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# 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
# 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]
# Copyright (c) 1989, 2010, Oracle and/or its affiliates. All rights reserved.
# Copyright 2012 Nexenta Systems, Inc. All rights reserved.
# include global definitions
include ../Makefile.master
# List of architectures to build as part of the standard build.
# Some of these architectures are built in parallel (see i386_PARALLEL and
# sparc_PARALLEL). This requires building some parts first before parallel build
# can start. Platform make files know what should be built as a prerequisite for
# the parallel build to work. The i386_PREREQ and sparc_PREREQ variables tell
# which platform directory to enter to start making prerequisite dependencies.
sparc_ARCHITECTURES = sun4v sun4u sparc
i386_ARCHITECTURES = i86pc i86xpv intel
# For i386 all architectures can be compiled in parallel.
# intel/Makefile knows how to build prerequisites needed for parallel build.
i386_PREREQ = intel
# For sparc all architectures can be compiled in parallel.
# sun4/Makefile knows how to build prerequisites needed for parallel build.
# can start.
sparc_PREREQ = sun4
# Platforms defined in $(MACH)_PARALLEL are built in parallel. DUMMY is placed
# at the end in case $(MACH)_PARALLEL is empty to prevent everything going in
# parallel.
# For build prerequisites we use a special target which is constructed by adding
# '.prereq' suffix to the $(MACH)_PREREQ.
PREREQ_TARGET = $($(MACH)_PREREQ:%=%.prereq)
def := TARGET= def
all := TARGET= all
install := TARGET= install
install_h := TARGET= install_h
clean := TARGET= clean
clobber := TARGET= clobber
clobber_h := TARGET= clobber
lint := TARGET= lint
clean.lint := TARGET= clean.lint
check := TARGET= check
modlist := TARGET= modlist
modlist := NO_STATE= -K $$MODSTATE$$$$
def all lint: all_h $(PMTMO_FILE) $($(MACH)_ARCHITECTURES)
install: all_h install_dirs $(PMTMO_FILE) $($(MACH)_ARCHITECTURES)
@cd ..; pwd; $(MAKE) rootdirs
# Rule to build prerequisites. The left part of the pattern will match
# The location of the Makefile is determined by strippinng '.prereq' suffix from
# the target name. We add '.prereq' suffix to the target passed to the child
# Makefile so that it can distinguish prerequisite build from the regular one.
@cd $(@:%.prereq=%); pwd; $(MAKE) $(NO_STATE) $(TARGET).prereq
# Rule to build architecture files. Build all required prerequisites and then
# build the rest (potentially in parallel).
@cd $@; pwd; $(MAKE) $(NO_STATE) $(TARGET)
@if [ -z "$(PATCH_MAKEUP_TABLE)" ] ; then \
echo 'ERROR: $$(PATCH_MAKEUP_TABLE) not set' \
'in environment' >&2 ; \
exit 1 ; \
# The following is the list of directories which contain Makefiles with
# targets to install header file. The machine independent headers are
# installed by invoking the Makefile in the directory containing the
# header files. Machine and architecture dependent headers are installed
# by invoking the main makefile for that architecture/machine which,
# in turn, is responsible for invoking the Makefiles which install headers.
# It is done this way so as not to assume that all of the header files in
# the architecture/machine dependent subdirectories are in completely
# isomorphic locations.
COMMON_HDRDIRS= common/avs \
common/c2 \
common/des \
common/fs \
common/gssapi \
common/idmap \
common/klm \
common/inet \
common/inet/ipf/netinet \
common/inet/kssl \
common/inet/nca \
common/inet/sockmods/netpacket \
common/io/bpf/net \
common/io/fibre-channel/fca/qlc \
common/io/lvm/md \
common/ipp \
common/net \
common/netinet \
common/nfs \
common/pcmcia/sys \
common/rpc \
common/rpcsvc \
common/sharefs \
common/smb \
common/smbsrv \
common/sys \
# Subset of COMMON_HDRDIRS in which at least one header is generated
# at runtime (e.g., rpcgen), and in which "make clean" should run.
# Other directories should be included here, but do not yet have the
# necessary Makefile support (make clean). See 6414855.
DYNHDRDIRS = common/avs \
common/gssapi \
common/idmap \
common/io/fibre-channel/fca/qlc \
common/io/lvm/md \
common/klm \
common/rpc \
common/rpcsvc \
sparc_HDRDIRS= sun/sys
i386_HDRDIRS= i86pc/vm i86xpv/vm
install_h check: $(HDRDIRS) $($(MACH)_ARCHITECTURES)
@cd $@; pwd; $(MAKE) $(TARGET)
# ensures that headers made by rpcgen and others are available in uts source
# for kernel builds to reference without building install_h
all_h: FRC
@cd common/sys; pwd; $(MAKE) $@
@cd common/rpc; pwd; $(MAKE) $@
@cd common/rpcsvc; pwd; $(MAKE) $@
@cd common/gssapi; pwd; $(MAKE) $@
@cd common/idmap; pwd; $(MAKE) $@
@cd common/klm; pwd; $(MAKE) $@
@if [ '$(PATCH_BUILD)' != '#' ] ; then \
echo $(RM) $(PMTMO_FILE) ; \
$(RM) $(PMTMO_FILE) ; \
# testing convenience
clobber_h: $(DYNHDRDIRS)
clean.lint modlist: $($(MACH)_ARCHITECTURES)
# Cross-reference customization: build a cross-reference over all of
# the supported architectures. Although there's no correct way to set
# the include path (since we don't know what architecture is the one
# the user will be interested in), it's historically been set to
# mirror the $(XRDIRS) list, and that works kinda sorta okay.
XRDIRS = $(sparc_ARCHITECTURES) $(i386_ARCHITECTURES) sun4 sfmmu \
sun common
cscope.out tags: FRC
$(XREF) -x $@