make-rules/ips.mk
author Danek Duvall <danek.duvall@oracle.com>
Thu, 19 Mar 2015 14:41:20 -0700
changeset 3998 5bd484384122
parent 3817 30b42c38bbc4
child 4196 d697072a92f5
permissions -rw-r--r--
PSARC 2015/110 OpenStack service updates for Juno PSARC 2014/302 oslo.messaging - OpenStack RPC and notifications PSARC 2014/303 concurrent.futures - high-level Python interface for asynchronous execution PSARC 2014/304 networkx - Python module for complex networks PSARC 2014/305 taskflow - Python module for task execution PSARC 2014/329 pycadf - Python interface for CADF (cloud auditing) PSARC 2014/330 posix_ipc - POSIX IPC primitives for Python PSARC 2014/331 oauthlib - Python implementation of OAuth request-signing logic PSARC 2015/058 oslo - OpenStack common libraries (context, db, i18n, middleware, serialization, utils, vmware) PSARC 2015/059 glance_store - Glance storage library PSARC 2015/060 ipaddr - an IPv4/IPv6 manipulation library in Python PSARC 2015/061 simplegeneric - single-dispatch generic Python functions PSARC 2015/062 wsme - Web Services Made Easy PSARC 2015/063 retrying - General purpose Python retrying library PSARC 2015/065 osprofiler - an OpenStack cross-project profiling library PSARC 2015/066 OpenStack client for Sahara (Hadoop as a Service) PSARC 2015/067 keystonemiddleware - Middleware for OpenStack Identity PSARC 2015/068 pyScss - Compiler for the SCSS flavor of the Sass language PSARC 2015/069 django-pyscss - pyScss support for Django PSARC 2015/073 barbicanclient - OpenStack client for Barbican (Key Management) PSARC 2015/074 pysendfile - Python interface to sendfile PSARC 2015/097 ldappool - a connection pool for python-ldap PSARC 2015/098 rfc3986 - URI reference validation module for Python PSARC 2015/102 iniparse - python .ini file parsing module 20667775 OpenStack service updates for Juno (Umbrella) 18615101 Horizon should prevent network, subnet, and port names with hyphens in them 18772068 instance failed to launch with NoValidHost but no reason 18887457 openstack shouldn't deliver .po files 18905324 hostname.xml should set config/ignore_dhcp_hostname = true 18961031 Duplicate names for role-create and user-create are allowed 19015363 Users should not be allowed to attempt to create volumes when quota exceed 19050335 user appears logged in but unauthorised after horizon reboot 19144215 Instance manipulation buttons greyed out after all instances terminated 19249066 heat stack-preview doesn't appear to do anything 19313272 Need bottom slidebar in horizon for small browser windows 19462265 The Python module oslo.messaging should be added to Userland 19462397 The Python module futures should be added to Userland 19476604 The Python module networkx should be added to Userland 19476953 The Python module taskflow should be added to Userland 19519227 The Python module pycadf should be added to Userland 19582394 The Python module posix_ipc should be added to Userland 19598430 The Python module oauthlib should be added to Userland 19815780 nova package should have dependencies on brand-solaris and brand-solaris-kz 19883623 Image snapshots are missing 'instance_uuid' property 19887874 horizon should set up apache log rotation 19987962 Cinder lists additional volumes attached to instance with linuxy device names 20027791 horizon should be migrated to Apache 2.4 20164815 The Python module django-pyscss should be added to Userland 20173049 The Python module retrying should be added to Userland 20174489 The Python module WSME should be added to Userland 20176001 The Python module keystonemiddleware should be added to Userland 20182039 The Python module pysendfile should be added to Userland 20200162 The Python module pyScss should be added to Userland 20222184 horizon doesn't send start request on shutdown instance 20312312 The Python module python-saharaclient should be added to Userland 20514287 wrong vnic label name used for dhcp vnic in evs 20596802 The Python module oslo.middleware should be added to Userland 20596803 The Python module barbicanclient should be added to Userland 20596804 The Python module oslo.context should be added to Userland 20596805 The Python module iniparse should be added to Userland 20596806 The Python module oslo.vmware should be added to Userland 20596807 The Python module osprofiler should be added to Userland 20596808 The Python module oslo.i18n should be added to Userland 20596809 The Python module oslo.utils should be added to Userland 20596811 The Python module ipaddr should be added to Userland 20596812 The Python module glance_store should be added to Userland 20596813 The Python module oslo.serialization should be added to Userland 20596814 The Python module oslo.db should be added to Userland 20596815 The Python module simplegeneric should be added to Userland 20602690 The Python module ldappool should be added to Userland 20602722 The Python module rfc3986 should be added to Userland 20638369 compilemessages.py requires GNU msgfmt without calling gmsgfmt 20715741 cinder 2014.2.2 20715742 glance 2014.2.2 20715743 heat 2014.2.2 20715744 horizon 2014.2.2 20715745 keystone 2014.2.2 20715746 neutron 2014.2.2 20715747 nova 2014.2.2 20715748 swift 2.2.2 20715749 alembic 0.7.4 20715750 amqp 1.4.6 20715751 boto 2.34.0 20715752 ceilometerclient 1.0.12 20715753 cinderclient 1.1.1 20715754 cliff 1.9.0 20715756 django 1.4.19 20715757 django_compressor 1.4 20715758 django_openstack_auth 1.1.9 20715759 eventlet 0.15.2 20715761 glanceclient 0.15.0 20715762 greenlet 0.4.5 20715763 heatclient 0.2.12 20715764 keystoneclient 1.0.0 20715765 kombu 3.0.7 20715766 mysql 1.2.5 20715767 netaddr 0.7.13 20715769 netifaces 0.10.4 20715770 neutronclient 2.3.10 20715771 novaclient 2.20.0 20715772 oslo.config 1.6.0 20715773 py 1.4.26 20715774 pyflakes 0.8.1 20715775 pytest 2.6.4 20715776 pytz 2014.10 20715777 requests 2.6.0 20715778 simplejson 3.6.5 20715779 six 1.9.0 20715780 sqlalchemy-migrate 0.9.1 20715781 sqlalchemy 0.9.8 20715782 stevedore 1.2.0 20715783 swiftclient 2.3.1 20715784 tox 1.8.1 20715785 troveclient 1.0.8 20715786 virtualenv 12.0.7 20715787 websockify 0.6.0
#
# 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, 2015, Oracle and/or its affiliates. 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 $(WS_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)
#

PKGDEPEND =	/usr/bin/pkgdepend
PKGFMT =	/usr/bin/pkgfmt
PKGMOGRIFY =	/usr/bin/pkgmogrify
PKGSEND =	/usr/bin/pkgsend
ifeq   ($(strip $(PKGLINT_COMPONENT)),)
PKGLINT =	/usr/bin/pkglint
else
PKGLINT =	${WS_TOOLS}/pkglint
endif
PKGMANGLE =	$(WS_TOOLS)/userland-mangler

# pkgfmt has an odd behavior at present where -c means "check validity
# against any format" whereas -d means "diffs against latest format" and
# no arguments means "update to latest format".  Thus, 'pkgfmt -c' can
# run clean on a v1 manifest that actually needs to be updated.  So we
# use the explicit format version argument below.  If this behavior is
# changed, then the -f argument below can be dropped.
PKGFMT_CHECK_ARGS =	-c -fv2

WS_TRANSFORMS =	$(WS_TOP)/transforms

# 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

PKGMOGRIFY_TRANSFORMS +=	$(WS_TOP)/transforms/libtool-drop

COMPARISON_TRANSFORMS +=	$(WS_TOP)/transforms/comparison-cleanup
COMPARISON_TRANSFORMS +=	$(PKGMOGRIFY_TRANSFORMS)

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/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/standard-python-libraries
PUBLISH_TRANSFORMS +=	$(WS_TOP)/transforms/python-rename
PUBLISH_TRANSFORMS +=	$(WS_TOP)/transforms/python-3-groups
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/incorporate
PUBLISH_TRANSFORMS +=	$(WS_TOP)/transforms/publish-cleanup

PKG_MACROS +=		MACH=$(MACH)
PKG_MACROS +=		MACH32=$(MACH32)
PKG_MACROS +=		MACH64=$(MACH64)
PKG_MACROS +=		PUBLISHER=$(PUBLISHER)
PKG_MACROS +=		PUBLISHER_LOCALIZABLE=$(PUBLISHER_LOCALIZABLE)
PKG_MACROS +=		CONSOLIDATION=$(CONSOLIDATION)
PKG_MACROS +=		BUILD_VERSION=$(BUILD_VERSION)
PKG_MACROS +=		SOLARIS_VERSION=$(SOLARIS_VERSION)
PKG_MACROS +=		OS_VERSION=$(OS_VERSION)
PKG_MACROS +=		PKG_SOLARIS_VERSION=$(PKG_SOLARIS_VERSION)
PKG_MACROS +=		HUMAN_VERSION=$(HUMAN_VERSION)
PKG_MACROS +=		IPS_COMPONENT_VERSION=$(IPS_COMPONENT_VERSION)
PKG_MACROS +=		COMPONENT_VERSION=$(COMPONENT_VERSION)
PKG_MACROS +=		COMPONENT_PROJECT_URL=$(COMPONENT_PROJECT_URL)
PKG_MACROS +=		COMPONENT_ARCHIVE_URL=$(COMPONENT_ARCHIVE_URL)
PKG_MACROS +=		COMPONENT_HG_URL=$(COMPONENT_HG_URL)
PKG_MACROS +=		COMPONENT_HG_REV=$(COMPONENT_HG_REV)
PKG_MACROS +=		COMPONENT_NAME=$(COMPONENT_NAME)
PKG_MACROS +=		TPNO=$(TPNO)

# Add any TPNO_* Makefile macros to the pkgmogrify arguments.
$(foreach macro, $(filter TPNO_%, $(.VARIABLES)), \
    $(eval PKG_MACROS += $(macro)=$$($(macro))) \
)

PKG_MACROS +=		PYTHON_2.6_ONLY=\#
PKG_MACROS +=		PYTHON_2.7_ONLY=\#
PKG_MACROS +=		PYTHON_3.4_ONLY=\#

PKG_OPTIONS +=		$(PKG_MACROS:%=-D %)

MANGLED_DIR =	$(PROTO_DIR)/mangled

PKG_PROTO_DIRS += $(MANGLED_DIR) $(PROTO_DIR) $(@D) $(COMPONENT_DIR) $(COMPONENT_SRC)

MANIFEST_BASE =		$(BUILD_DIR)/manifest-$(MACH)

CANONICAL_MANIFESTS =	$(wildcard *.p5m)

# Look for manifests which need to be duplicated for each version of python.
ifeq ($(findstring -PYVER,$(CANONICAL_MANIFESTS)),-PYVER)
UNVERSIONED_MANIFESTS = $(filter-out %GENFRAG.p5m,$(filter-out %-PYVER.p5m,$(CANONICAL_MANIFESTS)))
PY_MANIFESTS = $(filter %-PYVER.p5m,$(CANONICAL_MANIFESTS))
PYV_MANIFESTS = $(foreach v,$(shell echo $(PYTHON_VERSIONS) | tr -d .),$(shell echo $(PY_MANIFESTS) | sed -e 's/-PYVER.p5m/-$(v).p5m/g'))
PYNV_MANIFESTS = $(shell echo $(PY_MANIFESTS) | sed -e 's/-PYVER//')
else
UNVERSIONED_MANIFESTS = $(CANONICAL_MANIFESTS)
endif

# Look for manifests which need to be duplicated for each version of perl.
ifeq ($(findstring -PERLVER,$(UNVERSIONED_MANIFESTS)),-PERLVER)
NOPERL_MANIFESTS = $(filter-out %GENFRAG.p5m,$(filter-out %-PERLVER.p5m,$(UNVERSIONED_MANIFESTS)))
PERL_MANIFESTS = $(filter %-PERLVER.p5m,$(UNVERSIONED_MANIFESTS))
PERLV_MANIFESTS = $(foreach v,$(shell echo $(PERL_VERSIONS) | tr -d .),$(shell echo $(PERL_MANIFESTS) | sed -e 's/-PERLVER.p5m/-$(v).p5m/g'))
PERLNV_MANIFESTS = $(shell echo $(PERL_MANIFESTS) | sed -e 's/-PERLVER//')
else
NOPERL_MANIFESTS = $(UNVERSIONED_MANIFESTS)
endif

# 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)
NORUBY_MANIFESTS = $(filter-out %GENFRAG.p5m,\
		   $(filter-out %-RUBYVER.p5m,$(NOPERL_MANIFESTS)))
RUBY_MANIFESTS = $(filter %-RUBYVER.p5m,$(NOPERL_MANIFESTS))
RUBYV_MANIFESTS = $(foreach v,$(shell echo $(RUBY_VERSIONS)),\
                      $(shell echo $(RUBY_MANIFESTS) |\
                      sed -e 's/-RUBYVER.p5m/-$(shell echo $(v) |\
                      cut -d. -f1,2 | tr -d .).p5m/g'))
RUBYNV_MANIFESTS = $(shell echo $(RUBY_MANIFESTS) | sed -e 's/-RUBYVER//')
else
NORUBY_MANIFESTS = $(NOPERL_MANIFESTS)
endif

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)
PUBLISHED=$(RESOLVED:%.depend.res=%.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.
PUBLISH_STAMP ?= $(BUILD_DIR)/.published-$(MACH)

publish:		build install $(PUBLISH_STAMP)

sample-manifest:	$(GENERATED).p5m

$(GENERATED).p5m:	install
	$(PKGSEND) generate $(PKG_HARDLINKS:%=--target %) $(PROTO_DIR) | \
	$(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 $(GENERATE_TRANSFORMS) | \
		sed -e '/^$$/d' -e '/^#.*$$/d' | $(PKGFMT) | \
		cat $(METADATA_TEMPLATE) - >[email protected]

# copy the canonical manifest(s) to the build tree
$(MANIFEST_BASE)-%.generate:	%.p5m canonical-manifests
	cat $(METADATA_TEMPLATE) $< >[email protected]

# 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 $(2) is the version suffix.
mkgeneric = \
	echo "<transform set name=pkg.fmri value=(?:pkg:/)?(.+)-\#\#\#PYV\#\#\#@(.*)" \
		"-> emit depend nodrop=true type=conditional" \
		"predicate=$(1)-$(2) fmri=%<1>-$(2)@%<2>>" >> [email protected];

# 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.
# Creates build/manifest-*-modulename-##.p5m file where ## is replaced with
# the version number.
define python-manifest-rule
$(MANIFEST_BASE)-%-$(shell echo $(1) | tr -d .).mogrified: PKG_MACROS += PYTHON_$(1)_ONLY=

$(MANIFEST_BASE)-%-$(shell echo $(1) | tr -d .).p5m: %-PYVER.p5m
	if [ -f $$*-$(shell echo $(1) | tr -d .)GENFRAG.p5m ]; then cat $$*-$(shell echo $(1) | tr -d .)GENFRAG.p5m >> [email protected]; fi
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $(CANONICAL_MANIFESTS)
	$(PKGMOGRIFY) -D PYVER=$(1) -D PYV=$(shell echo $(1) | tr -d .) $$< > [email protected]
endef
$(foreach ver,$(PYTHON_VERSIONS),$(eval $(call python-manifest-rule,$(ver))))

# 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_MAKE_RULES)/shared-macros.mk
	$(RM) [email protected]
	$(foreach ver,$(shell echo $(PYTHON_VERSIONS) | tr -d .), \
		$(call mkgeneric,runtime/python,$(ver)))

# Build Python version-wrapping manifests from the generic version.
# Creates build/manifest-*-modulename.p5m file.
# Note that the mkgeneric transform uses the literal string "###PYV###"
# as the place-holder for the Python version (for mkgeneric-python) and
# the Perl version (for mkgeneric-perl below) and the Ruby version (for
# mkgeneric-ruby further below).  The authors did not anticipate that this
# mechanism would be extended beyond Python when they wrote it; something
# more generic like LANGVER might make more sense, but for now we are
# sticking with something known to work.
$(MANIFEST_BASE)-%.p5m: %-PYVER.p5m $(BUILD_DIR)/mkgeneric-python
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $(CANONICAL_MANIFESTS)
	$(PKGMOGRIFY) -D PYV=###PYV### $(BUILD_DIR)/mkgeneric-python \
		$(WS_TOP)/transforms/mkgeneric $< > [email protected]
	if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> [email protected]; 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
$(MANIFEST_BASE)-%-$(shell echo $(1) | tr -d .).p5m: %-PERLVER.p5m
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $$<
	$(PKGMOGRIFY) -D PERLVER=$(1) -D PLV=$(shell echo $(1) | tr -d .) \
		-D PERL_ARCH=$(call PERL_ARCH_FUNC,$(PERL.$(1))) $$< > [email protected]
endef
$(foreach ver,$(PERL_VERSIONS),$(eval $(call perl-manifest-rule,$(ver))))

# 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_MAKE_RULES)/shared-macros.mk
	$(RM) [email protected]
	$(foreach ver,$(shell echo $(PERL_VERSIONS) | tr -d .), \
		$(call mkgeneric,runtime/perl,$(ver)))

# Build Perl version-wrapping manifests from the generic version.
# See the block comment above about why "###PYV###" is used here even
# though this is for Perl rather than Python.
$(MANIFEST_BASE)-%.p5m: %-PERLVER.p5m $(BUILD_DIR)/mkgeneric-perl
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $(CANONICAL_MANIFESTS)
	$(PKGMOGRIFY) -D PLV=###PYV### $(BUILD_DIR)/mkgeneric-perl \
		$(WS_TOP)/transforms/mkgeneric $< > [email protected]
	if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> [email protected]; fi

# 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
$(MANIFEST_BASE)-%-$(shell echo $(1) | tr -d .).mogrified: \
	PKG_MACROS += RUBY_VERSION=$(1) RUBY_LIB_VERSION=$(2) \
	    RUBYV=$(subst .,,$(1))

$(MANIFEST_BASE)-%-$(shell echo $(1) | tr -d .).p5m: %-RUBYVER.p5m
	if [ -f $$*-$(shell echo $(1) | tr -d .)GENFRAG.p5m ]; then \
		cat $$*-$(shell echo $(1) | tr -d .)GENFRAG.p5m >> [email protected]; \
	fi
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $(CANONICAL_MANIFESTS)
	$(PKGMOGRIFY) -D RUBY_VERSION=$(1) -D RUBY_LIB_VERSION=$(2) \
	    -D RUBYV=$(shell echo $(1) | tr -d .) $$< > [email protected]
endef
$(foreach ver,$(RUBY_VERSIONS),\
	$(eval $(call ruby-manifest-rule,$(shell echo $(ver) | \
	    cut -d. -f1,2),$(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_MAKE_RULES)/shared-macros.mk
	$(RM) [email protected]
	$(foreach ver,$(RUBY_VERSIONS),\
		$(call mkgeneric,runtime/ruby,$(shell echo $(ver) | \
		    cut -d. -f1,2 | tr -d .)))

# Build Ruby version-wrapping manifests from the generic version.
# Creates build/manifest-*-modulename.p5m file.
#
# See the block comment above about why "###PYV###" is used here even
# though this is for Ruby rather than Python.
$(MANIFEST_BASE)-%.p5m: %-RUBYVER.p5m $(BUILD_DIR)/mkgeneric-ruby
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $(CANONICAL_MANIFESTS)
	$(PKGMOGRIFY) -D RUBYV=###PYV### $(BUILD_DIR)/mkgeneric-ruby \
		$(WS_TOP)/transforms/mkgeneric $< > [email protected]
	if [ -f $*-GENFRAG.p5m ]; then cat $*-GENFRAG.p5m >> [email protected]; fi

# mogrify non-parameterized manifests
$(MANIFEST_BASE)-%.mogrified:	%.p5m $(BUILD_DIR)
	$(PKGFMT) $(PKGFMT_CHECK_ARGS) $<
	$(PKGMOGRIFY) $(PKG_OPTIONS) $< \
		$(PUBLISH_TRANSFORMS) | \
		sed -e '/^$$/d' -e '/^#.*$$/d' | uniq >[email protected]

# mogrify parameterized manifests
$(MANIFEST_BASE)-%.mogrified:	$(MANIFEST_BASE)-%.p5m $(BUILD_DIR)
	$(PKGMOGRIFY) $(PKG_OPTIONS) $< \
		$(PUBLISH_TRANSFORMS) | \
		sed -e '/^$$/d' -e '/^#.*$$/d' | uniq >[email protected]

# mangle the file contents
$(BUILD_DIR) $(MANGLED_DIR):
	$(MKDIR) [email protected]

PKGMANGLE_OPTIONS = -D $(MANGLED_DIR) $(PKG_PROTO_DIRS:%=-d %)
$(MANIFEST_BASE)-%.mangled:	$(MANIFEST_BASE)-%.mogrified $(MANGLED_DIR)
	$(PKGMANGLE) $(PKGMANGLE_OPTIONS) -m $< >[email protected]

# generate dependencies
PKGDEPEND_GENERATE_OPTIONS = -m $(PKG_PROTO_DIRS:%=-d %)
$(MANIFEST_BASE)-%.depend:	$(MANIFEST_BASE)-%.mangled
	$(ENV) $(COMPONENT_PUBLISH_ENV) $(PKGDEPEND) generate \
	    $(PKGDEPEND_GENERATE_OPTIONS) $< >[email protected]

# 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_PREREQ) $(BUILD_DIR)
	@for pkg in $(REQUIRED_PACKAGES:%=/%) ; do \
	    echo $${pkg} ; \
	done | sort -u >[email protected]

# resolve the dependencies all at once
$(BUILD_DIR)/.resolved-$(MACH):	$(DEPENDED) $(RESOLVE_DEPS)
	$(PKGDEPEND) resolve $(RESOLVE_DEPS:%=-e %) -m $(DEPENDED)
	$(TOUCH) [email protected]

#
# Generate a set of REQUIRED_PACKAGES based on what is needed to for pkgdepend
# to resolve properly.  Automatically append this to 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)
	$(GMAKE) RESOLVE_DEPS= $(BUILD_DIR)/.resolved-$(MACH)
	@echo "# Auto-generated contents below.  Please manually verify and remove this comment" >>Makefile
	@$(PKGMOGRIFY) $(WS_TRANSFORMS)/[email protected] $(RESOLVED) | \
		$(GSED) -e '/^[\t ]*$$/d' -e '/^#/d' | sort -u >>Makefile
	@echo "*** Please edit your Makefile and verify the new 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="$(PKG_PROTO_DIRS)"\
		SOLARIS_VERSION=$(SOLARIS_VERSION)\
		$(PKGLINT) $(CANONICAL_REPO:%=-c $(WS_LINT_CACHE)) \
			-f $(WS_TOOLS)/pkglintrc $(RESOLVED)
	$(TOUCH) [email protected]

lintme: FRC
	@echo "VALIDATING MANIFEST CONTENT: $(RESOLVED)"
	$(ENV) PYTHONPATH=$(WS_TOOLS)/python PROTO_PATH="$(PKG_PROTO_DIRS)"\
		SOLARIS_VERSION=$(SOLARIS_VERSION)\
		$(PKGLINT) $(CANONICAL_REPO:%=-c $(WS_LINT_CACHE)) \
			-f $(WS_TOOLS)/pkglintrc $(RESOLVED)

FRC:


# published
PKGSEND_PUBLISH_OPTIONS = -s $(PKG_REPO) publish --fmri-in-manifest
PKGSEND_PUBLISH_OPTIONS += --no-catalog
PKGSEND_PUBLISH_OPTIONS += $(PKG_PROTO_DIRS:%=-d %)
PKGSEND_PUBLISH_OPTIONS += -T \*.py

$(MANIFEST_BASE)-%.published:	$(MANIFEST_BASE)-%.depend.res $(BUILD_DIR)/.linted-$(MACH)
	$(PKGSEND) $(PKGSEND_PUBLISH_OPTIONS) $<
	$(PKGFMT) <$< >[email protected]

$(BUILD_DIR)/.published-$(MACH):	$(PUBLISHED)
ifndef DISABLE_IPS_CATALOG_AND_INDEX_UPDATES
	$(PKGREPO) refresh -s $(PKG_REPO)
endif
	$(TOUCH) [email protected]

print-package-names:	canonical-manifests
	@cat $(VERSIONED_MANIFESTS) $(WS_TOP)/transforms/print-pkgs | \
		$(PKGMOGRIFY) $(PKG_OPTIONS) /dev/fd/0 | \
 		sed -e '/^$$/d' -e '/^#.*$$/d' | sort -u

print-package-paths:	canonical-manifests
	@cat $(VERSIONED_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_PREREQ) $(PATCHES)
ifeq	($(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

# This converts required paths to containing package names for be able to
# properly setup the build environment for a component.
required-pkgs.mk:	$(MAKEFILE_PREREQ)
	@echo "generating [email protected] from Makefile REQUIRED_* data"
	@pkg search -H -l '<$(DEPENDS:%=% OR) /bin/true>' \
		| sed -e 's/pkg:\/\(.*\)@.*/REQUIRED_PKGS += \1/g' >[email protected]

pre-prep:	required-pkgs.mk


CLEAN_PATHS +=	required-pkgs.mk