSION}-%{RELEASE}" to find-debuginfo.sh which will
# pass it onto debugedit --build-id-seed to be used to prime the build-id
# note hash.
%_unique_build_ids	1

# Do not recompute build-ids but keep whatever is in the ELF file already.
# Cannot be used together with _unique_build_ids (which forces recomputation).
# Defaults to undefined (unset).
#%_no_recompute_build_ids 1

# Whether .debug files should be made unique between package version,
# release and architecture. If set to 1 this will pass
# --unique-debug-suffix "-%{VERSION}-%{RELEASE}.%{_arch} find-debuginfo.sh
# to create debuginfo files which end in -<ver>-<rel>.<arch>.debug
# Requires _unique_build_ids.
%_unique_debug_names	1

# Whether the /usr/debug/src/<package> directories should be unique between
# package version, release and architecture. If set to 1 this will pass
# --unique-debug-src-base "%{name}-%{VERSION}-%{RELEASE}.%{_arch}" to
# find-debuginfo.sh to name the directory under /usr/debug/src as
# <name>-<ver>-<rel>.<arch>.
%_unique_debug_srcs	1

# Whether rpm should put debug source files into its own subpackage
#%_debugsource_packages	1

# Whether rpm should create extra debuginfo packages for each subpackage
#%_debuginfo_subpackages 1

#
# Use internal dependency generator rather than external helpers?
%_use_internal_dependency_generator	1

#
# Filter GLIBC_PRIVATE Provides: and Requires:
%_filter_GLIBC_PRIVATE			0

# Directories whose contents should be considered as documentation.
%__docdir_path %{_datadir}/doc:%{_datadir}/man:%{_datadir}/info:%{_datadir}/gtk-doc/html:%{?_docdir}:%{?_mandir}:%{?_infodir}:%{?_javadocdir}:/usr/doc:/usr/man:/usr/info:/usr/X11R6/man

#
# Path to scripts to autogenerate package dependencies,
#
# Note: Used iff _use_internal_dependency_generator is zero.
#%__find_provides	%{_rpmconfigdir}/rpmdeps --provides
#%__find_requires	%{_rpmconfigdir}/rpmdeps --requires
%__find_provides	%{_rpmconfigdir}/find-provides
%__find_requires	%{_rpmconfigdir}/find-requires
#%__find_conflicts	???
#%__find_obsoletes	???

# 
# Path to file attribute classifications for automatic dependency 
# extraction, used when _use_internal_dependency_generator
# is used (on by default). Files can have any number of attributes
# attached to them, and dependencies are separately extracted for
# each attribute.
# 
# To define a new file attribute called "myattr", add a file named
# "myattr" to this directory, defining the requires and/or provides
# finder script(s) + magic and/or path pattern regex(es).
# provides finder and 
# %__myattr_requires	path + args to requires finder script for <myattr>
# %__myattr_provides	path + args to provides finder script for <myattr>
# %__myattr_magic	libmagic classification match regex
# %__myattr_path	path based classification match regex
# %__myattr_flags	flags to control behavior (just "exeonly" for now)
# %__myattr_exclude_magic	exclude by magic regex
# %__myattr_exclude_path	exclude by path regex
#
%_fileattrsdir		%{_rpmconfigdir}/fileattrs

# This macro defines how much space (in bytes) in package should be
# reserved for gpg signatures during building of a package. If this space is
# big enough for gpg signatures to fit into it then signing of the packages is
# very quick because it is not necessary to rewrite the whole package to make
# some space for gpg signatures.
%__gpg_reserved_space 4096

#==============================================================================
# ---- Database configuration macros.
#
# Select backend database. The following values are supported:
# bdb Berkeley DB
# lmdb Lightning Memory-mapped Database
# ndb new data base format
# sqlite Sqlite database (read-only in this version!)
#
%_db_backend	      bdb

#
#	Macros used to configure Berkley db parameters.
#
# rpmdb macro configuration values are a colon (or white space) separated
# list of tokens, with an optional '!' negation to explicitly disable bit
# values, or a "=value" if a parameter. A per-tag value is used (e.g.
# %_dbi_config_Packages) if defined, otherwise a per-rpmdb default
# (e.g. %_dbi_config).
#
# Here's a short list of the tokens, with a guess of whether the option is
# useful:
#	(nothing)	currently used in rpm, known to work.
#	"+++"		under development, will be supported in rpm eventually.
#	"???"		I have no clue, you're mostly on your own.
#
# If you do find yourself inclined to fiddle, here's what I see (shrug):
# 1) Only the value of mp_size has any serious impact on overall performance,
#    and you will need ~256Kb to handle a typical machine install.
# 2) Only the Packages hash, because of the size of the values (i.e. headers),
#    will ever need tuning. Diddle the pagesize if you're interested, although
#    I believe that you will find pagesize=512 "best".
# 3) Adding nofsync increases speed, but risks total data loss. Fiddle shared
#    and/or mp_size instead.
#
#   token	works?	Berkeley db flag or value
#==================================================
#---------------------- DBENV tunable values:
#   mmapsize=16Mb	DBENV->set_mp_mmapsize
#   cachesize=1Mb	DBENV->set_cachesize, DB->set_cachesize
#---------------------- DB->open bits:
#   nommap	???	DB_NOMMAP
#----------------------- rpmdb specific configuration:
#   lockdbfd		(always on for Packages) Use fcntl(2) locking ?
#   nofsync		Disable fsync(2) call performed after db3 writes?
#

# Misc BDB tuning options
%__dbi_other			mp_mmapsize=128Mb mp_size=1Mb

%_dbi_config			%{?__dbi_other}

# "Packages" should have shared/exclusive fcntl(2) lock using "lockdbfd".
%_dbi_config_Packages		%{?_dbi_config} lockdbfd

#==============================================================================
# ---- GPG/PGP/PGP5 signature macros.
#	Macro(s) to hold the arguments passed to GPG/PGP for package
#	signing and verification.
#

%__gpg_sign_cmd			%{__gpg} \
	gpg --no-verbose --no-armor \
	%{?_gpg_digest_algo:--digest-algo %{_gpg_digest_algo}} \
	--no-secmem-warning \
	%{?_gpg_sign_cmd_extra_args:%{_gpg_sign_cmd_extra_args}} \
	-u "%{_gpg_name}" -sbo %{__signature_filename} %{__plaintext_filename}

# XXX rpm >= 4.1 verifies signatures internally
#%__gpg_verify_cmd		%{__gpg} \
#	gpg --batch --no-verbose --verify --no-secmem-warning \
#	%{__signature_filename} %{__plaintext_filename}
#
# XXX rpm-4.1 verifies prelinked libraries using a prelink undo helper.
#	Normally this macro is defined in /etc/rpm/macros.prelink, installed
#	with the prelink package. If the macro is undefined, then prelinked
#	shared libraries contents are MD5 digest verified (as usual), rather
#	than MD5 verifying the output of the prelink undo helper.
#
#	Note: The 2nd token is used as argv[0] and "library" is a
#	placeholder that will be deleted and replaced with the appropriate
#	library file path.
#%__prelink_undo_cmd     /usr/sbin/prelink prelink -y library

# Horowitz Key Protocol server configuration
#
%_hkp_keyserver         http://pgp.mit.edu
%_hkp_keyserver_query   %{_hkp_keyserver}:11371/pks/lookup?op=get&search=0x

#==============================================================================
# ---- Transaction macros.
#	Macro(s) used to parameterize transactions.
#
#	The output binary package file name template used when building
#	binary packages.
#
# XXX	Note: escaped %% for use in headerSprintf()
%_build_name_fmt	%%{ARCH}/%%{NAME}-%%{VERSION}-%%{RELEASE}.%%{ARCH}.rpm

#	Verify digest/signature flags for various rpm modes:
#	0x30300 (RPMVSF_MASK_NODIGESTS)    --nohdrchk      if set, don't check digest(s)
#	0xc0c00 (RPMVSF_MASK_NOSIGNATURES) --nosignature   if set, don't check signature(s)
#	0xf0000 (RPMVSF_MASK_NOPAYLOAD)    --nolegacy      if set, check header+payload (if possible)
#	0x00f00 (RPMVSF_MASK_NOHEADER)     --nohdrchk      if set, don't check rpmdb headers
#
#	For example, the value 0xf0c00 (=0xf0000+0xc0c00) disables legacy
#	digest/signature checking, disables signature checking, but attempts
#	digest checking, also when retrieving headers from the database.
#
#	You also can do:
#	 >>> hex(rpm.RPMVSF_MASK_NOSIGNATURES)
#	 '0xc0c00'
#	or:
#	 >>> hex(rpm.RPMVSF_MASK_NOSIGNATURES|rpm.RPMVSF_MASK_NOPAYLOAD)
#	 '0xf0c00'
#	at the python prompt for example, after "import rpm".
#
#	The checking overhead is ~11ms per header for digests/signatures;
#	each header from the database is checked only when first encountered
#	for each database open.
#
#	Note: the %_vsflags_erase applies to --upgrade/--freshen modes as
#	well as --erase.
#
%__vsflags		0xf0000
%_vsflags_build		%{__vsflags}
%_vsflags_erase		%{__vsflags}
%_vsflags_install	%{__vsflags}
%_vsflags_query		%{__vsflags}
%_vsflags_rebuilddb	0xc0c00
%_vsflags_verify	%{__vsflags}

# Enforced package verification level
# all		require valid digest(s) and signature(s)
# signature	require valid signature(s)
# digest	require valid digest(s)
# none		traditional rpm behavior, nothing required
%_pkgverify_level digest

# Disabler flags for package verification (similar to vsflags)
%_pkgverify_flags 0x0

# Set to 1 to minimize writing (at the cost of more reads) to
# conserve eg SSD disks.
%_minimize_writes      0

# Set to 1 to flush file IO during transactions (at a severe cost in
# performance for rotational disks)
#%_flush_io	0

#
# Default output format string for rpm -qa
#
# XXX	Note: escaped %% for use in headerFormat()
%_query_all_fmt		%%{nvra}

#
# Default for coloring output
# valid values are always never and auto
%_color_output	never

#
# Default path to the file used for transaction fcntl lock.
%_rpmlock_path	%{_dbpath}/.rpm.lock

#
# ISA dependency marker, none for noarch and name-bitness for others
%_isa			%{?__isa:(%{__isa})}%{!?__isa:%{nil}}

#
# Define per-arch and per-os defaults. Normally overridden by per-target macros.
%__arch_install_post	%{nil}
%__os_install_post	%{___build_post}

# Macro to fix broken permissions in sources
%_fixperms      %{__chmod} -Rf a+rX,u+w,g-w,o-w

#==============================================================================
# ---- Scriptlet template templates.
#	Global defaults used for building scriptlet templates.
#

%___build_shell		%{?_buildshell:%{_buildshell}}%{!?_buildshell:/bin/sh}
%___build_args		-e
%___build_cmd		%{?_sudo:%{_sudo} }%{?_remsh:%{_remsh} %{_remhost} }%{?_remsudo:%{_remsudo} }%{?_remchroot:%{_remchroot} %{_remroot} }%{___build_shell} %{___build_args}
%___build_pre	\
  RPM_SOURCE_DIR=\"%{u2p:%{_sourcedir}}\"\
  RPM_BUILD_DIR=\"%{u2p:%{_builddir}}\"\
  RPM_OPT_FLAGS=\"%{optflags}\"\
  RPM_LD_FLAGS=\"%{?__global_ldflags}\"\
  RPM_ARCH=\"%{_arch}\"\
  RPM_OS=\"%{_os}\"\
  RPM_BUILD_NCPUS=\"%{_smp_build_ncpus}\"\
  export RPM_SOURCE_DIR RPM_BUILD_DIR RPM_OPT_FLAGS RPM_LD_FLAGS RPM_ARCH RPM_OS RPM_BUILD_NCPUS\
  RPM_DOC_DIR=\"%{_docdir}\"\
  export RPM_DOC_DIR\
  RPM_PACKAGE_NAME=\"%{NAME}\"\
  RPM_PACKAGE_VERSION=\"%{VERSION}\"\
  RPM_PACKAGE_RELEASE=\"%{RELEASE}\"\
  export RPM_PACKAGE_NAME RPM_PACKAGE_VERSION RPM_PACKAGE_RELEASE\
  LANG=C\
  export LANG\
  unset CDPATH DISPLAY ||:\
  %{?buildroot:RPM_BUILD_ROOT=\"%{u2p:%{buildroot}}\"\
  export RPM_BUILD_ROOT}\
  %{?_javaclasspath:CLASSPATH=\"%{_javaclasspath}\"\
  export CLASSPATH}\
  PKG_CONFIG_PATH=\"${PKG_CONFIG_PATH}:%{_libdir}/pkgconfig:%{_datadir}/pkgconfig\"\
  export PKG_CONFIG_PATH\
  CONFIG_SITE=${CONFIG_SITE:-NONE}\
  export CONFIG_SITE\
  PYTHON_DISALLOW_AMBIGUOUS_VERSION=warn\
  export PYTHON_DISALLOW_AMBIGUOUS_VERSION\
  \
  %{verbose:set -x}%{!verbose:exec > /dev/null}\
  umask 022\
  cd \"%{u2p:%{_builddir}}\"\


#%___build_body		%{nil}
%___build_post		exit $?

%___build_template	#!%{___build_shell}\
%{___build_pre}\
%{nil}

#%{___build_body}\
#%{___build_post}\
#%{nil}

#==============================================================================
# ---- Scriptlet templates.
#	Macro(s) that expand to a command and script that is executed.
#
%__spec_prep_shell	%{___build_shell}
%__spec_prep_args	%{___build_args}
%__spec_prep_cmd	%{___build_cmd}
%__spec_prep_pre	%{___build_pre}
%__spec_prep_body	%{___build_body}
%__spec_prep_post	%{___build_post}
%__spec_prep_template	#!%{__spec_prep_shell}\
%{__spec_prep_pre}\
%{nil}

#%{__spec_prep_body}\
#%{__spec_prep_post}\
#%{nil}

%__spec_build_shell	%{___build_shell}
%__spec_build_args	%{___build_args}
%__spec_build_cmd	%{___build_cmd}
%__spec_build_pre	%{___build_pre}
%__spec_build_body	%{___build_body}
%__spec_build_post	%{___build_post}
%__spec_build_template	#!%{__spec_build_shell}\
%{__spec_build_pre}\
%{nil}

#%{__spec_build_body}\
#%{__spec_build_post}\
#%{nil}

%__spec_install_shell	%{___build_shell}
%__spec_install_args	%{___build_args}
%__spec_install_cmd	%{___build_cmd}
%__spec_install_pre	%{___build_pre}
%__spec_install_body	%{___build_body}
%__spec_install_post\
%{?__debug_package:%{__debug_install_post}}\
%{__arch_install_post}\
%{__os_install_post}\
%{nil}
%__spec_install_template	#!%{__spec_install_shell}\
%{__spec_install_pre}\
%{nil}

#%{__spec_install_body}\
#%{__spec_install_post}\
#%{nil}

%__spec_check_shell	%{___build_shell}
%__spec_check_args	%{___build_args}
%__spec_check_cmd	%{___build_cmd}
%__spec_check_pre	%{___build_pre}
%__spec_check_body	%{___build_body}
%__spec_check_post	%{___build_post}
%__spec_check_template	#!%{__spec_check_shell}\
%{__spec_check_pre}\
%{nil}

#%{__spec_check_body}\
#%{__spec_check_post}\
#%{nil}

#%__spec_autodep_shell	%{___build_shell}
#%__spec_autodep_args	%{___build_args}
#%__spec_autodep_cmd	%{___build_cmd}
#%__spec_autodep_pre	%{___build_pre}
#%__spec_autodep_body	%{___build_body}
#%__spec_autodep_post	%{___build_post}
#%__spec_autodep_template	#!%{__spec_autodep_shell}\
#%{__spec_autodep_pre}\
#%{nil}

#%{__spec_autodep_body}\
#%{__spec_autodep_post}\
#%{nil}

%__spec_clean_shell	%{___build_shell}
%__spec_clean_args	%{___build_args}
%__spec_clean_cmd	%{___build_cmd}
%__spec_clean_pre	%{___build_pre}
%__spec_clean_body	%{___build_body}
%__spec_clean_post	%{___build_post}
%__spec_clean_template	#!%{__spec_clean_shell}\
%{__spec_clean_pre}\
%{nil}

#%{__spec_clean_body}\
#%{__spec_clean_post}\
#%{nil}

%__spec_rmbuild_shell	%{___build_shell}
%__spec_rmbuild_args	%{___build_args}
%__spec_rmbuild_cmd	%{___build_cmd}
%__spec_rmbuild_pre	%{___build_pre}
%__spec_rmbuild_body	%{___build_body}
%__spec_rmbuild_post	%{___build_post}
%__spec_rmbuild_template	#!%{__spec_rmbuild_shell}\
%{__spec_rmbuild_pre}\
%{nil}

#%{__spec_rmbuild_body}\
#%{__spec_rmbuild_post}\
#%{nil}

# XXX We don't expand pre/post install scriptlets (yet).
#%__spec_pre_pre		%{nil}
#%__spec_pre_post		%{nil}
#%__spec_post_pre		%{nil}
#%__spec_post_post		%{nil}
#%__spec_preun_pre		%{nil}
#%__spec_preun_post		%{nil}
#%__spec_postun_pre		%{nil}
#%__spec_postun_post		%{nil}
#%__spec_triggerpostun_pre	%{nil}
#%__spec_triggerpostun_post	%{nil}
#%__spec_triggerun_pre		%{nil}
#%__spec_triggerun_post		%{nil}
#%__spec_triggerin_pre		%{nil}
#%__spec_triggerin_post		%{nil}

#==============================================================================
# ---- configure macros.
#	Macro(s) slavishly copied from autoconf's config.status.
#
%_prefix		/usr
%_exec_prefix		%{_prefix}
%_bindir		%{_exec_prefix}/bin
%_sbindir		%{_exec_prefix}/sbin
%_libexecdir		%{_exec_prefix}/libexec
%_datadir		%{_prefix}/share
%_sysconfdir		/etc
%_sharedstatedir	%{_prefix}/com
%_localstatedir		%{_prefix}/var
%_lib			lib
%_libdir		%{_exec_prefix}/%{_lib}
%_includedir		%{_prefix}/include
%_infodir		%{_datadir}/info
%_mandir		%{_datadir}/man

#==============================================================================
# ---- config.guess platform macros.
#	Macro(s) similar to the tokens used by configure.
#
%_build			%{_host}
%_build_alias		%{_host_alias}
%_build_cpu		%{_host_cpu}
%_build_vendor		%{_host_vendor}
%_build_os		%{_host_os}
%_host			x86_64-redhat-linux-gnu
%_host_alias		x86_64-redhat-linux-gnu%{nil}
%_host_cpu		x86_64
%_host_vendor		redhat
%_host_os		linux
%_target		%{_host}
%_target_alias		%{_host_alias}
%_target_cpu		%{_host_cpu}
%_target_vendor		%{_host_vendor}
%_target_os		%{_host_os}

#==============================================================================
# ---- specfile macros.
#	Macro(s) here can be used reliably for reproducible builds.
#	(Note: Above is the goal, below are the macros under development)
#
# The configure macro runs autoconf configure script with platform specific
# directory structure (--prefix, --libdir etc) and compiler flags
# such as CFLAGS.
#
%_configure ./configure
%configure \
  CFLAGS="${CFLAGS:-%optflags}" ; export CFLAGS ; \
  CXXFLAGS="${CXXFLAGS:-%optflags}" ; export CXXFLAGS ; \
  FFLAGS="${FFLAGS:-%optflags}" ; export FFLAGS ; \
  %{_configure} --host=%{_host} --build=%{_build} \\\
	--program-prefix=%{?_program_prefix} \\\
	--disable-dependency-tracking \\\
	--prefix=%{_prefix} \\\
	--exec-prefix=%{_exec_prefix} \\\
	--bindir=%{_bindir} \\\
	--sbindir=%{_sbindir} \\\
	--sysconfdir=%{_sysconfdir} \\\
	--datadir=%{_datadir} \\\
	--includedir=%{_includedir} \\\
	--libdir=%{_libdir} \\\
	--libexecdir=%{_libexecdir} \\\
	--localstatedir=%{_localstatedir} \\\
	--sharedstatedir=%{_sharedstatedir} \\\
	--mandir=%{_mandir} \\\
	--infodir=%{_infodir}

#------------------------------------------------------------------------------
# Tested features of make
# Output synchronization for parallel make:
%_make_output_sync %(! %{__make} --version -O >/dev/null 2>&1 || echo -O)

#------------------------------------------------------------------------------
# The "make" analogue, hiding the _smp_mflags magic from specs
%make_build %{__make} %{_make_output_sync} %{?_smp_mflags}

#------------------------------------------------------------------------------
# The make install analogue of %configure for modern autotools:
%make_install %{__make} install DESTDIR=%{?buildroot} INSTALL="%{__install} -p"

#------------------------------------------------------------------------------
# Former make install analogue, kept for compatibility and for old/broken
#  packages that don't support DESTDIR properly.
%makeinstall \
  echo "warning: %%makeinstall is deprecated, try %%make_install instead" 1>&2\
  %{__make} \\\
	prefix=%{?buildroot:%{buildroot}}%{_prefix} \\\
	exec_prefix=%{?buildroot:%{buildroot}}%{_exec_prefix} \\\
	bindir=%{?buildroot:%{buildroot}}%{_bindir} \\\
	sbindir=%{?buildroot:%{buildroot}}%{_sbindir} \\\
	sysconfdir=%{?buildroot:%{buildroot}}%{_sysconfdir} \\\
	datadir=%{?buildroot:%{buildroot}}%{_datadir} \\\
	includedir=%{?buildroot:%{buildroot}}%{_includedir} \\\
	libdir=%{?buildroot:%{buildroot}}%{_libdir} \\\
	libexecdir=%{?buildroot:%{buildroot}}%{_libexecdir} \\\
	localstatedir=%{?buildroot:%{buildroot}}%{_localstatedir} \\\
	sharedstatedir=%{?buildroot:%{buildroot}}%{_sharedstatedir} \\\
	mandir=%{?buildroot:%{buildroot}}%{_mandir} \\\
	infodir=%{?buildroot:%{buildroot}}%{_infodir} \\\
  install

#------------------------------------------------------------------------------
%patches %{lua: for i, p in ipairs(patches) do print(p.." ") end}
%sources %{lua: for i, s in ipairs(sources) do print(s.." ") end}

#------------------------------------------------------------------------------
# Useful perl macros (from Artur Frysiak <wiget@t17.ds.pwr.wroc.pl>)
#
# For example, these can be used as (from ImageMagick.spec from PLD site)
#	[...]
#	BuildPrereq: perl
#	[...]
#	%package perl
#	Summary: libraries and modules for access to ImageMagick from perl
#	Group: Development/Languages/Perl
#	Requires: %{name} = %{version}
#	%requires_eq    perl
#	[...]
#	%install
#	rm -fr $RPM_BUILD_ROOT
#	install -d $RPM_BUILD_ROOT/%{perl_sitearch}
#	[...]
#	%files perl
#	%defattr(644,root,root,755)
#	%{perl_sitearch}/Image
#	%dir %{perl_sitearch}/auto/Image
#
%requires_eq()	%(LC_ALL="C" echo '%*' | xargs -r rpm -q --qf 'Requires: %%{name} = %%{epoch}:%%{version}\\n' | sed -e 's/ (none):/ /' -e 's/ 0:/ /' | grep -v "is not")
%perl_sitearch	%(eval "`%{__perl} -V:installsitearch`"; echo $installsitearch)
%perl_sitelib	%(eval "`%{__perl} -V:installsitelib`"; echo $installsitelib)
%perl_vendorarch %(eval "`%{__perl} -V:installvendorarch`"; echo $installvendorarch)
%perl_vendorlib  %(eval "`%{__perl} -V:installvendorlib`"; echo $installvendorlib)
%perl_archlib	%(eval "`%{__perl} -V:installarchlib`"; echo $installarchlib)
%perl_privlib	%(eval "`%{__perl} -V:installprivlib`"; echo $installprivlib)

#------------------------------------------------------------------------------
# Useful python macros for determining python version and paths
#
%python_sitelib %(%{__python} -Es %{_rpmconfigdir}/python-macro-helper sitelib)
%python_sitearch %(%{__python} -Es %{_rpmconfigdir}/python-macro-helper sitearch)
%python_version %(%{__python} -Es %{_rpmconfigdir}/python-macro-helper version)

#------------------------------------------------------------------------------
# arch macro for all Intel i?86 compatible processors
#  (Note: This macro (and it's analogues) will probably be obsoleted when
#   rpm can use regular expressions against target platforms in macro
#   conditionals.
#
%ix86   i386 i486 i586 i686 pentium3 pentium4 athlon geode

#------------------------------------------------------------------------------
# arch macro for all supported ARM processors
%arm	armv3l armv4b armv4l armv4tl armv5tl armv5tel armv5tejl armv6l armv6hl armv7l armv7hl armv7hnl

#------------------------------------------------------------------------------
# arch macro for 32-bit MIPS processors
%mips32	mips mipsel mipsr6 mipsr6el

#------------------------------------------------------------------------------
# arch macro for 64-bit MIPS processors
%mips64	mips64 mips64el mips64r6 mips64r6el

#------------------------------------------------------------------------------
# arch macro for big endian MIPS processors
%mipseb	mips mipsr6 mips64 mips64r6

#------------------------------------------------------------------------------
# arch macro for little endian MIPS processors
%mipsel	mipsel mipsr6el mips64el mips64r6el

#------------------------------------------------------------------------------
# arch macro for all supported MIPS processors
%mips	%{mips32} %{mips64}

#------------------------------------------------------------------------------
# arch macro for all supported Sparc processors
%sparc sparc sparcv8 sparcv9 sparcv9v sparc64 sparc64v

#------------------------------------------------------------------------------
# arch macro for all supported Alpha processors
%alpha	alpha alphaev56 alphaev6 alphaev67

#------------------------------------------------------------------------------
# arch macro for all supported PowerPC 64 processors
%power64	ppc64 ppc64p7 ppc64le

#------------------------------------------------------------------------
# Use in %install to generate locale specific file lists. For example,
#
# %install
# ...
# %find_lang %{name}
# ...
# %files -f %{name}.lang
#
%find_lang	%{_rpmconfigdir}/find-lang.sh %{buildroot}

# Commands + opts to use for retrieving remote files
# Proxy opts can be set through --httpproxy/--httpport popt aliases,
# for any special local needs use %__urlhelper_localopts in system-wide
# or per-user macro configuration.
%__urlhelpercmd         /usr/bin/curl
%__urlhelperopts        --silent --show-error --fail --globoff --location -o
%__urlhelper_proxyopts   %{?_httpproxy:--proxy %{_httpproxy}%{?_httpport::%{_httpport}}}%{!?_httpproxy:%{nil}}
%_urlhelper             %{__urlhelpercmd} %{?__urlhelper_localopts} %{?__urlhelper_proxyopts} %{__urlhelperopts}

# Transaction plugin macros
%__plugindir		%{_libdir}/rpm-plugins
%__transaction_systemd_inhibit	%{__plugindir}/systemd_inhibit.so
%__transaction_selinux		%{__plugindir}/selinux.so
%__transaction_syslog		%{__plugindir}/syslog.so
%__transaction_ima		%{__plugindir}/ima.so
%__transaction_fapolicyd	%{__plugindir}/fapolicyd.so
%__transaction_prioreset	%{__plugindir}/prioreset.so

#------------------------------------------------------------------------------
# Macros for further automated spec %setup and patch application

# default to plain patch
%__scm patch
# meh, figure something saner
%__scm_username rpm-build
%__scm_usermail <rpm-build>
%__scm_author %{__scm_username} %{__scm_usermail}

# Plain patch (-m is unused)
%__scm_setup_patch(q) %{nil}
%__scm_apply_patch(qp:m:)\
%{__patch} %{-p:-p%{-p*}} %{-q:-s} --fuzz=%{_default_patch_fuzz} %{_default_patch_flags}

# Plain patch with backups for gendiff
%__scm_setup_gendiff(q) %{nil}
%__scm_apply_gendiff(qp:m:)\
%{__patch} %{-p:-p%{-p*}} %{-q:-s} --fuzz=%{_default_patch_fuzz} %{_default_patch_flags} -b --suffix ".%{2}"

# Mercurial (aka hg)
%__scm_setup_hg(q)\
%{__hg} init %{-q} .\
%{__hg} add %{-q} .\
%{__hg} commit %{-q} --user "%{__scm_author}" -m "%{NAME}-%{VERSION} base"

%__scm_apply_hg(qp:m:)\
%{__hg} import - %{-p:-p%{-p*}} %{-q} -m %{-m*} --user "%{__scm_author}"

# Git
%__scm_setup_git(q)\
%{__git} init %{-q}\
%{__git} config user.name "%{__scm_username}"\
%{__git} config user.email "%{__scm_usermail}"\
%{__git} add .\
%{__git} commit %{-q} --allow-empty -a\\\
	--author "%{__scm_author}" -m "%{NAME}-%{VERSION} base"

%__scm_apply_git(qp:m:)\
%{__git} apply --index %{-p:-p%{-p*}} -\
%{__git} commit %{-q} -m %{-m*} --author "%{__scm_author}"

# Git, using "git am" (-m is unused)
%__scm_setup_git_am(q)\
%{expand:%__scm_setup_git %{-q}}

%__scm_apply_git_am(qp:m:)\
%{__git} am %{-q} %{-p:-p%{-p*}}

# Quilt
%__scm_setup_quilt(q) %{nil}
%__scm_apply_quilt(qp:m:)\
%{__quilt} import %{-p:-p%{-p*}} %{1} && %{__quilt} push %{-q}

# Bzr
%__scm_setup_bzr(q)\
%{__bzr} init %{-q}\
%{__bzr} whoami --branch "%{__scm_author}"\
%{__bzr} add .\
%{__bzr} commit %{-q} -m "%{NAME}-%{VERSION} base"

# bzr doesn't seem to have its own command to apply patches?
%__scm_apply_bzr(qp:m:)\
%{__patch} %{-p:-p%{-p*}} %{-q:-s}\
%{__bzr} commit %{-q} -m %{-m*}

# Single patch application
%apply_patch(qp:m:)\
%{lua:\
local file = rpm.expand("%{1}")\
local num = rpm.expand("%{2}")\
if posix.access(file, "r") then\
    local options = rpm.expand("%{-q} %{-p:-p%{-p*}} %{-m:-m%{-m*}}")\
    local scm_apply = rpm.expand("%__scm_apply_%{__scm}")\
    print(rpm.expand("%{uncompress:"..file.."} | "..scm_apply.." "..options.."  "..file.." "..num.."\\n"))\
else\
    print("echo 'Cannot read "..file.."'; exit 1;".."\\n")\
end}

# Automatically apply all patches
# -m<min>       Apply patches with number >= min only
# -M<max>       Apply patches with number <= max only
%autopatch(vp:m:M:)\
%{lua:\
local options = rpm.expand("%{!-v:-q} %{-p:-p%{-p*}} ")\
local low_limit = tonumber(rpm.expand("%{-m:%{-m*}}"))\
local high_limit = tonumber(rpm.expand("%{-M:%{-M*}}"))\
for i, p in ipairs(patches) do\
    local inum = patch_nums[i]\
    if ((not low_limit or inum>=low_limit) and (not high_limit or inum<=high_limit)) \
    then\
        print(rpm.expand("%apply_patch -m %{basename:"..p.."}  "..options..p.." "..i.."\\n")) \
    end\
end}

# One macro to (optionally) do it all.
# -S<scm name>	Sets the used patch application style, eg '-S git' enables
#           	usage of git repository and per-patch commits.
# -N		Disable automatic patch application
# -p<num>	Use -p<num> for patch application	
%autosetup(a:b:cDn:TvNS:p:)\
%setup %{-a} %{-b} %{-c} %{-D} %{-n} %{-T} %{!-v:-q}\
%{-S:%global __scm %{-S*}}\
%{expand:%__scm_setup_%{__scm} %{!-v:-q}}\
%{!-N:%autopatch %{-v} %{-p:-p%{-p*}}}

# \endverbatim
#*/

VaKeR 2022