# # 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 2008 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # # This Makefile contains the common targets and definitions for # all kernels. It is to be included in the Makefiles for specific # implementation architectures and processor architecture dependent # modules: i.e.: all driving kernel Makefiles. # # Include global definitions: # include $(SRC)/Makefile.master # # No text domain in the kernel. # DTEXTDOM = # # Keep references to $(SRC)/common relative. COMMONBASE= $(UTSBASE)/../common # # Setup build-specific vars # To add a build type: # add name to ALL_BUILDS32 & ALL_BUILDS64 # set CLASS_name and OBJ_DIR_name # add targets to Makefile.targ # # # DEF_BUILDS is for def, lint, sischeck, and install # ALL_BUILDS is for everything else (all, clean, ...) # # The NOT_RELEASE_BUILD noise is to maintain compatibility with the # gatekeeper's nightly build script. # DEF_BUILDS32 = obj32 DEF_BUILDS64 = obj64 DEF_BUILDSONLY64 = obj64 $(NOT_RELEASE_BUILD)DEF_BUILDS32 = debug32 $(NOT_RELEASE_BUILD)DEF_BUILDS64 = debug64 $(NOT_RELEASE_BUILD)DEF_BUILDSONLY64 = debug64 ALL_BUILDS32 = obj32 debug32 ALL_BUILDS64 = obj64 debug64 ALL_BUILDSONLY64 = obj64 debug64 # # For modules in 64b dirs that aren't built 64b # or modules in 64b dirs that aren't built 32b we # need to create empty modlintlib files so global lint works # LINT32_BUILDS = debug32 LINT64_BUILDS = debug64 # # Build class (32b or 64b) # CLASS_OBJ32 = 32 CLASS_DBG32 = 32 CLASS_OBJ64 = 64 CLASS_DBG64 = 64 CLASS = $(CLASS_$(BUILD_TYPE)) # # Build subdirectory # OBJS_DIR_OBJ32 = obj32 OBJS_DIR_DBG32 = debug32 OBJS_DIR_OBJ64 = obj64 OBJS_DIR_DBG64 = debug64 OBJS_DIR = $(OBJS_DIR_$(BUILD_TYPE)) # # Create defaults so empty rules don't # confuse make # CLASS_ = 32 OBJS_DIR_ = debug32 # # Build tools # CC_sparc_32 = $(sparc_CC) CC_sparc_64 = $(sparcv9_CC) CC_i386_32 = $(i386_CC) CC_i386_64 = $(amd64_CC) CC_amd64_64 = $(amd64_CC) CC = $(CC_$(MACH)_$(CLASS)) AS_sparc_32 = $(sparc_AS) AS_sparc_64 = $(sparcv9_AS) AS_i386_32 = $(i386_AS) AS_i386_64 = $(amd64_AS) AS_amd64_64 = $(amd64_AS) AS = $(AS_$(MACH)_$(CLASS)) LD_sparc_32 = $(sparc_LD) LD_sparc_64 = $(sparcv9_LD) LD_i386_32 = $(i386_LD) LD_i386_64 = $(amd64_LD) LD_amd64_64 = $(amd64_LD) LD = $(LD_$(MACH)_$(CLASS)) LINT_sparc_32 = $(sparc_LINT) LINT_sparc_64 = $(sparcv9_LINT) LINT_i386_32 = $(i386_LINT) LINT_i386_64 = $(amd64_LINT) LINT_amd64_64 = $(amd64_LINT) LINT = $(LINT_$(MACH)_$(CLASS)) MODEL_32 = ilp32 MODEL_64 = lp64 MODEL = $(MODEL_$(CLASS)) # # Build rules for linting the kernel. # LHEAD = ( $(ECHO) "\n$@"; # Note: egrep returns "failure" if there are no matches, which is # exactly the opposite of what we need. LGREP.2 = if egrep -v ' (_init|_fini|_info|_depends_on) '; then false; else true; fi LTAIL = ) LINT.c = $(LINT) -c -dirout=$(LINTS_DIR) $(LINTFLAGS) $(LINT_DEFS) $(CPPFLAGS) # Please do not add new erroff directives here. If you need to disable # lint warnings in your module for things that cannot be fixed in any # reasonable manner, please augment LINTTAGS in your module Makefile # instead. LINTTAGS = -erroff=E_INCONS_ARG_DECL2 LINTTAGS += -erroff=E_INCONS_VAL_TYPE_DECL2 LINTFLAGS_sparc_32 = $(LINTCCMODE) -nsxmuF -errtags=yes LINTFLAGS_sparc_64 = $(LINTFLAGS_sparc_32) -m64 LINTFLAGS_i386_32 = $(LINTCCMODE) -nsxmuF -errtags=yes LINTFLAGS_i386_64 = $(LINTFLAGS_i386_32) -m64 LINTFLAGS = $(LINTFLAGS_$(MACH)_$(CLASS)) $(LINTTAGS) LINTFLAGS += $(C99LMODE) # # Override this variable to modify the name of the lint target. # LINT_MODULE= $(MODULE) # # Build the compile/assemble lines: # EXTRA_OPTIONS = AS_DEFS = -D_ASM -D__STDC__=0 ALWAYS_DEFS_32 = -D_KERNEL -D_SYSCALL32 -D_DDI_STRICT ALWAYS_DEFS_64 = -D_KERNEL -D_SYSCALL32 -D_SYSCALL32_IMPL -D_ELF64 \ -D_DDI_STRICT # # XX64 This should be defined by the compiler! # ALWAYS_DEFS_64 += -Dsun -D__sun -D__SVR4 ALWAYS_DEFS = $(ALWAYS_DEFS_$(CLASS)) # # CPPFLAGS is deliberatly set with a "=" and not a "+=". For the kernel # the header include path should not look for header files outside of # the kernel code. This "=" removes the search path built in # Makefile.master inside CPPFLAGS. Ditto for AS_CPPFLAGS. # CPPFLAGS = $(ALWAYS_DEFS) $(ALL_DEFS) $(CONFIG_DEFS) \ $(INCLUDE_PATH) $(EXTRA_OPTIONS) ASFLAGS += -P AS_CPPFLAGS = $(ALWAYS_DEFS) $(ALL_DEFS) $(CONFIG_DEFS) $(AS_DEFS) \ $(AS_INC_PATH) $(EXTRA_OPTIONS) # # Make it (relatively) easy to share compilation options between # all kernel implementations. # # Override the default, the kernel is squeaky clean CERRWARN = -errtags=yes -errwarn=%all C99MODE = $(C99_ENABLE) CFLAGS_uts = CFLAGS_uts += $(STAND_FLAGS_$(CLASS)) CFLAGS_uts += $(CCVERBOSE) CFLAGS_uts += $(ILDOFF) CFLAGS_uts += $(XAOPT) CFLAGS_uts += $(CTF_FLAGS) CFLAGS_uts += $(CERRWARN) CFLAGS_uts += $(CGLOBALSTATIC) CFLAGS_uts += $(EXTRA_CFLAGS) # # Declare that $(OBJECTS) and $(LINTS) can be compiled in parallel. # The DUMMY target is for those instances where OBJECTS and LINTS # are empty (to avoid an unconditional .PARALLEL). .PARALLEL: $(OBJECTS) $(LINTS) DUMMY # # Expanded dependencies # DEF_DEPS = $(DEF_BUILDS:%=def.%) ALL_DEPS = $(ALL_BUILDS:%=all.%) CLEAN_DEPS = $(ALL_BUILDS:%=clean.%) CLOBBER_DEPS = $(ALL_BUILDS:%=clobber.%) LINT_DEPS = $(DEF_BUILDS:%=lint.%) MODLINTLIB_DEPS = $(DEF_BUILDS:%=modlintlib.%) MODLIST_DEPS = $(DEF_BUILDS:%=modlist.%) CLEAN_LINT_DEPS = $(ALL_BUILDS:%=clean.lint.%) INSTALL_DEPS = $(DEF_BUILDS:%=install.%) SYM_DEPS = $(SYM_BUILDS:%=symcheck.%) SISCHECK_DEPS = $(DEF_BUILDS:%=sischeck.%) SISCLEAN_DEPS = $(ALL_BUILDS:%=sisclean.%) # # Default module name # BINARY = $(OBJS_DIR)/$(MODULE) # # Default cleanup definitions # CLEANLINTFILES = $(LINTS) $(MOD_LINT_LIB) CLEANFILES = $(OBJECTS) $(CLEANLINTFILES) CLOBBERFILES = $(BINARY) $(CLEANFILES) # # Installation constants: # # FILEMODE is the mode given to the kernel modules # CFILEMODE is the mode given to the '.conf' files # FILEMODE = 755 DIRMODE = 755 OWNER = root GROUP = sys CFILEMODE = 644 # # Special Installation Macros for the installation of '.conf' files. # # These are unique because they are not installed from the current # working directory. # # Sigh. Apparently at some time in the past there was a confusion on # whether the name is SRC_CONFFILE or SRC_CONFILE. Consistency with the # other names would indicate SRC_CONFFILE, but the voting is >180 Makefiles # with SRC_CONFILE and about 11 with SRC_CONFFILE. Software development # isn't a popularity contest, though, and so my inclination is to define # both names for now and incrementally convert to SRC_CONFFILE to be consistent # with the other names. # CONFFILE = $(MODULE).conf SRC_CONFFILE = $(CONF_SRCDIR)/$(CONFFILE) SRC_CONFILE = $(SRC_CONFFILE) ROOT_CONFFILE_32 = $(ROOTMODULE).conf ROOT_CONFFILE_64 = $(ROOTMODULE:%/$(SUBDIR64)/$(MODULE)=%/$(MODULE)).conf ROOT_CONFFILE = $(ROOT_CONFFILE_$(CLASS)) $(EXPORT_RELEASE_BUILD)ROOT_ACTFILE = $(ROOTMODULE).esa INS.conffile= \ $(RM) $@; $(INS) -s -m $(CFILEMODE) -f $(@D) $(SRC_CONFFILE) $(CH)INS.conffile= \ $(INS) -s -m $(CFILEMODE) -u $(OWNER) -g $(GROUP) -f $(@D) $(SRC_CONFFILE) INS.actfile= \ $(RM) $@; $(INS) -s -m $(CFILEMODE) -f $(@D) $(BINARY).esa $(CH)INS.actfile= \ $(INS) -s -m $(CFILEMODE) -u $(OWNER) -g $(GROUP) -f $(@D) $(BINARY).esa # # The CTF merge of child kernel modules is performed against one of the genunix # modules. For Intel builds, all modules will be used with a single genunix: # the one built in intel/genunix. For SPARC builds, a given # module may be # used with one of a number of genunix files, depending on what platform the # module is deployed on. We merge against the sun4u genunix to optimize for # the common case. We also merge against the ip driver since networking is # typically loaded and types defined therein are shared between many modules. # CTFMERGE_GUDIR_sparc = sun4u CTFMERGE_GUDIR_i386 = intel CTFMERGE_GUDIR = $(CTFMERGE_GUDIR_$(MACH)) CTFMERGE_GENUNIX = \ $(UTSBASE)/$(CTFMERGE_GUDIR)/genunix/$(OBJS_DIR)/genunix # # Used to uniquify a non-genunix module against genunix. If used in patch # mode (PATCH_BUILD != "#"), the patch ID corresponding to the module being # built will be used as the label. If no ID is available, or if patch mode # is not being used, the value of $VERSION will be used. # CTFMERGE_UNIQUIFY_AGAINST_GENUNIX = \ @label="-L VERSION" ; \ if [ -z "$(PATCH_BUILD)" ] ; then \ uniq="-D BASE" ; \ set -- `$(CTFFINDMOD) -n -r -t $(PMTMO_FILE) $@` ; \ if [ "X$$1" != "X-" ] ; then \ label="-l $$1" ; \ if [ "$$2" != "fcs" ] ; then \ uniq="-D $$2" ; \ fi ; \ fi ; \ fi ; \ mergecmd="$(CTFMERGE) $(CTFMRGFLAGS)" ; \ cmd="$$mergecmd $$label -d $(CTFMERGE_GENUNIX) $$uniq -o $@" ; \ echo $$cmd "$(OBJECTS) $(CTFEXTRAOBJS)" ; \ $$cmd $(OBJECTS) $(CTFEXTRAOBJS) # # Used to merge the genunix module. genunix has special requirements in # patch mode. In particular, it needs to be able to find the genunix used # in the previous version of the KU patch (or the FCS version of genunix in # the case of KU 1). # CTFMERGE_GENUNIX_MERGE = \ @if [ -z "$(PATCH_BUILD)" ] ; then \ set -- `$(CTFFINDMOD) -b $(OBJS_DIR) -o patch,lastgu -n -r \ -t $(PMTMO_FILE) $(GENUNIX) || true` '' ; \ msg= ; \ if [ $$$(POUND_SIGN) -eq 1 ] ; \ then msg="Error in $(CTFFINDMOD)" ; \ elif [ "X$$1" = "X-" ] ; then msg="Did not get label" ; \ elif [ "X$$2" = "X-" ] ; then msg="Did not get withfile" ; \ fi ; \ if [ -n "$$msg" ] ; then \ echo "make ctf: $$msg - removing $(GENUNIX)" ; \ $(RM) $(GENUNIX) ; \ exit 1 ; \ fi ; \ label="-l $$1" ; \ with="-w $$2" ; \ else \ label="-L VERSION" ; \ fi ; \ cmd="$(CTFMERGE) $(CTFMRGFLAGS) $$label $$with -o $@" ; \ echo $$cmd "$(OBJECTS) $(CTFEXTRAOBJS) $(IPCTF_TARGET)"; \ $$cmd $(OBJECTS) $(CTFEXTRAOBJS) $(IPCTF_TARGET) # # We ctfmerge the ip objects into genunix to maximize the number of common types # found there, thus maximizing the effectiveness of uniquification. We don't # want the genunix build to have to know about the individual ip objects, so we # put them in an archive. The genunix ctfmerge then includes this archive. # IPCTF = $(IPDRV_DIR)/$(OBJS_DIR)/ipctf.a # # Rule for building fake shared libraries used for symbol resolution # when building other modules. -znoreloc is needed here to avoid # tripping over code that isn't really suitable for shared libraries. # BUILD.SO = \ $(LD) -o $@ $(GSHARED) $(ZNORELOC) -h $(SONAME) # # SONAME defaults for common fake shared libraries. # $(LIBGEN) := SONAME = $(MODULE) $(PLATLIB) := SONAME = misc/platmod $(CPULIB) := SONAME = 'cpu/$$CPU' $(DTRACESTUBS) := SONAME = dtracestubs # # Installation directories # # # For now, 64b modules install into a subdirectory # of their 32b brethren. # SUBDIR64_sparc = sparcv9 SUBDIR64_i386 = amd64 SUBDIR64 = $(SUBDIR64_$(MACH)) ROOT_MOD_DIR = $(ROOT)/kernel ROOT_KERN_DIR_32 = $(ROOT_MOD_DIR) ROOT_BRAND_DIR_32 = $(ROOT_MOD_DIR)/brand ROOT_DRV_DIR_32 = $(ROOT_MOD_DIR)/drv ROOT_DTRACE_DIR_32 = $(ROOT_MOD_DIR)/dtrace ROOT_EXEC_DIR_32 = $(ROOT_MOD_DIR)/exec ROOT_FS_DIR_32 = $(ROOT_MOD_DIR)/fs ROOT_SCHED_DIR_32 = $(ROOT_MOD_DIR)/sched ROOT_STRMOD_DIR_32 = $(ROOT_MOD_DIR)/strmod ROOT_IPP_DIR_32 = $(ROOT_MOD_DIR)/ipp ROOT_SYS_DIR_32 = $(ROOT_MOD_DIR)/sys ROOT_MISC_DIR_32 = $(ROOT_MOD_DIR)/misc ROOT_KGSS_DIR_32 = $(ROOT_MOD_DIR)/misc/kgss ROOT_SCSI_VHCI_DIR_32 = $(ROOT_MOD_DIR)/misc/scsi_vhci ROOT_NLMISC_DIR_32 = $(ROOT_MOD_DIR)/misc ROOT_MACH_DIR_32 = $(ROOT_MOD_DIR)/mach ROOT_CPU_DIR_32 = $(ROOT_MOD_DIR)/cpu ROOT_TOD_DIR_32 = $(ROOT_MOD_DIR)/tod ROOT_FONT_DIR_32 = $(ROOT_MOD_DIR)/fonts ROOT_DACF_DIR_32 = $(ROOT_MOD_DIR)/dacf ROOT_CRYPTO_DIR_32 = $(ROOT_MOD_DIR)/crypto ROOT_MAC_DIR_32 = $(ROOT_MOD_DIR)/mac ROOT_DEVNAME_DIR_32 = $(ROOT_MOD_DIR)/devname ROOT_KICONV_DIR_32 = $(ROOT_MOD_DIR)/kiconv ROOT_KERN_DIR_64 = $(ROOT_MOD_DIR)/$(SUBDIR64) ROOT_BRAND_DIR_64 = $(ROOT_MOD_DIR)/brand/$(SUBDIR64) ROOT_DRV_DIR_64 = $(ROOT_MOD_DIR)/drv/$(SUBDIR64) ROOT_DTRACE_DIR_64 = $(ROOT_MOD_DIR)/dtrace/$(SUBDIR64) ROOT_EXEC_DIR_64 = $(ROOT_MOD_DIR)/exec/$(SUBDIR64) ROOT_FS_DIR_64 = $(ROOT_MOD_DIR)/fs/$(SUBDIR64) ROOT_SCHED_DIR_64 = $(ROOT_MOD_DIR)/sched/$(SUBDIR64) ROOT_STRMOD_DIR_64 = $(ROOT_MOD_DIR)/strmod/$(SUBDIR64) ROOT_IPP_DIR_64 = $(ROOT_MOD_DIR)/ipp/$(SUBDIR64) ROOT_SYS_DIR_64 = $(ROOT_MOD_DIR)/sys/$(SUBDIR64) ROOT_MISC_DIR_64 = $(ROOT_MOD_DIR)/misc/$(SUBDIR64) ROOT_KGSS_DIR_64 = $(ROOT_MOD_DIR)/misc/kgss/$(SUBDIR64) ROOT_SCSI_VHCI_DIR_64 = $(ROOT_MOD_DIR)/misc/scsi_vhci/$(SUBDIR64) ROOT_NLMISC_DIR_64 = $(ROOT_MOD_DIR)/misc/$(SUBDIR64) ROOT_MACH_DIR_64 = $(ROOT_MOD_DIR)/mach/$(SUBDIR64) ROOT_CPU_DIR_64 = $(ROOT_MOD_DIR)/cpu/$(SUBDIR64) ROOT_TOD_DIR_64 = $(ROOT_MOD_DIR)/tod/$(SUBDIR64) ROOT_FONT_DIR_64 = $(ROOT_MOD_DIR)/fonts/$(SUBDIR64) ROOT_DACF_DIR_64 = $(ROOT_MOD_DIR)/dacf/$(SUBDIR64) ROOT_CRYPTO_DIR_64 = $(ROOT_MOD_DIR)/crypto/$(SUBDIR64) ROOT_MAC_DIR_64 = $(ROOT_MOD_DIR)/mac/$(SUBDIR64) ROOT_DEVNAME_DIR_64 = $(ROOT_MOD_DIR)/devname/$(SUBDIR64) ROOT_KICONV_DIR_64 = $(ROOT_MOD_DIR)/kiconv/$(SUBDIR64) ROOT_KERN_DIR = $(ROOT_KERN_DIR_$(CLASS)) ROOT_BRAND_DIR = $(ROOT_BRAND_DIR_$(CLASS)) ROOT_DRV_DIR = $(ROOT_DRV_DIR_$(CLASS)) ROOT_DTRACE_DIR = $(ROOT_DTRACE_DIR_$(CLASS)) ROOT_EXEC_DIR = $(ROOT_EXEC_DIR_$(CLASS)) ROOT_FS_DIR = $(ROOT_FS_DIR_$(CLASS)) ROOT_SCHED_DIR = $(ROOT_SCHED_DIR_$(CLASS)) ROOT_STRMOD_DIR = $(ROOT_STRMOD_DIR_$(CLASS)) ROOT_IPP_DIR = $(ROOT_IPP_DIR_$(CLASS)) ROOT_SYS_DIR = $(ROOT_SYS_DIR_$(CLASS)) ROOT_MISC_DIR = $(ROOT_MISC_DIR_$(CLASS)) ROOT_KGSS_DIR = $(ROOT_KGSS_DIR_$(CLASS)) ROOT_SCSI_VHCI_DIR = $(ROOT_SCSI_VHCI_DIR_$(CLASS)) ROOT_NLMISC_DIR = $(ROOT_NLMISC_DIR_$(CLASS)) ROOT_MACH_DIR = $(ROOT_MACH_DIR_$(CLASS)) ROOT_CPU_DIR = $(ROOT_CPU_DIR_$(CLASS)) ROOT_TOD_DIR = $(ROOT_TOD_DIR_$(CLASS)) ROOT_FONT_DIR = $(ROOT_FONT_DIR_$(CLASS)) ROOT_DACF_DIR = $(ROOT_DACF_DIR_$(CLASS)) ROOT_CRYPTO_DIR = $(ROOT_CRYPTO_DIR_$(CLASS)) ROOT_MAC_DIR = $(ROOT_MAC_DIR_$(CLASS)) ROOT_DEVNAME_DIR = $(ROOT_DEVNAME_DIR_$(CLASS)) ROOT_KICONV_DIR = $(ROOT_KICONV_DIR_$(CLASS)) ROOT_MOD_DIRS_32 = $(ROOT_BRAND_DIR_32) $(ROOT_DRV_DIR_32) ROOT_MOD_DIRS_32 = $(ROOT_BRAND_DIR_32) $(ROOT_DRV_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_EXEC_DIR_32) $(ROOT_DTRACE_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_FS_DIR_32) $(ROOT_SCHED_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_STRMOD_DIR_32) $(ROOT_SYS_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_IPP_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_MISC_DIR_32) $(ROOT_MACH_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_KGSS_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_SCSI_VHCI_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_CPU_DIR_32) $(ROOT_FONT_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_TOD_DIR_32) $(ROOT_DACF_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_CRYPTO_DIR_32) $(ROOT_MAC_DIR_32) ROOT_MOD_DIRS_32 += $(ROOT_DEVNAME_DIR_32) $(ROOT_KICONV_DIR_32) USR_MOD_DIR = $(ROOT)/usr/kernel USR_DRV_DIR_32 = $(USR_MOD_DIR)/drv USR_EXEC_DIR_32 = $(USR_MOD_DIR)/exec USR_FS_DIR_32 = $(USR_MOD_DIR)/fs USR_SCHED_DIR_32 = $(USR_MOD_DIR)/sched USR_STRMOD_DIR_32 = $(USR_MOD_DIR)/strmod USR_SYS_DIR_32 = $(USR_MOD_DIR)/sys USR_MISC_DIR_32 = $(USR_MOD_DIR)/misc USR_DACF_DIR_32 = $(USR_MOD_DIR)/dacf USR_PCBE_DIR_32 = $(USR_MOD_DIR)/pcbe USR_DEVNAME_DIR_32 = $(USR_MOD_DIR)/devname USR_DRV_DIR_64 = $(USR_MOD_DIR)/drv/$(SUBDIR64) USR_EXEC_DIR_64 = $(USR_MOD_DIR)/exec/$(SUBDIR64) USR_FS_DIR_64 = $(USR_MOD_DIR)/fs/$(SUBDIR64) USR_SCHED_DIR_64 = $(USR_MOD_DIR)/sched/$(SUBDIR64) USR_STRMOD_DIR_64 = $(USR_MOD_DIR)/strmod/$(SUBDIR64) USR_SYS_DIR_64 = $(USR_MOD_DIR)/sys/$(SUBDIR64) USR_MISC_DIR_64 = $(USR_MOD_DIR)/misc/$(SUBDIR64) USR_DACF_DIR_64 = $(USR_MOD_DIR)/dacf/$(SUBDIR64) USR_PCBE_DIR_64 = $(USR_MOD_DIR)/pcbe/$(SUBDIR64) USR_DEVNAME_DIR_64 = $(USR_MOD_DIR)/devname/$(SUBDIR64) USR_DRV_DIR = $(USR_DRV_DIR_$(CLASS)) USR_EXEC_DIR = $(USR_EXEC_DIR_$(CLASS)) USR_FS_DIR = $(USR_FS_DIR_$(CLASS)) USR_SCHED_DIR = $(USR_SCHED_DIR_$(CLASS)) USR_STRMOD_DIR = $(USR_STRMOD_DIR_$(CLASS)) USR_SYS_DIR = $(USR_SYS_DIR_$(CLASS)) USR_MISC_DIR = $(USR_MISC_DIR_$(CLASS)) USR_DACF_DIR = $(USR_DACF_DIR_$(CLASS)) USR_PCBE_DIR = $(USR_PCBE_DIR_$(CLASS)) USR_DEVNAME_DIR = $(USR_DEVNAME_DIR_$(CLASS)) USR_MOD_DIRS_32 = $(USR_DRV_DIR_32) $(USR_EXEC_DIR_32) USR_MOD_DIRS_32 += $(USR_FS_DIR_32) $(USR_SCHED_DIR_32) USR_MOD_DIRS_32 += $(USR_STRMOD_DIR_32) $(USR_SYS_DIR_32) USR_MOD_DIRS_32 += $(USR_MISC_DIR_32) $(USR_DACF_DIR_32) USR_MOD_DIRS_32 += $(USR_PCBE_DIR_32) $(USR_DEVNAME_DIR_32) # # # include $(SRC)/Makefile.psm # # Set ownership on links. # CHOWNLINK= $(CH)CHOWNLINK= ; $(CHOWN) $(OWNER) $@ CHGRPLINK= $(CH)CHGRPLINK= ; $(CHGRP) $(GROUP) $@ # # The "-r" on the remove may be considered temporary, but is required # while the replacement of the SUNW,SPARCstation-10,SX directory by # a symbolic link is being propagated. # INS.slink1= $(RM) -r $@; $(SYMLINK) $(PLATFORM) $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink2= $(RM) -r $@; $(SYMLINK) ../$(PLATFORM)/$(@F) $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink3= $(RM) -r $@; $(SYMLINK) $(IMPLEMENTED_PLATFORM) $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink4= $(RM) -r $@; $(SYMLINK) ../$(PLATFORM)/include $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink5= $(RM) -r $@; $(SYMLINK) ../$(PLATFORM)/sbin $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink6= $(RM) -r $@; $(SYMLINK) ../../$(PLATFORM)/lib/$(MODULE) $@ $(CHOWNLINK) $(CHGRPLINK) INS.slink7= $(RM) -r $@; $(SYMLINK) ../../$(PLATFORM)/sbin/$(@F) $@ $(CHOWNLINK) $(CHGRPLINK) ROOT_PLAT_LINKS = $(PLAT_LINKS:%=$(ROOT_PLAT_DIR)/%) ROOT_PLAT_LINKS_2 = $(PLAT_LINKS_2:%=$(ROOT_PLAT_DIR)/%) USR_PLAT_LINKS = $(PLAT_LINKS:%=$(USR_PLAT_DIR)/%) USR_PLAT_LINKS_2 = $(PLAT_LINKS_2:%=$(USR_PLAT_DIR)/%) # # Collection of all relevant, delivered kernel modules. # # Note that we insist on building genunix first, because everything else # uniquifies against it. When doing a 'make' from usr/src/uts/, we'll enter # the platform directories first. These will cd into the corresponding genunix # directory and build it. So genunix /shouldn't/ get rebuilt when we get to # building all the kernel modules. However, due to an as-yet-unexplained # problem with dependencies, sometimes it does get rebuilt, which then messes # up the other modules. So we always force the issue here rather than try to # build genunix in parallel with everything else. # PARALLEL_KMODS = $(DRV_KMODS) $(EXEC_KMODS) $(FS_KMODS) $(SCHED_KMODS) \ $(TOD_KMODS) $(STRMOD_KMODS) $(SYS_KMODS) $(MISC_KMODS) \ $(NLMISC_KMODS) $(MACH_KMODS) $(CPU_KMODS) $(GSS_KMODS) \ $(MMU_KMODS) $(DACF_KMODS) $(EXPORT_KMODS) $(IPP_KMODS) \ $(CRYPTO_KMODS) $(PCBE_KMODS) \ $(DRV_KMODS_$(CLASS)) $(MISC_KMODS_$(CLASS)) $(MAC_KMODS) \ $(DEVNAME_KMODS) $(BRAND_KMODS) $(KICONV_KMODS) KMODS = $(GENUNIX_KMODS) $(PARALLEL_KMODS) $(PARALLEL_KMODS): $(GENUNIX_KMODS) $(CLOSED_BUILD)CLOSED_KMODS = $(CLOSED_DRV_KMODS) $(CLOSED_TOD_KMODS) \ $(CLOSED_MISC_KMODS) \ $(CLOSED_NLMISC_KMODS) $(CLOSED_DRV_KMODS_$(CLASS)) LINT_KMODS = $(DRV_KMODS) $(EXEC_KMODS) $(FS_KMODS) $(SCHED_KMODS) \ $(TOD_KMODS) $(STRMOD_KMODS) $(SYS_KMODS) $(MISC_KMODS) \ $(MACH_KMODS) $(GSS_KMODS) $(DACF_KMODS) $(IPP_KMODS) \ $(CRYPTO_KMODS) $(PCBE_KMODS) $(DEVNAME_KMODS) \ $(DRV_KMODS_$(CLASS)) $(MISC_KMODS_$(CLASS)) $(MAC_KMODS) \ $(BRAND_KMODS) $(KICONV_KMODS) $(CLOSED_BUILD)CLOSED_LINT_KMODS = $(CLOSED_DRV_KMODS) $(CLOSED_TOD_KMODS) \ $(CLOSED_MISC_KMODS) $(CLOSED_DRV_KMODS_$(CLASS)) THIS_YEAR:sh= /bin/date +%Y $(OBJS_DIR)/logsubr.o := CPPFLAGS += -DTHIS_YEAR=$(THIS_YEAR) $(OBJS_DIR)/logsubr.ln := CPPFLAGS += -DTHIS_YEAR=$(THIS_YEAR) # # Files to be compiled with -xa, to generate basic block execution # count data. # # There are several ways to compile parts of the kernel for kcov: # 1) Add targets to BB_FILES here or in other Makefiles # (they must in the form of $(OBJS_DIR)/target.o) # 2) setenv BB_FILES '$(XXX_OBJS:%=$(OBJS_DIR)/%)' # 3) setenv BB_FILES '$(OBJECTS)' # # Do NOT setenv CFLAGS -xa, as that will cause infinite recursion # in unix_bb.o # BB_FILES = $(BB_FILES) := XAOPT = -xa # # The idea here is for unix_bb.o to be in all kernels except the # kernel which actually gets shipped to customers. In practice, # $(RELEASE_BUILD) is on for a number of the late beta and fcs builds. # CODE_COVERAGE= $(RELEASE_BUILD)CODE_COVERAGE:sh= echo \\043 $(CODE_COVERAGE)$(OBJS_DIR)/unix_bb.o := CPPFLAGS += -DKCOV $(CODE_COVERAGE)$(OBJS_DIR)/unix_bb.ln := CPPFLAGS += -DKCOV # # Do not let unix_bb.o get compiled with -xa! # $(OBJS_DIR)/unix_bb.o := XAOPT = # # MPSAS support # MPSAS_BUILD:sh= echo \\043 # # Privilege files # PRIVS_AWK = $(SRC)/uts/common/os/privs.awk PRIVS_DEF = $(SRC)/uts/common/os/priv_defs