# # 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) 2011, 2015, Oracle and/or its affiliates. All rights reserved. # Copyright 2014 Andrzej Szeszo. All rights reserved. # # # Rules and Macros for generating an IPS package manifest and publishing an # IPS package to a pkg depot. # # To use these rules, include ../make-rules/ips.mk in your Makefile # and define an "install" target appropriate to building your component. # Ex: # # install: $(BUILD_DIR)/build/$(MACH32)/.installed \ # $(BUILD_DIR)/build/$(MACH64)/.installed # # This set of rules makes the "publish" target the default target for make(1) # .NOTPARALLEL: PKGDEPEND = /usr/bin/pkgdepend PKGFMT = /usr/bin/pkgfmt PKGMOGRIFY = /usr/bin/pkgmogrify PKGSEND = /usr/bin/pkgsend ifeq ($(strip $(PKGLINT_COMPONENT)),) PKGLINT = /usr/bin/python /usr/bin/pkglint else PKGLINT = ${WS_TOOLS}/pkglint endif PKGMANGLE = $(WS_TOOLS)/userland-mangler WS_TRANSFORMS = $(WS_TOP)/transforms GENERATE_HISTORY= $(WS_TOOLS)/generate-history HISTORY= history # Package headers should all pretty much follow the same format METADATA_TEMPLATE = $(WS_TOP)/transforms/manifest-metadata-template COPYRIGHT_TEMPLATE = $(WS_TOP)/transforms/copyright-template # order is important GENERATE_TRANSFORMS += $(WS_TOP)/transforms/generate-cleanup ifeq ($(strip $(DROP_STATIC_LIBRARIES)),yes) GENERATE_TRANSFORMS += $(WS_TOP)/transforms/archive-libraries-drop endif PKGMOGRIFY_TRANSFORMS += $(WS_TOP)/transforms/libtool-drop PKGMOGRIFY_TRANSFORMS += $(WS_TOP)/transforms/ignore-libs PKGMOGRIFY_TRANSFORMS += $(WS_TOP)/transforms/ignore-gcc-usr-lib LICENSE_TRANSFORMS = $(WS_TOP)/transforms/license-changes # order is important PUBLISH_TRANSFORMS += $(LICENSE_TRANSFORMS) PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/variant-cleanup PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/autopyc PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/python PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/perl PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/defaults PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/actuators PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/devel PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/docs PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/locale PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/python-3-soabi PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/python-3-no-32bit PUBLISH_TRANSFORMS += $(PKGMOGRIFY_TRANSFORMS) PUBLISH_TRANSFORMS += $(WS_TOP)/transforms/publish-cleanup FINAL_TRANSFORMS += $(WS_TOP)/transforms/final-cleanup define add-limiting-variable PKG_VARS += $(1) MANIFEST_LIMITING_VARS += -D $(1)="$(subst #,\#,$($(1)))" endef # Make all the limiting variables available to manifest processing $(foreach var, $(filter PY3_%_NAMING,$(.VARIABLES)), \ $(eval $(call add-limiting-variable,$(var)))) AUTOGEN_MANIFEST_TRANSFORMS += $(WS_TOP)/transforms/drop-all # For items defined as variables or that may contain whitespace, add # them to a list to be expanded into PKG_OPTIONS later. PKG_VARS += MACH MACH32 MACH64 PKG_VARS += BUILD_VERSION OS_VERSION PKG_SOLARIS_VERSION PKG_VARS += GNU_TRIPLET PKG_VARS += GCC_GNU_TRIPLET PKG_VARS += CONSOLIDATION PKG_VARS += COMPONENT_VERSION IPS_COMPONENT_VERSION HUMAN_VERSION PKG_VARS += COMPONENT_ARCHIVE_URL COMPONENT_PROJECT_URL COMPONENT_NAME PKG_VARS += COMPONENT_FMRI COMPONENT_LICENSE_FILE PKG_VARS += COMPONENT_SUMMARY COMPONENT_DESCRIPTION COMPONENT_LICENSE PKG_VARS += HG_REPO HG_REV HG_URL COMPONENT_HG_URL COMPONENT_HG_REV PKG_VARS += GIT_COMMIT_ID GIT_REPO GIT_TAG PKG_VARS += PUBLISHER PUBLISHER_LOCALIZABLE PKG_VARS += USERLAND_GIT_REMOTE USERLAND_GIT_BRANCH USERLAND_GIT_REV PKG_VARS += COMPONENT # For items that need special definition, add them to PKG_MACROS. # IPS_COMPONENT_VERSION suitable for use in regular expressions. PKG_MACROS += IPS_COMPONENT_RE_VERSION=$(subst .,\\.,$(IPS_COMPONENT_VERSION)) # COMPONENT_VERSION suitable for use in regular expressions. PKG_MACROS += COMPONENT_RE_VERSION=$(subst .,\\.,$(COMPONENT_VERSION)) # HUMAN_VERSION suitable for use in regular expressions. PKG_MACROS += HUMAN_VERSION_RE=$(subst .,\\.,$(HUMAN_VERSION)) PKG_OPTIONS += $(PKG_MACROS:%=-D %) \ -D COMPONENT_CLASSIFICATION="org.opensolaris.category.2008:$(strip $(COMPONENT_CLASSIFICATION))" define mach-list-generate-macros ifeq ($(MACH),$(1)) PKG_MACROS += $(1)_ONLY= PKG_MACROS += $(1)_EXCL=\# else PKG_MACROS += $(1)_ONLY=\# PKG_MACROS += $(1)_EXCL= endif endef $(foreach isa,$(MACH_LIST),$(eval $(call mach-list-generate-macros,$(isa)))) PKG_MACROS += GCCVER=$(GCC_VERSION) PKG_MACROS += CLANGVER=$(CLANG_VERSION) define python-generate-macros PKG_MACROS += PYTHON_$(1)_ONLY=\# PKG_MACROS += PYTHON_$(1)_EXCL= endef $(foreach ver,$(PYTHON_VERSIONS),$(eval $(call python-generate-macros,$(ver)))) PKG_MACROS += PYTHON_32_ONLY= MANGLED_DIR = $(PROTO_DIR)/mangled PKG_PROTO_DIRS += $(MANGLED_DIR) $(PROTO_DIR) $(@D) $(COMPONENT_DIR) $(COMPONENT_SRC) MANIFEST_BASE = $(BUILD_DIR)/manifest-$(MACH) SAMPLE_MANIFEST_DIR = $(COMPONENT_DIR)/manifests SAMPLE_MANIFEST_FILE = $(SAMPLE_MANIFEST_DIR)/sample-manifest.p5m CANONICAL_MANIFESTS = $(filter-out dummy.p5m %.ARCH.p5m,$(wildcard *.p5m)) ifneq ($(wildcard $(HISTORY)),) HISTORICAL_MANIFESTS = $(shell $(NAWK) -v FUNCTION=name -f $(GENERATE_HISTORY) < $(HISTORY)) endif # Support for arch specific manifests ARCH_MANIFESTS = $(wildcard *.p5m.$(MACH)) GENERATED_ARCH_MANIFESTS = $(ARCH_MANIFESTS:%.p5m.$(MACH)=%.ARCH.p5m) CANONICAL_MANIFESTS += $(GENERATED_ARCH_MANIFESTS) %.ARCH.p5m: %.p5m.$(MACH) $(CP) $< $@ define ips-print-depend-require-rule $(shell cat $(1) $(WS_TOP)/transforms/print-depend-require |\ $(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 |\ sed -e '/^$$/d' -e '/^#.*$$/d' | $(SORT) -u) endef define ips-print-depend-require-versioned-rule $(foreach v,$($(1)V_VALUES),\ $(shell cat $(2) $(WS_TOP)/transforms/print-pkgs |\ $(PKGMOGRIFY) $(PKG_OPTIONS) -D $($(1)V_FMRI_VERSION)=$(v) /dev/fd/0 |\ sed -e '/^$$/d' -e '/^#.*$$/d' | $(SORT) -u)) endef define ips-print-depend-require-type-rule $(foreach m,$($(1)_MANIFESTS),$(call ips-print-depend-require-versioned-rule,$(1),$(m))) endef define ips-print-names-rule $(shell cat $(1) $(WS_TOP)/transforms/print-pkgs |\ $(PKGMOGRIFY) $(PKG_OPTIONS) $(call per-manifest-options,$(1:.p5m=)) /dev/fd/0 |\ sed -e '/^$$/d' -e '/^#.*$$/d' | $(SORT) -u) endef define ips-print-names-versioned-rule $(foreach v,$($(1)V_VALUES),\ $(shell cat $(2) $(WS_TOP)/transforms/print-pkgs |\ $(PKGMOGRIFY) $(PKG_OPTIONS) -D $($(1)V_FMRI_VERSION)=$(v) /dev/fd/0 |\ sed -e '/^$$/d' -e '/^#.*$$/d' | $(SORT) -u)) endef # # In addition to the concrete per-version packages, we also need to emit the # name of the generic package which pulls in the concrete packages. # define ips-print-names-generic-rule $(shell cat $(2) $(WS_TOP)/transforms/mkgeneric $(BUILD_DIR)/mkgeneric-python \ $(WS_TOP)/transforms/print-pkgs |\ $(PKGMOGRIFY) $(PKG_OPTIONS) -D $($(1)V_FMRI_VERSION)=\#\#\# /dev/fd/0 |\ sed -e '/^$$/d' -e '/^#.*$$/d' | $(SORT) -u) endef define ips-print-names-type-rule $(foreach m,$($(1)_MANIFESTS),\ $(call ips-print-names-versioned-rule,$(1),$(m))\ $(call ips-print-names-generic-rule,$(1),$(m))\ ) endef VERSIONED_MANIFEST_TYPES = UNVERSIONED_MANIFESTS = $(filter-out %-GENFRAG.p5m, $(CANONICAL_MANIFESTS)) # Look for manifests which need to be duplicated for each version of python. ifeq ($(findstring -PYVER,$(CANONICAL_MANIFESTS)),-PYVER) VERSIONED_MANIFEST_TYPES+= PY NOPY_MANIFESTS = $(filter-out %-PYVER.p5m,$(UNVERSIONED_MANIFESTS)) PY_MANIFESTS = $(filter %-PYVER.p5m,$(CANONICAL_MANIFESTS)) PYV_VALUES = $(subst .,,$(PYTHON_VERSIONS)) PYV_FMRI_VERSION = PYV PYV_MANIFESTS = $(foreach v,$(PYV_VALUES),$(PY_MANIFESTS:-PYVER.p5m=-$(v).p5m)) PYNV_MANIFESTS = $(PY_MANIFESTS:-PYVER.p5m=.p5m) MKGENERIC_SCRIPTS += $(BUILD_DIR)/mkgeneric-python else NOPY_MANIFESTS = $(UNVERSIONED_MANIFESTS) endif # PYTHON_PYV_VALUES contains list of all possible PYV values we could encounter: # - for all currently supported python versions (from PYTHON_VERSIONS) # - for all python versions we are currently obsoleting (from PYTHON_VERSIONS_OBSOLETING) # - the $(PYV) string itself PYTHON_PYV_VALUES = $(subst .,,$(PYTHON_VERSIONS) $(PYTHON_VERSIONS_OBSOLETING)) $$(PYV) # Convert REQUIRED_PACKAGES to PYTHON_REQUIRED_PACKAGES for runtime/python REQUIRED_PACKAGES_TRANSFORM += $(foreach v,$(subst $,\$,$(PYTHON_PYV_VALUES)),-e 's|^\(.*runtime/python\)-$(v)$$|PYTHON_\1|g') # Convert REQUIRED_PACKAGES to PYTHON_REQUIRED_PACKAGES for library/python/* REQUIRED_PACKAGES_TRANSFORM += $(foreach v,$(subst $,\$,$(PYTHON_PYV_VALUES)),-e 's|^\(.*library/python/.*\)-$(v)$$|PYTHON_\1|g') # Look for manifests which need to be duplicated for each version of perl. ifeq ($(findstring -PERLVER,$(UNVERSIONED_MANIFESTS)),-PERLVER) VERSIONED_MANIFEST_TYPES+= PERL NOPERL_MANIFESTS = $(filter-out %-PERLVER.p5m,$(NOPY_MANIFESTS)) PERL_MANIFESTS = $(filter %-PERLVER.p5m,$(UNVERSIONED_MANIFESTS)) PERLV_VALUES = $(subst .,,$(PERL_VERSIONS)) PERLV_FMRI_VERSION = PLV PERLV_MANIFESTS = $(foreach v,$(PERLV_VALUES),$(PERL_MANIFESTS:-PERLVER.p5m=-$(v).p5m)) PERLNV_MANIFESTS = $(PERL_MANIFESTS:-PERLVER.p5m=.p5m) else NOPERL_MANIFESTS = $(NOPY_MANIFESTS) endif # PERL_PLV_VALUES contains list of all possible PLV values we could encounter: # - for all currently supported perl versions (from PERL_VERSIONS) # - for all perl versions we are currently obsoleting (from PERL_VERSIONS_OBSOLETING) # - the $(PLV) string itself PERL_PLV_VALUES = $(subst .,,$(PERL_VERSIONS) $(PERL_VERSIONS_OBSOLETING)) $$(PLV) # Convert REQUIRED_PACKAGES to PERL_REQUIRED_PACKAGES for runtime/perl REQUIRED_PACKAGES_TRANSFORM += $(foreach v,$(subst $,\$,$(PERL_PLV_VALUES)),-e 's|^\(.*runtime/perl\)-$(v)$$|PERL_\1|g') # Convert REQUIRED_PACKAGES to PERL_REQUIRED_PACKAGES for library/perl-5/* REQUIRED_PACKAGES_TRANSFORM += $(foreach v,$(subst $,\$,$(PERL_PLV_VALUES)),-e 's|^\(.*library/perl-5/.*\)-$(v)$$|PERL_\1|g') # Look for manifests which need to be duplicated for each version of ruby. # NOPERL_MANIFESTS represents the manifests that are not Python or # Perl manifests. Extract the Ruby Manifests from NOPERL_MANIFESTS. # Any remaining manifests are stored in NONRUBY_MANIFESTS ifeq ($(findstring -RUBYVER,$(NOPERL_MANIFESTS)),-RUBYVER) VERSIONED_MANIFEST_TYPES+= RUBY NORUBY_MANIFESTS = $(filter-out %-RUBYVER.p5m,$(NOPERL_MANIFESTS)) RUBY_MANIFESTS = $(filter %-RUBYVER.p5m,$(NOPERL_MANIFESTS)) RUBYV_VALUES = $(RUBY_VERSIONS) RUBYV_FMRI_VERSION = RUBYV RUBYV_MANIFESTS = $(foreach v,$(RUBY_VERSIONS),$(RUBY_MANIFESTS:-RUBYVER.p5m=-$(subst $(space),,$(wordlist 1,2,$(subst ., ,$(v)))).p5m)) RUBYNV_MANIFESTS = $(RUBY_MANIFESTS:-RUBYVER.p5m=.p5m) else NORUBY_MANIFESTS = $(NOPERL_MANIFESTS) endif NONVER_MANIFESTS = $(NORUBY_MANIFESTS) VERSIONED_MANIFESTS = \ $(PYV_MANIFESTS) $(PYNV_MANIFESTS) \ $(PERLV_MANIFESTS) $(PERLNV_MANIFESTS) \ $(RUBYV_MANIFESTS) $(RUBYNV_MANIFESTS) \ $(NORUBY_MANIFESTS) GENERATED = $(MANIFEST_BASE)-generated COMBINED = $(MANIFEST_BASE)-combined MANIFESTS = $(VERSIONED_MANIFESTS:%=$(MANIFEST_BASE)-%) DEPENDED=$(VERSIONED_MANIFESTS:%.p5m=$(MANIFEST_BASE)-%.depend) RESOLVED=$(VERSIONED_MANIFESTS:%.p5m=$(MANIFEST_BASE)-%.depend.res) PRE_PUBLISHED=$(RESOLVED:%.depend.res=%.pre-published) PUBLISHED=$(RESOLVED:%.depend.res=%.published) PUBLISHED += $(HISTORICAL_MANIFESTS:%.p5m=$(MANIFEST_BASE)-%.published) COPYRIGHT_FILE ?= $(COMPONENT_NAME)-$(COMPONENT_VERSION).copyright IPS_COMPONENT_VERSION ?= $(COMPONENT_VERSION) .DEFAULT: publish .SECONDARY: # allow publishing to be overridden, such as when # a package is for one architecture only. PRE_PUBLISH_STAMP ?= $(BUILD_DIR)/.pre-published-$(MACH) PUBLISH_STAMP ?= $(BUILD_DIR)/.published-$(MACH) # Do all that is needed to ensure the package is consistent for publishing, # except actually pushing to a repo, separately from the push to the repo. pre-publish: build install $(PRE_PUBLISH_STAMP) publish: pre-publish update-metadata $(PUBLISH_STAMP) sample-manifest: $(GENERATED).p5m $(GENERATED).p5m: install $(GENERATE_EXTRA_DEPS) $(MKDIR) $(SAMPLE_MANIFEST_DIR) $(PKGSEND) generate $(PKG_HARDLINKS:%=--target %) $(PROTO_DIR) | \ $(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 $(GENERATE_TRANSFORMS) | \ $(GSED) -e '/^$$/d' -e '/^#.*$$/d' \ -e '/\.la$$/d' \ -e 's/$(subst .,\.,$(GNU_TRIPLET))/$$(GNU_TRIPLET)/g' | \ $(PKGFMT) -u | \ uniq | \ $(PKGFMT) | \ $(CAT) $(METADATA_TEMPLATE) - $(GENERATE_EXTRA_CMD) | \ $(TEE) $@ $(SAMPLE_MANIFEST_FILE) >/dev/null # copy the canonical manifest(s) to the build tree $(MANIFEST_BASE)-%.generate: %.p5m canonical-manifests cat $(METADATA_TEMPLATE) $< >$@ # The text of a transform that will emit a dependency conditional on the # presence of a particular version of a runtime, which will then draw in the # runtime-version-specific version of the package we're operating on. $(1) is # the name of the runtime package, and $(2) is the version suffix. mkgeneric = \ echo " emit depend nodrop=true type=conditional" \ "predicate=$(1)-$(2) fmri=%<1>-$(2)@%<2>>" >> $@; mkgenericdep = \ ( echo -n " emit depend nodrop=true type=require-any " ; \ for i in $(2); do echo -n "fmri=%<1>-$$i@%<2> " ; done ; \ echo ">" ) >> $@ # Define and execute a macro that generates a rule to create a manifest for a # python module specific to a particular version of the python runtime. define python-manifest-rule $(MANIFEST_BASE)-%-$(2).mogrified: PKG_MACROS += PYTHON_$(1)_ONLY= PYTHON_$(1)_EXCL=\# ifneq ($(filter $(1),$(PYTHON_64_ONLY_VERSIONS)),) $(MANIFEST_BASE)-%-$(2).mogrified: PKG_MACROS += PYTHON_32_ONLY=\# endif $(MANIFEST_BASE)-%-$(2).p5m: %-PYVER.p5m $(PKGMOGRIFY) -D PYVER=$(1) $(MANIFEST_LIMITING_VARS) -D PYV=$(2) $$< > $$@ endef $(foreach ver,$(PYTHON_VERSIONS),$(eval $(call python-manifest-rule,$(ver),$(subst .,,$(ver))))) ifeq ($(strip $(SINGLE_PYTHON_VERSION)),yes) PKG_MACROS += PYVER=$(PYTHON_VERSION) PKG_MACROS += PYV=$(subst .,,$(PYTHON_VERSION)) endif # A rule to create a helper transform package for python, that will insert the # appropriate conditional dependencies into a python library's # runtime-version-generic package to pull in the version-specific bits when the # corresponding version of python is on the system. $(BUILD_DIR)/mkgeneric-python: $(WS_TOP)/make-rules/shared-macros.mk $(MAKEFILE_PREREQ) $(BUILD_DIR) $(RM) $@ $(foreach ver,$(subst .,,$(PYTHON_VERSIONS)), \ $(call mkgeneric,runtime/python,$(ver))) $(call mkgenericdep,runtime/python,$(subst .,,$(PYTHON_VERSIONS))) # Build Python version-wrapping manifests from the generic version. $(MANIFEST_BASE)-%.p5m: %-PYVER.p5m $(BUILD_DIR)/mkgeneric-python $(PKGMOGRIFY) -D PYV=### $(BUILD_DIR)/mkgeneric-python \ $(WS_TOP)/transforms/mkgeneric $< > $@ if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> $@; fi # Define and execute a macro that generates a rule to create a manifest for a # perl module specific to a particular version of the perl runtime. define perl-manifest-rule $(MANIFEST_BASE)-%-$(subst .,,$(1)).p5m: %-PERLVER.p5m $(PKGMOGRIFY) -D PERLVER=$(1) -D PLV=$$(subst .,,$(1)) \ -D PERL_ARCH=$$(call PERL_ARCH_FUNC,$$(PERL.$(1))) $$< > $$@ endef $(foreach ver,$(PERL_VERSIONS),$(eval $(call perl-manifest-rule,$(ver)))) ifeq ($(strip $(SINGLE_PERL_VERSION)),yes) PKG_MACROS += PERLVER=$(PERL_VERSION) PKG_MACROS += PLV=$(subst .,,$(PERL_VERSION)) endif # A rule to create a helper transform package for perl, that will insert the # appropriate conditional dependencies into a perl library's # runtime-version-generic package to pull in the version-specific bits when the # corresponding version of perl is on the system. $(BUILD_DIR)/mkgeneric-perl: $(WS_TOP)/make-rules/shared-macros.mk $(MAKEFILE_PREREQ) $(RM) $@ $(foreach ver,$(subst .,,$(PERL_VERSIONS)), \ $(call mkgeneric,runtime/perl,$(ver))) $(call mkgenericdep,runtime/perl,$(subst .,,$(PERL_VERSIONS))) # Build Perl version-wrapping manifests from the generic version. $(MANIFEST_BASE)-%.p5m: %-PERLVER.p5m $(BUILD_DIR)/mkgeneric-perl $(PKGMOGRIFY) -D PLV=### $(BUILD_DIR)/mkgeneric-perl \ $(WS_TOP)/transforms/mkgeneric $< > $@ if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> $@; fi # Rule to generate historical manifests from the $(HISTORY) file. define history-manifest-rule $(MANIFEST_BASE)-$(1): $(HISTORY) $(BUILD_DIR) $(NAWK) -v TARGET=$(1) -v FUNCTION=manifest -f $(GENERATE_HISTORY) < \ $(HISTORY) > $$@ endef $(foreach mfst,$(HISTORICAL_MANIFESTS),$(eval $(call history-manifest-rule,$(mfst)))) # Define and execute a macro that generates a rule to create a manifest for a # ruby module specific to a particular version of the ruby runtime. # Creates build/manifest-*-modulename-##.p5m file where ## is replaced with # the version number. define ruby-manifest-rule $(MANIFEST_BASE)-%-$(subst .,,$(1)).mogrified: \ PKG_MACROS += RUBY_VERSION=$(1) RUBY_LIB_VERSION=$(2) \ RUBYV=$(subst .,,$(1)) $(MANIFEST_BASE)-%-$(subst .,,$(1)).p5m: %-RUBYVER.p5m if [ -f $$*-$(subst .,,$(1))GENFRAG.p5m ]; then \ cat $$*-$(subst .,,$(1))GENFRAG.p5m >> $$@; \ fi $(PKGMOGRIFY) -D RUBY_VERSION=$(1) -D RUBY_LIB_VERSION=$(2) \ -D RUBYV=$(subst .,,$(1)) $$< > $$@ endef $(foreach ver,$(RUBY_VERSIONS),\ $(eval $(call ruby-manifest-rule,$(subst $(space),.,$(wordlist 1,2,$(subst ., ,$(ver)))),$(ver)))) # A rule to create a helper transform package for ruby, that will insert the # appropriate conditional dependencies into a ruby library's # runtime-version-generic package to pull in the version-specific bits when the # corresponding version of ruby is on the system. $(BUILD_DIR)/mkgeneric-ruby: $(WS_TOP)/make-rules/shared-macros.mk $(MAKEFILE_PREREQ) $(RM) $@ $(foreach ver,$(RUBY_VERSIONS),\ $(call mkgeneric,runtime/ruby,$(subst $(space),,$(wordlist 1,2,$(subst ., ,$(ver)))))) $(call mkgenericdep,runtime/ruby,$(subst $(space),,$(wordlist 1,2,$(subst ., ,$(RUBY_VERSIONS))))) # Build Ruby version-wrapping manifests from the generic version. # Creates build/manifest-*-modulename.p5m file. # $(MANIFEST_BASE)-%.p5m: %-RUBYVER.p5m $(BUILD_DIR)/mkgeneric-ruby $(PKGMOGRIFY) -D RUBYV=### $(BUILD_DIR)/mkgeneric-ruby \ $(WS_TOP)/transforms/mkgeneric $< > $@ if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> $@; fi per-manifest-options = $(foreach var,$(PKG_VARS),$(if $($(var).$(1)),-D $(var)="$(strip $($(var).$(1)))")) \ $(if $(COMPONENT_CLASSIFICATION.$(1)),-D COMPONENT_CLASSIFICATION="org.opensolaris.category.2008:$(strip $(COMPONENT_CLASSIFICATION.$(1)))") # mogrify non-parameterized manifests $(MANIFEST_BASE)-%.mogrified: %.p5m $(BUILD_DIR) $(MAKEFILE_PREREQ) $(PKGMOGRIFY) $(PKG_OPTIONS) $(call per-manifest-options,$*) $< \ $(PUBLISH_TRANSFORMS) | \ sed -e '/^$$/d' -e '/^#.*$$/d' | uniq >$@ # mogrify parameterized manifests $(MANIFEST_BASE)-%.mogrified: $(MANIFEST_BASE)-%.p5m $(BUILD_DIR) $(MAKEFILE_PREREQ) $(PKGMOGRIFY) $(PKG_OPTIONS) $< \ $(PUBLISH_TRANSFORMS) | \ sed -e '/^$$/d' -e '/^#.*$$/d' | uniq >$@ # mangle the file contents $(BUILD_DIR) $(MANGLED_DIR): $(MKDIR) $@ PKGMANGLE_OPTIONS = -D $(MANGLED_DIR) $(PKG_PROTO_DIRS:%=-d %) ifeq ($(strip $(USE_CTF)),yes) PKGMANGLE_OPTIONS += -c $(CTFCONVERT) endif $(MANIFEST_BASE)-%.mangled: $(MANIFEST_BASE)-%.mogrified $(MANGLED_DIR) $(PKGMANGLE) $(PKGMANGLE_OPTIONS) -m $< >$@ # generate dependencies PKGDEPEND_GENERATE_OPTIONS = -m $(PKG_PROTO_DIRS:%=-d %) $(MANIFEST_BASE)-%.depend: $(MANIFEST_BASE)-%.mangled $(PKGDEPEND) generate $(PKGDEPEND_GENERATE_OPTIONS) $< >$@ # pkgdepend resolve builds a map of all installed packages by default. This # makes dependency resolution particularly slow. We can dramatically improve # performance here by creating a file with a list of packages that we know # are needed, dramatically reducing the overhead involved in creating and # searching this map. # # Generate a resolve.deps file from the dependencies in the Makefile and # fragments that it uses. RESOLVE_DEPS=$(BUILD_DIR)/resolve.deps $(RESOLVE_DEPS): Makefile $(BUILD_DIR) $(DEPENDED) @(for pkg in $(REQUIRED_PACKAGES:%=/%) ; do \ echo $${pkg} ; \ done ; \ $(PKGMOGRIFY) $(WS_TRANSFORMS)/PRINT_COMPONENT_FMRIS $(DEPENDED) | \ $(GSED) -e '/^[\t ]*$$/d' -e '/^#/d' ;) | $(SORT) -u >$@ $(BUILD_DIR)/runtime-perl.p5m: $(WS_TOOLS)/runtime-perl.p5m $(CP) $< $@ $(BUILD_DIR)/runtime-ruby.p5m: $(WS_TOOLS)/runtime-ruby.p5m $(CP) $< $@ # resolve the dependencies all at once $(BUILD_DIR)/.resolved-$(MACH): $(DEPENDED) $(RESOLVE_DEPS) $(BUILD_DIR)/runtime-perl.p5m $(BUILD_DIR)/runtime-ruby.p5m $(PKGDEPEND) resolve $(RESOLVE_DEPS:%=-e %) -m $(DEPENDED) $(BUILD_DIR)/runtime-perl.p5m $(BUILD_DIR)/runtime-ruby.p5m $(TOUCH) $@ # generate list of sed rules to filter out component's own packages from # REQUIRED_PACKAGES list $(BUILD_DIR)/filter-own-pkgs: $(DEPENDED) $(PKGMOGRIFY) $(WS_TRANSFORMS)/PRINT_COMPONENT_FMRIS $(DEPENDED) \ | $(GSED) -e '/^[\t ]*$$/d' -e '/^#/d' -e 's/^\///g' -e 's/\//\\\//g' \ | $(SORT) -u \ | $(GSED) -e 's/^\(.*\)$$/\/^REQUIRED_PACKAGES += \1$$\/d/g' >$@ # Set REQUIRED_PACKAGES macro substitution rules REQUIRED_PACKAGES_TRANSFORM += $(foreach p,$(REQUIRED_PACKAGES_SUBST), -e 's|$($(p))|$$($(p))|') # # Generate a set of REQUIRED_PACKAGES based on what is needed for pkgdepend to # resolve properly. Automatically update the list in your Makefile for the # truly lazy among us. This is only a piece of the REQUIRED_PACKAGES puzzle. # You must still include packages for tools you build and test with. # REQUIRED_PACKAGES:: $(RESOLVED) $(REQUIRED_PACKAGES_RESOLVED) $(BUILD_DIR)/filter-own-pkgs $(REQUIRED_PACKAGES_EXTRA_DEPS) $(GMAKE) RESOLVE_DEPS= $(BUILD_DIR)/.resolved-$(MACH) @$(GSED) -i -e '/^# Auto-generated dependencies$$/,$$d' Makefile @echo "# Auto-generated dependencies" >>Makefile $(PKGMOGRIFY) $(WS_TRANSFORMS)/$@ $(RESOLVED) $(REQUIRED_PACKAGES_RESOLVED) \ | $(GSED) -e '/^[\t ]*$$/d' -e '/^#/d' \ | tr '|' '\n' \ | $(GSED) -e 's,pkg:/,,g' -e 's/@.*$$//g' \ -f $(BUILD_DIR)/filter-own-pkgs \ $(REQUIRED_PACKAGES_TRANSFORM) \ | $(SORT) -u >>Makefile @echo "*** Please edit your Makefile and verify the new or updated content at the end ***" # lint the manifests all at once $(BUILD_DIR)/.linted-$(MACH): $(BUILD_DIR)/.resolved-$(MACH) @echo "VALIDATING MANIFEST CONTENT: $(RESOLVED)" $(ENV) PYTHONPATH=$(WS_TOOLS)/python PROTO_PATH="$(PKG_PROTO_DIRS)" $(COMPONENT_PKGLINT_ENV)\ $(PKGLINT) $(CANONICAL_REPO:%=-c $(WS_LINT_CACHE)) \ -f $(WS_TOOLS)/pkglintrc $(RESOLVED) $(TOUCH) $@ lintme: FRC @echo "VALIDATING MANIFEST CONTENT: $(RESOLVED)" $(ENV) PYTHONPATH=$(WS_TOOLS)/python PROTO_PATH="$(PKG_PROTO_DIRS)" $(COMPONENT_PKGLINT_ENV)\ $(PKGLINT) $(CANONICAL_REPO:%=-c $(WS_LINT_CACHE)) \ -f $(WS_TOOLS)/pkglintrc $(RESOLVED) FRC: # published PKGSEND_PUBLISH_OPTIONS = -s $(WS_REPO) publish --fmri-in-manifest PKGSEND_PUBLISH_OPTIONS += $(PKG_PROTO_DIRS:%=-d %) PKGSEND_PUBLISH_OPTIONS += -T \*.py # Do all the hard work that is needed to ensure the package is consistent # and ready for publishing, except actually pushing bits to a repository $(MANIFEST_BASE)-%.pre-published: $(MANIFEST_BASE)-%.depend.res $(BUILD_DIR)/.linted-$(MACH) $(PKGMOGRIFY) $(PKG_OPTIONS) $< \ $(FINAL_TRANSFORMS) | \ sed -e '/^$$/d' -e '/^#.*$$/d' | uniq >$@ @echo "NEW PACKAGE CONTENTS ARE LOCALLY VALIDATED AND READY TO GO" $(MANIFEST_BASE)-%.histogrified: $(MANIFEST_BASE)-%.p5m $(PKGMOGRIFY) -D CONSOLIDATION="$(CONSOLIDATION)" $< > $@ # Push to the repo $(MANIFEST_BASE)-%.published: $(MANIFEST_BASE)-%.pre-published $(PKGSEND) $(PKGSEND_PUBLISH_OPTIONS) $< $(PKGFMT) <$< >$@ $(MANIFEST_BASE)-%.published: $(MANIFEST_BASE)-%.histogrified $(PKGSEND) -s $(PKG_REPO) publish --fmri-in-manifest --no-catalog $< $(CP) $< $@ $(BUILD_DIR)/.pre-published-$(MACH): $(PRE_PUBLISHED) $(TOUCH) $@ $(BUILD_DIR)/.published-$(MACH): $(PUBLISHED) $(TOUCH) $@ print-depend-require: canonical-manifests @echo $(call ips-print-depend-require-rule,$(NONVER_MANIFESTS)) \ $(foreach t,$(VERSIONED_MANIFEST_TYPES),$(call ips-print-depend-require-type-rule,$(t))) | tr ' ' '\n' print-package-names: canonical-manifests $(MKGENERIC_SCRIPTS) @echo $(foreach m,$(NONVER_MANIFESTS),\ $(call ips-print-names-rule,$(m))) \ $(foreach t,$(VERSIONED_MANIFEST_TYPES),\ $(call ips-print-names-type-rule,$(t))) \ | tr ' ' '\n' | $(SORT) -u print-package-paths: canonical-manifests @cat $(CANONICAL_MANIFESTS) $(WS_TOP)/transforms/print-paths | \ $(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 | \ sed -e '/^$$/d' -e '/^#.*$$/d' | \ $(SORT) -u install-packages: publish @if [ $(IS_GLOBAL_ZONE) = 0 -o x$(ROOT) != x ]; then \ cat $(VERSIONED_MANIFESTS) $(WS_TOP)/transforms/print-paths | \ $(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 | \ sed -e '/^$$/d' -e '/^#.*$$/d' -e 's;/;;' | \ $(SORT) -u | \ (cd $(PROTO_DIR) ; pfexec /bin/cpio -dump $(ROOT)) ; \ else ; \ echo "unsafe to install package(s) automatically" ; \ fi $(RESOLVED): install canonical-manifests: $(CANONICAL_MANIFESTS) Makefile $(PATCHES) ifeq ($(strip $(CANONICAL_MANIFESTS)),) # If there were no canonical manifests in the workspace, nothing will # be published and we should fail. A sample manifest can be generated # with # $ gmake sample-manifest # Once created, it will need to be reviewed, edited, and added to the # workspace. $(error Missing canonical manifest(s)) endif # Component variables are expanded directly to PKG_OPTIONS instead of via # PKG_MACROS since the values may contain whitespace. mkdefine = -D $(1)="$$(strip $(2))" # Expand PKG_VARS into defines via PKG_OPTIONS. $(foreach var, $(PKG_VARS), \ $(eval PKG_OPTIONS += $(call mkdefine,$(var),$$($(var)))) \ ) # This converts required paths to containing package names for be able to # properly setup the build environment for a component. required-pkgs.mk: Makefile @echo "generating $@ from Makefile REQUIRED_* data" @pkg search -H -l '<$(DEPENDS:%=% OR) /bin/true>' \ | sed -e 's/pkg:\/\(.*\)@.*/REQUIRED_PKGS += \1/g' >$@ pre-prep: required-pkgs.mk CLEAN_PATHS += required-pkgs.mk CLEAN_PATHS += $(BUILD_DIR)/mkgeneric-perl CLEAN_PATHS += $(BUILD_DIR)/mkgeneric-python CLEAN_PATHS += $(BUILD_DIR)/mkgeneric-ruby CLEAN_PATHS += $(GENERATED_ARCH_MANIFESTS)