make-rules/shared-macros.mk
author Nobutomo Nakano <nobutomo.nakano@oracle.com>
Fri, 09 Dec 2011 10:08:54 -0800
branchs11-sru
changeset 2236 ea3ead94e5ea
parent 2233 cc544c5cfe9e
child 706 6e61f0012046
permissions -rw-r--r--
7080326 update zoneinfo timezones to 2011i (Samoa, Newfoundland) 7087931 update zoneinfo timezones to 2011j (Samoa) 7093560 update zoneinfo timezones to 2011k (Belarus, Palestine, Ukraine) 7099266 update zoneinfo timezones to 2011l (Fiji, Palestine) 7104499 update zoneinfo timezones to 2011m (Brazil, Ukraine) 7106892 update zoneinfo timezones to 2011n (Cuba, Fiji)
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License (the "License").
# You may not use this file except in compliance with the License.
#
# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
# or http://www.opensolaris.org/os/licensing.
# See the License for the specific language governing permissions
# and limitations under the License.
#
# When distributing Covered Code, include this CDDL HEADER in each
# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
# If applicable, add the following below this CDDL HEADER, with the
# fields enclosed by brackets "[]" replaced with your own identifying
# information: Portions Copyright [yyyy] [name of copyright owner]
#
# CDDL HEADER END
#
# Copyright (c) 2010, 2011, Oracle and/or its affiliates. All rights reserved.
#

PATH=/usr/bin:/usr/gnu/bin

# The location of an internal mirror of community source archives that we build
# in this gate.  This mirror has been seeded to include "custom" source archives
# for a few components where the communities either no longer provide matching
# source archives or we have changes that aren't reflected in their archives or
# anywhere else.
INTERNAL_ARCHIVE_MIRROR =	http://userland.us.oracle.com/source-archives

# The location of an external mirror of community source archives that we build
# in this gate.  The external mirror is a replica of the internal mirror.
EXTERNAL_ARCHIVE_MIRROR = \
	http://static.opensolaris.org/action/browse/userland/tarball/userland

# Default to looking for source archives on the internal mirror and the external
# mirror before we hammer on the community source archive repositories.
export DOWNLOAD_SEARCH_PATH +=	$(INTERNAL_ARCHIVE_MIRROR)
export DOWNLOAD_SEARCH_PATH +=	$(EXTERNAL_ARCHIVE_MIRROR)

# The workspace starts at the mercurial root
export WS_TOP ?=		$(shell hg root)

WS_LOGS =	$(WS_TOP)/$(MACH)/logs
WS_REPO =	$(WS_TOP)/$(MACH)/repo
WS_TOOLS =	$(WS_TOP)/tools
WS_MAKE_RULES =	$(WS_TOP)/make-rules
WS_COMPONENTS =	$(WS_TOP)/components
WS_INCORPORATIONS =	$(WS_TOP)/incorporations
WS_LINT_CACHE =	$(WS_TOP)/$(MACH)/pkglint-cache

# we want our pkg piplines to fail if there is an error
# (like if pkgdepend fails in the middle of a pipe), but
# we don't want the builds or ./configure's failing as well.
# so we only set pipefail for the publish target and have
# to reset it for the others since they might be invoked
# as dependencies of publish.
export SHELLOPTS
build:		SHELLOPTS=
test:		SHELLOPTS=
install:	SHELLOPTS=
publish:	SHELLOPTS=pipefail

SHELL=	/bin/bash

CONSOLIDATION =	userland
PUBLISHER ?=	$(CONSOLIDATION)

ROOT =			/

OS_VERSION =		$(shell uname -r)
SOLARIS_VERSION =	$(OS_VERSION:5.%=2.%)

include $(WS_MAKE_RULES)/ips-buildinfo.mk

COMPILER =		studio
BITS =			32
PYTHON_VERSION =	2.6
PYTHON_VERSIONS =	2.6

BASS_O_MATIC =	$(WS_TOOLS)/bass-o-matic

CLONEY =	$(WS_TOOLS)/cloney

CONFIG_SHELL =	/bin/bash

PKG_REPO =	file:$(WS_REPO)

COMPONENT_DIR =	$(shell pwd)
SOURCE_DIR =	$(COMPONENT_DIR)/$(COMPONENT_SRC)
BUILD_DIR =	$(COMPONENT_DIR)/build
PROTO_DIR =	$(BUILD_DIR)/prototype/$(MACH)

ETCDIR =	/etc
USRDIR =	/usr
BINDIR =	/bin
SBINDIR =	/sbin
LIBDIR =	/lib
USRBINDIR =	$(USRDIR)/bin
USRSBINDIR =	$(USRDIR)/sbin
USRLIBDIR =	$(USRDIR)/lib
USRSHAREDIR =	$(USRDIR)/share
USRINCDIR =	$(USRDIR)/include
USRSHARELOCALEDIR =	$(USRSHAREDIR)/locale
USRSHAREMANDIR =	$(USRSHAREDIR)/man
USRSHAREDOCDIR =	$(USRSHAREDIR)/doc
USRSHARELIBDIR =	$(USRSHAREDIR)/lib
USRSHAREMAN1DIR =	$(USRSHAREMANDIR)/man1
USRSHAREMAN1MDIR =	$(USRSHAREMANDIR)/man1m
USRSHAREMAN3DIR =	$(USRSHAREMANDIR)/man3
USRSHAREMAN4DIR =	$(USRSHAREMANDIR)/man4
USRSHAREMAN5DIR =	$(USRSHAREMANDIR)/man5
USRLIBDIR64 =	$(USRDIR)/lib/$(MACH64)
PROTOBINDIR =	$(PROTO_DIR)/$(BINDIR)
PROTOETCDIR =	$(PROTO_DIR)/$(ETCDIR)
PROTOETCSECDIR = $(PROTO_DIR)/$(ETCDIR)/security
PROTOUSRDIR =	$(PROTO_DIR)/$(USRDIR)
PROTOLIBDIR =	$(PROTO_DIR)/$(LIBDIR)
PROTOUSRBINDIR =	$(PROTO_DIR)/$(USRBINDIR)
PROTOUSRSBINDIR =	$(PROTO_DIR)/$(USRSBINDIR)
PROTOUSRLIBDIR =	$(PROTO_DIR)/$(USRLIBDIR)
PROTOUSRLIBDIR64 =	$(PROTO_DIR)/$(USRLIBDIR64)
PROTOUSRINCDIR =	$(PROTO_DIR)/$(USRINCDIR)
PROTOUSRSHAREDIR =	$(PROTO_DIR)/$(USRSHAREDIR)
PROTOUSRSHARELIBDIR =	$(PROTO_DIR)/$(USRSHARELIBDIR)
PROTOUSRSHAREMANDIR =	$(PROTO_DIR)/$(USRSHAREMANDIR)
PROTOUSRSHAREDOCDIR =	$(PROTO_DIR)/$(USRSHAREDOCDIR)
PROTOUSRSHAREMAN1DIR =	$(PROTO_DIR)/$(USRSHAREMAN1DIR)
PROTOUSRSHAREMAN1MDIR =	$(PROTO_DIR)/$(USRSHAREMAN1MDIR)
PROTOUSRSHAREMAN3DIR =	$(PROTO_DIR)/$(USRSHAREMAN3DIR)
PROTOUSRSHAREMAN4DIR =	$(PROTO_DIR)/$(USRSHAREMAN4DIR)
PROTOUSRSHAREMAN5DIR =	$(PROTO_DIR)/$(USRSHAREMAN5DIR)
PROTOUSRSHARELOCALEDIR =	$(PROTO_DIR)/$(USRSHARELOCALEDIR)


SFWBIN =	/usr/sfw/bin
SFWINCLUDE =	/usr/sfw/include
SFWLIB =	/usr/sfw/lib
SFWLIB64 =	/usr/sfw/lib/$(MACH64)
SFWSHARE =	/usr/sfw/share
SFWSHAREMAN =	/usr/sfw/share/man
SFWSHAREMAN1 =	/usr/sfw/share/man/man1
PROTOSFWBIN =	$(PROTO_DIR)/$(SFWBIN)
PROTOSFWLIB =	$(PROTO_DIR)/$(SFWLIB)
PROTOSFWLIB64 =	$(PROTO_DIR)/$(SFWLIB64)
PROTOSFWSHARE =	$(PROTO_DIR)/$(SFWSHARE)
PROTOSFWSHAREMAN =	$(PROTO_DIR)/$(SFWSHAREMAN)
PROTOSFWSHAREMAN1 =	$(PROTO_DIR)/$(SFWSHAREMAN1)
PROTOSFWINCLUDE =	$(PROTO_DIR)/$(SFWINCLUDE)

GNUBIN =	/usr/gnu/bin
GNULIB =	/usr/gnu/lib
GNULIB64 =	/usr/gnu/lib/$(MACH64)
GNUSHARE =	/usr/gnu/share
GNUSHAREMAN =	/usr/gnu/share/man
GNUSHAREMAN1 =	/usr/gnu/share/man/man1
PROTOGNUBIN =	$(PROTO_DIR)/$(GNUBIN)
PROTOGNUSHARE =	$(PROTO_DIR)/$(GNUSHARE)
PROTOGNUSHAREMAN =	$(PROTO_DIR)/$(GNUSHAREMAN)
PROTOGNUSHAREMAN1 =	$(PROTO_DIR)/$(GNUSHAREMAN1)

# work around _TIME, _DATE, embedded date chatter in component builds
# to use, set TIME_CONSTANT in the component Makefile and add $(CONSTANT_TIME)
# to the appropriate {CONFIGURE|BUILD|INSTALL}_ENV
CONSTANT_TIME =		LD_PRELOAD_32=$(WS_TOOLS)/time-$(MACH32).so
CONSTANT_TIME +=	LD_PRELOAD_64=$(WS_TOOLS)/time-$(MACH64).so
CONSTANT_TIME +=	TIME_CONSTANT=$(TIME_CONSTANT)

# set MACH from uname -p to either sparc or i386
MACH =		$(shell uname -p)

# set MACH32 from MACH to either sparcv7 or i86
MACH32_1 =	$(MACH:sparc=sparcv7)
MACH32 =	$(MACH32_1:i386=i86)

# set MACH64 from MACH to either sparcv9 or amd64
MACH64_1 =	$(MACH:sparc=sparcv9)
MACH64 =	$(MACH64_1:i386=amd64)

CONFIGURE_32 =		$(BUILD_DIR_32)/.configured
CONFIGURE_64 =		$(BUILD_DIR_64)/.configured

BUILD_DIR_32 =		$(BUILD_DIR)/$(MACH32)
BUILD_DIR_64 =		$(BUILD_DIR)/$(MACH64)

BUILD_32 =		$(BUILD_DIR_32)/.built
BUILD_64 =		$(BUILD_DIR_64)/.built
BUILD_32_and_64 =	$(BUILD_32) $(BUILD_64)
$(BUILD_DIR_32)/.built:		BITS=32
$(BUILD_DIR_64)/.built:		BITS=64

INSTALL_32 =		$(BUILD_DIR_32)/.installed
INSTALL_64 =		$(BUILD_DIR_64)/.installed
INSTALL_32_and_64 =	$(INSTALL_32) $(INSTALL_64)
$(BUILD_DIR_32)/.installed:       BITS=32
$(BUILD_DIR_64)/.installed:       BITS=64

# set the default target for installation of the component
COMPONENT_INSTALL_TARGETS =	install

TEST_32 =		$(BUILD_DIR_32)/.tested
TEST_64 =		$(BUILD_DIR_64)/.tested
TEST_32_and_64 =	$(TEST_32) $(TEST_64)
$(BUILD_DIR_32)/.tested:       BITS=32
$(BUILD_DIR_64)/.tested:       BITS=64

# set the default target for test of the component
COMPONENT_TEST_TARGETS =	check

# BUILD_TOOLS is the root of all tools not normally installed on the system.
BUILD_TOOLS =	/ws/onnv-tools

SPRO_ROOT =	$(BUILD_TOOLS)/SUNWspro
SPRO_VROOT =	$(SPRO_ROOT)/sunstudio12.1

GCC_ROOT =	/usr/sfw

CC.studio.32 =	$(SPRO_VROOT)/bin/cc
CXX.studio.32 =	$(SPRO_VROOT)/bin/CC

CC.studio.64 =	$(SPRO_VROOT)/bin/cc
CXX.studio.64 =	$(SPRO_VROOT)/bin/CC

CC.gcc.32 =	$(GCC_ROOT)/bin/gcc
CXX.gcc.32 =	$(GCC_ROOT)/bin/g++

CC.gcc.64 =	$(GCC_ROOT)/bin/gcc
CXX.gcc.64 =	$(GCC_ROOT)/bin/g++

CC =		$(CC.$(COMPILER).$(BITS))
CXX =		$(CXX.$(COMPILER).$(BITS))

lint.32 =	$(SPRO_VROOT)/bin/lint -m32
lint.64 =	$(SPRO_VROOT)/bin/lint -m64

LINT =		$(lint.$(BITS))

LD =		/usr/bin/ld

PYTHON_VENDOR_PACKAGES.32 = /usr/lib/python$(PYTHON_VERSION)/vendor-packages
PYTHON_VENDOR_PACKAGES.64 = /usr/lib/python$(PYTHON_VERSION)/vendor-packages/64
PYTHON_VENDOR_PACKAGES = $(PYTHON_VENDOR_PACKAGES.$(BITS))

PYTHON.2.6.32 =	/usr/bin/python2.6
PYTHON.2.6.64 =	/usr/bin/$(MACH64)/python2.6

PYTHON.32 =	$(PYTHON.$(PYTHON_VERSION).$(BITS))
PYTHON.64 =	$(PYTHON.$(PYTHON_VERSION).$(BITS))
PYTHON =	$(PYTHON.$(PYTHON_VERSION).$(BITS))

# The default is site-packages, but that directory belongs to the end-user.
# Modules which are shipped by the OS but not with the core Python distribution
# belong in vendor-packages.
PYTHON_LIB= /usr/lib/python$(PYTHON_VERSION)/vendor-packages

JAVA_HOME =	/usr/jdk/instances/jdk1.6.0

# This is the default BUILD version of perl
# Not necessarily the system's default version, i.e. /usr/bin/perl
PERL_VERSION =  5.12

PERL_VERSIONS = 5.8.4 5.12

PERL.5.8.4 =    /usr/perl5/5.8.4/bin/perl
PERL.5.12 =     /usr/perl5/5.12/bin/perl

PERL =          $(PERL.$(PERL_VERSION))

PERL_ARCH =     $(shell $(PERL) -e 'use Config; print $$Config{archname}')
# Optimally we should ask perl which C compiler was used but it doesn't
# result in a full path name.  Only "c" is being recorded
# inside perl builds while we actually need a full path to
# the studio compiler.
#PERL_CC =      $(shell $(PERL) -e 'use Config; print $$Config{cc}')
PERL_OPTIMIZE = $(shell $(PERL) -e 'use Config; print $$Config{optimize}')

PKG_MACROS +=   PERL_ARCH=$(PERL_ARCH)
PKG_MACROS +=   PERL_VERSION=$(PERL_VERSION)

CCSMAKE =	/usr/ccs/bin/make
GMAKE =		/usr/gnu/bin/make
GPATCH =	/usr/gnu/bin/patch
PATCH_LEVEL =	1
GPATCH_BACKUP =	--backup --version-control=numbered
GPATCH_FLAGS =	-p$(PATCH_LEVEL) $(GPATCH_BACKUP)
GSED =		/usr/gnu/bin/sed

PKGREPO =	/usr/bin/pkgrepo
PKGSEND =	/usr/bin/pkgsend
PKGLINT =	/usr/bin/pkglint

ACLOCAL =	/usr/bin/aclocal-1.10
AUTOMAKE =	/usr/bin/automake-1.10
AUTORECONF = 	/usr/bin/autoreconf

KSH93 =         /usr/bin/ksh93
TOUCH =		/usr/bin/touch
MKDIR =		/bin/mkdir -p
RM =		/bin/rm -f
CP =		/bin/cp -f
MV =		/bin/mv -f
LN =		/bin/ln
SYMLINK =	/bin/ln -s
ENV =		/usr/bin/env
INSTALL =	/usr/bin/ginstall
CHMOD =		/usr/bin/chmod
NAWK =		/usr/bin/nawk
TEE =		/usr/bin/tee

INS.dir=        $(INSTALL) -d [email protected]
INS.file=       $(INSTALL) -m 444 $< $(@D)

PKG_CONFIG_PATH.32 = /usr/lib/pkgconfig
PKG_CONFIG_PATH.64 = /usr/lib/$(MACH64)/pkgconfig
PKG_CONFIG_PATH = PKG_CONFIG_PATH.$(BITS)


#
# C preprocessor flag sets to ease feature selection.  Add the required
# feature to your Makefile with CPPFLAGS += $(FEATURE_MACRO) and add to
# the component build with CONFIGURE_OPTIONS += CPPFLAGS="$(CPPFLAGS)" or
# similiar.
#

# Enables visibility of some c99 math functions that aren't visible by default.
# What other side-effects are there?
CPP_C99_EXTENDED_MATH =	-D_STDC_99

# Enables large file support for components that have no other means of doing
# so.  Use CPP_LARGEFILES and not the .32/.64 variety directly
CPP_LARGEFILES.32 =	$(shell getconf LFS_CFLAGS)
CPP_LARGEFILES.64 =	$(shell getconf LFS64_CFLAGS)
CPP_LARGEFILES =		$(CPP_LARGEFILES.$(BITS))

# Enables some #pragma redefine_extname to POSIX-compliant Standard C Library
# functions. Also avoids the component's #define _POSIX_C_SOURCE to some value
# we currently do not support.
CPP_POSIX =	-D_POSIX_C_SOURCE=200112L -D_POSIX_PTHREAD_SEMANTICS

# XPG6 mode.  This option enables XPG6 conformance, plus extensions.
# Amongst other things, this option will cause system calls like
# popen (3C) and system (3C) to invoke the standards-conforming
# shell, /usr/xpg4/bin/sh, instead of /usr/bin/sh.  Add studio_XPG6MODE to
# CFLAGS instead of using this directly
CPP_XPG6MODE=	-D_XOPEN_SOURCE=600 -D__EXTENSIONS__=1 -D_XPG6

# XPG5 mode. These options are specific for C++, where _XPG6,
# _XOPEN_SOURCE=600 and C99 are illegal. -D__EXTENSIONS__=1 is legal in C++.
CPP_XPG5MODE=   -D_XOPEN_SOURCE=500 -D__EXTENSIONS__=1 -D_XPG5

#
# Studio C compiler flag sets to ease feature selection.  Add the required
# feature to your Makefile with CFLAGS += $(FEATURE_MACRO) and add to the
# component build with CONFIGURE_OPTIONS += CFLAGS="$(CFLAGS)" or similiar.
#

# Generate 32/64 bit objects
CC_BITS =	-m$(BITS)

# Code generation instruction set and optimization 'hints'.  Use studio_XBITS
# and not the .arch.bits variety directly.
studio_XBITS.sparc.32 =	-xtarget=ultra2 -xarch=sparcvis -xchip=ultra2
studio_XBITS.sparc.64 =	-xtarget=ultra2 -xarch=sparcvis -xchip=ultra2
studio_XBITS.i386.32 =	-xchip=pentium
studio_XBITS.i386.64 =	-xchip=generic -Ui386 -U__i386
studio_XBITS = $(studio_XBITS.$(MACH).$(BITS))

# Turn on recognition of supported C99 language features and enable the 1999 C
# standard library semantics of routines that appear in	both the 1990 and
# 1999 C standard. To use set studio_C99MODE=$(studio_99_ENABLE) in your
# component Makefile.
studio_C99_ENABLE =		-xc99=all

# Turn off recognition of C99 language features, and do not enable the 1999 C
# standard library semantics of routines that appeared in both the 1990	and
# 1999 C standard.  To use set studio_C99MODE=$(studio_99_DISABLE) in your
# component Makefile.
studio_C99_DISABLE =	-xc99=none

# Use the compiler default 'xc99=all,no_lib'
studio_C99MODE =

# For C++, compatibility with C99 (which is technically illegal) is
# enabled in a different way. So, we must use a different macro for it.
studio_cplusplus_C99_ENABLE = 	-xlang=c99

# Turn it off.
studio_cplusplus_C99_DISABLE =

# And this is the macro you should actually use
studio_cplusplus_C99MODE = 

# Allow zero-sized struct/union declarations and void functions with return
# statements.
studio_FEATURES_EXTENSIONS =	-features=extensions

# Control the Studio optimization level.
studio_OPT.sparc.32 =	-xO4
studio_OPT.sparc.64 =	-xO4
studio_OPT.i386.32 =	-xO4
studio_OPT.i386.64 =	-xO4
studio_OPT =		$(studio_OPT.$(MACH).$(BITS))

# Studio PIC code generation.  Use CC_PIC instead to select PIC code generation.
studio_PIC = 	-KPIC -DPIC

# The Sun Studio 11 compiler has changed the behaviour of integer
# wrap arounds and so a flag is needed to use the legacy behaviour
# (without this flag panics/hangs could be exposed within the source).
# This is used through studio_IROPTS, not the 'sparc' variety.
studio_IROPTS.sparc =	-W2,-xwrap_int
studio_IROPTS =		$(studio_IROPTS.$(MACH))

# Control register usage for generated code.  SPARC ABI requires system
# libraries not to use application registers.  x86 requires 'no%frameptr' at
# x04 or higher.

# We should just use -xregs but we need to workaround 7030022. Note
# that we can't use the (documented) -Wc,-xregs workaround because
# libtool really hates -Wc and thinks it should be -Wl. Instead
# we use an (undocumented) option which actually happens to be what
# CC would use.
studio_XREGS.sparc =	-Qoption cg -xregs=no%appl
studio_XREGS.i386 =	-xregs=no%frameptr
studio_XREGS =		$(studio_XREGS.$(MACH))

gcc_XREGS.sparc =	-mno-app-regs
gcc_XREGS.i386 =
gcc_XREGS =		$(gcc_XREGS.$(MACH))

# Set data alignment on sparc to reasonable values, 8 byte alignment for 32 bit
# objects and 16 byte alignment for 64 bit objects.  This is added to CFLAGS by
# default.
studio_ALIGN.sparc.32 =	-xmemalign=8s
studio_ALIGN.sparc.64 =	-xmemalign=16s
studio_ALIGN =		$(studio_ALIGN.$(MACH).$(BITS))

# Studio shorthand for building multi-threaded code,  enables -D_REENTRANT and
# linking with threadin support.  This is added to CFLAGS by default, override
# studio_MT to turn this off.
studio_MT =		-mt

# See CPP_XPG6MODE comment above.
studio_XPG6MODE =	$(studio_C99MODE) $(CPP_XPG6MODE)
XPG6MODE =		$(studio_XPG6MODE)

# See CPP_XPG5MODE comment above. You can only use this in C++, not in C99.
studio_XPG5MODE =	$(studio_cplusplus_C99MODE) $(CPP_XPG5MODE)
XPG5MODE =		$(studio_XPG5MODE)

# Default Studio C compiler flags.  Add the required feature to your Makefile
# with CFLAGS += $(FEATURE_MACRO) and add to the component build with
# CONFIGURE_OPTIONS += CFLAGS="$(CFLAGS)" or similiar.  In most cases, it
# should not be necessary to add CFLAGS to any environment other than the
# configure environment.
CFLAGS.studio +=	$(studio_OPT) $(studio_XBITS) $(studio_XREGS) \
			$(studio_IROPTS) $(studio_C99MODE) $(studio_ALIGN) \
			$(studio_MT)

#
# GNU C compiler flag sets to ease feature selection.  Add the required
# feature to your Makefile with CFLAGS += $(FEATURE_MACRO) and add to the
# component build with CONFIGURE_OPTIONS += CFLAGS="$(CFLAGS)" or similiar.
#

# GCC Compiler optimization flag
gcc_OPT =	-O3

# GCC PIC code generation.  Use CC_PIC instead to select PIC code generation.
gcc_PIC =	-fPIC -DPIC

# Generic macro for PIC code generation.  Use this macro instead of the
# compiler specific variant.
CC_PIC =	$($(COMPILER)_PIC)


# Default GNU C compiler flags.  Add the required feature to your Makefile
# with CFLAGS += $(FEATURE_MACRO) and add to the component build with
# CONFIGURE_OPTIONS += CFLAGS="$(CFLAGS)" or similiar.  In most cases, it
# should not be necessary to add CFLAGS to any environment other than the
# configure environment.
CFLAGS.gcc +=	$(gcc_OPT)
CFLAGS.gcc +=	$(gcc_XREGS)


# Build 32 or 64 bit objects.
CFLAGS +=	$(CC_BITS)

# Add compiler specific 'default' features
CFLAGS +=	$(CFLAGS.$(COMPILER))


# Studio C++ requires -norunpath to avoid adding its location into the RUNPATH
# to C++ applications.
studio_NORUNPATH =	 -norunpath

# To link in standard mode (the default mode) without any C++ libraries
# (except libCrun), use studio_LIBRARY_NONE in your component Makefile.
studio_LIBRARY_NONE =	 -library=%none

# Don't link C++ with any C++ Runtime or Standard C++ library
studio_CXXLIB_NONE =	-xnolib

# Link C++ with the Studio C++ Runtime and Standard C++ library.  This is the
# default for "standard" mode.
studio_CXXLIB_CSTD =	-library=Cstd,Crun

# link C++ with the Studio  C++ Runtime and Apache Standard C++ library
studio_CXXLIB_APACHE =	-library=stdcxx4,Crun

# Add the C++ ABI compatibility flags for older ABI compatibility.  The default
# is "standard mode" (-compat=5)
studio_COMPAT_VERSION_4 =	-compat=4

# Tell the compiler that we don't want the studio runpath added to the
# linker flags.  We never want the Studio location added to the RUNPATH.
CXXFLAGS +=	$($(COMPILER)_NORUNPATH)

# Build 32 or 64 bit objects in C++ as well.
CXXFLAGS +=	$(CC_BITS)

#
# Solaris linker flag sets to ease feature selection.  Add the required
# feature to your Makefile with LDFLAGS += $(FEATURE_MACRO) and add to the
# component build with CONFIGURE_OPTIONS += LDFLAGS="$(LDFLAGS)" or similiar.
#

# set the bittedness that we want to link
LD_BITS =	-$(BITS)

# Reduce the symbol table size, effectively conflicting with -g.  We should
# get linker guidance here.
LD_Z_REDLOCSYM =	-z redlocsym

# Cause the linker to rescan archive libraries and resolve remaining unresolved
# symbols recursively until all symbols are resolved.  Components should be
# linking in the libraries they need, in the required order.  This should
# only be required if the component's native build is horribly broken.
LD_Z_RESCAN_NOW =	-z rescan-now

LD_Z_TEXT =		-z direct

# make sure all symbols are defined.
LD_Z_DEFS =		-z defs

# eliminate unreferenced dynamic dependencies
LD_Z_IGNORE =		-z ignore

# use direct binding
LD_B_DIRECT =		-Bdirect

#
# More Solaris linker flags that we want to be sure that everyone gets.  This
# is automatically added to the calling environment during the 'build' and
# 'install' phases of the component build.  Each individual feature can be
# turned off by adding FEATURE_MACRO= to the component Makefile.
#

# Create a non-executable stack when linking.
LD_MAP_NOEXSTK.i386 =	-M /usr/lib/ld/map.noexstk
LD_MAP_NOEXSTK.sparc =	-M /usr/lib/ld/map.noexstk

# Create a non-executable bss segment when linking.
LD_MAP_NOEXBSS =	-M /usr/lib/ld/map.noexbss

# Create a non-executable data segment when linking.  Due to PLT needs, the
# data segment must be executable on sparc, but the bss does not.
# see mapfile comments for more information
LD_MAP_NOEXDATA.i386 =	-M /usr/lib/ld/map.noexdata
LD_MAP_NOEXDATA.sparc =	$(LD_MAP_NOEXBSS)

# Page alignment
LD_MAP_PAGEALIGN =	-M /usr/lib/ld/map.pagealign

# Linker options to add when only building libraries
LD_OPTIONS_SO +=	$(LD_Z_TEXT) $(LD_Z_DEFS)

# Default linker options that everyone should get.  Do not add additional
# libraries to this macro, as it will apply to everything linked during the
# component build.
LD_OPTIONS +=	$(LD_MAP_NOEXSTK.$(MACH)) $(LD_MAP_NOEXDATA.$(MACH)) \
		$(LD_MAP_PAGEALIGN) $(LD_B_DIRECT) $(LD_Z_IGNORE)

# Environment variables and arguments passed into the build and install
# environment(s).  These are the initial settings.
COMPONENT_BUILD_ENV= \
    LD_OPTIONS="$(LD_OPTIONS)"
COMPONENT_INSTALL_ENV= \
    LD_OPTIONS="$(LD_OPTIONS)"

# Add any bit-specific settings
COMPONENT_BUILD_ENV += $(COMPONENT_BUILD_ENV.$(BITS))
COMPONENT_BUILD_ARGS += $(COMPONENT_BUILD_ARGS.$(BITS))
COMPONENT_INSTALL_ENV += $(COMPONENT_INSTALL_ENV.$(BITS))
COMPONENT_INSTALL_ARGS += $(COMPONENT_INSTALL_ARGS.$(BITS))

# declare these phony so that we avoid filesystem conflicts.
.PHONY:	prep build install publish test clean clobber

# If there are no tests to execute
NO_TESTS =	test-nothing
test-nothing:
	@echo "There are no tests available at this time."