8187444: Forest Consolidation: Make build work
Reviewed-by: darcy, ihse
Contributed-by: erik.joelsson@oracle.com, maurizio.cimadamore@oracle.com, sundararajan.athijegannathan@oracle.com, jonathan.gibbons@oracle.com
#
# Copyright (c) 2011, 2017, Oracle and/or its affiliates. All rights reserved.
# DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
#
# This code is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License version 2 only, as
# published by the Free Software Foundation. Oracle designates this
# particular file as subject to the "Classpath" exception as provided
# by Oracle in the LICENSE file that accompanied this code.
#
# This code is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
# version 2 for more details (a copy is included in the LICENSE file that
# accompanied this code).
#
# You should have received a copy of the GNU General Public License version
# 2 along with this work; if not, write to the Free Software Foundation,
# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
#
# Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
# or visit www.oracle.com if you need additional information or have any
# questions.
#
################################################################
#
# Setup common utility functions.
#
################################################################
ifndef _MAKEBASE_GMK
_MAKEBASE_GMK := 1
ifeq ($(wildcard $(SPEC)),)
$(error MakeBase.gmk needs SPEC set to a proper spec.gmk)
endif
# By defining this pseudo target, make will automatically remove targets
# if their recipe fails so that a rebuild is automatically triggered on the
# next make invocation.
.DELETE_ON_ERROR:
################################################################################
# Definitions for special characters
################################################################################
# When calling macros, the spaces between arguments are
# often semantically important! Sometimes we need to subst
# spaces and commas, therefore we need the following macros.
X:=
SPACE:=$(X) $(X)
COMMA:=,
DOLLAR:=$$
HASH:=\#
LEFT_PAREN:=(
RIGHT_PAREN:=)
SQUOTE:='
#'
DQUOTE:="
#"
define NEWLINE
endef
# In GNU Make 4.0 and higher, there is a file function for writing to files.
ifeq (4.0, $(firstword $(sort 4.0 $(MAKE_VERSION))))
HAS_FILE_FUNCTION := true
endif
##############################
# Functions
##############################
### Debug functions
# Prints the name and value of a variable
PrintVar = \
$(info $(strip $1) >$($(strip $1))<)
### Functions for timers
# Store the build times in this directory.
BUILDTIMESDIR=$(OUTPUT_ROOT)/make-support/build-times
# Record starting time for build of a sub repository.
define RecordStartTime
$(DATE) '+%Y %m %d %H %M %S' | $(NAWK) '{ print $$1,$$2,$$3,$$4,$$5,$$6,($$4*3600+$$5*60+$$6) }' > $(BUILDTIMESDIR)/build_time_start_$(strip $1) && \
$(DATE) '+%Y-%m-%d %H:%M:%S' > $(BUILDTIMESDIR)/build_time_start_$(strip $1)_human_readable
endef
# Record ending time and calculate the difference and store it in a
# easy to read format. Handles builds that cross midnight. Expects
# that a build will never take 24 hours or more.
define RecordEndTime
$(DATE) '+%Y %m %d %H %M %S' | $(NAWK) '{ print $$1,$$2,$$3,$$4,$$5,$$6,($$4*3600+$$5*60+$$6) }' > $(BUILDTIMESDIR)/build_time_end_$(strip $1)
$(DATE) '+%Y-%m-%d %H:%M:%S' > $(BUILDTIMESDIR)/build_time_end_$(strip $1)_human_readable
$(ECHO) `$(CAT) $(BUILDTIMESDIR)/build_time_start_$(strip $1)` `$(CAT) $(BUILDTIMESDIR)/build_time_end_$(strip $1)` $1 | \
$(NAWK) '{ F=$$7; T=$$14; if (F > T) { T+=3600*24 }; D=T-F; H=int(D/3600); \
M=int((D-H*3600)/60); S=D-H*3600-M*60; printf("%02d:%02d:%02d %s\n",H,M,S,$$15); }' \
> $(BUILDTIMESDIR)/build_time_diff_$(strip $1)
endef
# Hook to be called when starting to execute a top-level target
define TargetEnter
$(PRINTF) "## Starting $(patsubst %-only,%,$@)\n"
$(call RecordStartTime,$(patsubst %-only,%,$@))
endef
# Hook to be called when finish executing a top-level target
define TargetExit
$(call RecordEndTime,$(patsubst %-only,%,$@))
$(PRINTF) "## Finished $(patsubst %-only,%,$@) (build time %s)\n\n" \
"`$(CAT) $(BUILDTIMESDIR)/build_time_diff_$(patsubst %-only,%,$@) | $(CUT) -f 1 -d ' '`"
endef
################################################################################
# This macro translates $ into \$ to protect the $ from expansion in the shell.
# To make this macro resilient against already escaped strings, first remove
# any present escapes before escaping so that no double escapes are added.
EscapeDollar = $(subst $$,\$$,$(subst \$$,$$,$(strip $1)))
################################################################################
# This macro works just like EscapeDollar above, but for #.
EscapeHash = $(subst \#,\\\#,$(subst \\\#,\#,$(strip $1)))
################################################################################
# This macro translates $ into $$ to protect the string from make itself.
DoubleDollar = $(subst $$,$$$$,$(strip $1))
################################################################################
# ListPathsSafely can be used to print command parameters to a file. This is
# typically done if the command line lenght risk being too long for the
# OS/shell. In later make versions, the file function can be used for this
# purpose. For earlier versions, a more complex implementation is provided.
#
# The function ListPathsSafely can be called either directly or, more commonly
# from a recipe line. If called from a recipe, it will be executed in the
# evaluation phase of that recipe, which means that it will write to the file
# before any other line in the recipe has been run.
ifeq ($(HAS_FILE_FUNCTION), true)
# Param 1 - Name of variable containing paths/arguments to output
# Param 2 - File to print to
# Param 3 - Set to true to append to file instead of overwriting
define ListPathsSafely
$$(call MakeDir, $$(dir $$(strip $2)))
$$(file $$(if $$(filter true, $$(strip $3)),>>,>) \
$$(strip $2),$$(subst $$(SPACE),$$(NEWLINE),$$(strip $$($$(strip $1)))))
endef
else # HAS_FILE_FUNCTION = false
$(eval compress_paths = \
$(strip $(shell $(CAT) $(TOPDIR)/make/common/support/ListPathsSafely-pre-compress.incl)))
compress_paths += \
$(subst $(TOPDIR),X97, \
$(subst $(OUTPUT_ROOT),X98, \
$(subst X,X00, \
$(subst $(SPACE),\n,$(strip $1)))))
$(eval compress_paths += \
$(strip $(shell $(CAT) $(TOPDIR)/make/common/support/ListPathsSafely-post-compress.incl)))
decompress_paths=$(SED) -f $(TOPDIR)/make/common/support/ListPathsSafely-uncompress.sed \
-e 's|X99|\\n|g' \
-e 's|X98|$(OUTPUT_ROOT)|g' -e 's|X97|$(TOPDIR)|g' \
-e 's|X00|X|g'
ListPathsSafely_IfPrintf = \
$(if $(word $3,$($(strip $1))), \
$(shell $(PRINTF) -- "$(strip $(call EscapeDollar, \
$(call compress_paths, $(wordlist $3,$4,$($(strip $1))))))\n" \
| $(decompress_paths) >> $2))
# Param 1 - Name of variable containing paths/arguments to output
# Param 2 - File to print to
# Param 3 - Set to true to append to file instead of overwriting
define ListPathsSafely
ifneq (,$$(word 30001,$$($$(strip $1))))
$$(error Cannot list safely more than 30000 paths. $1 has $$(words $$($$(strip $1))) paths!)
endif
$$(call MakeDir, $$(dir $2))
ifneq ($$(strip $3), true)
$$(shell $(RM) $$(strip $2))
endif
$$(call ListPathsSafely_IfPrintf,$1,$2,1,250)
$$(call ListPathsSafely_IfPrintf,$1,$2,251,500)
$$(call ListPathsSafely_IfPrintf,$1,$2,501,750)
$$(call ListPathsSafely_IfPrintf,$1,$2,751,1000)
$$(call ListPathsSafely_IfPrintf,$1,$2,1001,1250)
$$(call ListPathsSafely_IfPrintf,$1,$2,1251,1500)
$$(call ListPathsSafely_IfPrintf,$1,$2,1501,1750)
$$(call ListPathsSafely_IfPrintf,$1,$2,1751,2000)
$$(call ListPathsSafely_IfPrintf,$1,$2,2001,2250)
$$(call ListPathsSafely_IfPrintf,$1,$2,2251,2500)
$$(call ListPathsSafely_IfPrintf,$1,$2,2501,2750)
$$(call ListPathsSafely_IfPrintf,$1,$2,2751,3000)
$$(call ListPathsSafely_IfPrintf,$1,$2,3001,3250)
$$(call ListPathsSafely_IfPrintf,$1,$2,3251,3500)
$$(call ListPathsSafely_IfPrintf,$1,$2,3501,3750)
$$(call ListPathsSafely_IfPrintf,$1,$2,3751,4000)
$$(call ListPathsSafely_IfPrintf,$1,$2,4001,4250)
$$(call ListPathsSafely_IfPrintf,$1,$2,4251,4500)
$$(call ListPathsSafely_IfPrintf,$1,$2,4501,4750)
$$(call ListPathsSafely_IfPrintf,$1,$2,4751,5000)
$$(call ListPathsSafely_IfPrintf,$1,$2,5001,5250)
$$(call ListPathsSafely_IfPrintf,$1,$2,5251,5500)
$$(call ListPathsSafely_IfPrintf,$1,$2,5501,5750)
$$(call ListPathsSafely_IfPrintf,$1,$2,5751,6000)
$$(call ListPathsSafely_IfPrintf,$1,$2,6001,6250)
$$(call ListPathsSafely_IfPrintf,$1,$2,6251,6500)
$$(call ListPathsSafely_IfPrintf,$1,$2,6501,6750)
$$(call ListPathsSafely_IfPrintf,$1,$2,6751,7000)
$$(call ListPathsSafely_IfPrintf,$1,$2,7001,7250)
$$(call ListPathsSafely_IfPrintf,$1,$2,7251,7500)
$$(call ListPathsSafely_IfPrintf,$1,$2,7501,7750)
$$(call ListPathsSafely_IfPrintf,$1,$2,7751,8000)
$$(call ListPathsSafely_IfPrintf,$1,$2,8001,8250)
$$(call ListPathsSafely_IfPrintf,$1,$2,8251,8500)
$$(call ListPathsSafely_IfPrintf,$1,$2,8501,8750)
$$(call ListPathsSafely_IfPrintf,$1,$2,8751,9000)
$$(call ListPathsSafely_IfPrintf,$1,$2,9001,9250)
$$(call ListPathsSafely_IfPrintf,$1,$2,9251,9500)
$$(call ListPathsSafely_IfPrintf,$1,$2,9501,9750)
$$(call ListPathsSafely_IfPrintf,$1,$2,9751,10000)
$$(call ListPathsSafely_IfPrintf,$1,$2,10001,10250)
$$(call ListPathsSafely_IfPrintf,$1,$2,10251,10500)
$$(call ListPathsSafely_IfPrintf,$1,$2,10501,10750)
$$(call ListPathsSafely_IfPrintf,$1,$2,10751,11000)
$$(call ListPathsSafely_IfPrintf,$1,$2,11001,11250)
$$(call ListPathsSafely_IfPrintf,$1,$2,11251,11500)
$$(call ListPathsSafely_IfPrintf,$1,$2,11501,11750)
$$(call ListPathsSafely_IfPrintf,$1,$2,11751,12000)
$$(call ListPathsSafely_IfPrintf,$1,$2,12001,12250)
$$(call ListPathsSafely_IfPrintf,$1,$2,12251,12500)
$$(call ListPathsSafely_IfPrintf,$1,$2,12501,12750)
$$(call ListPathsSafely_IfPrintf,$1,$2,12751,13000)
$$(call ListPathsSafely_IfPrintf,$1,$2,13001,13250)
$$(call ListPathsSafely_IfPrintf,$1,$2,13251,13500)
$$(call ListPathsSafely_IfPrintf,$1,$2,13501,13750)
$$(call ListPathsSafely_IfPrintf,$1,$2,13751,14000)
$$(call ListPathsSafely_IfPrintf,$1,$2,14001,14250)
$$(call ListPathsSafely_IfPrintf,$1,$2,14251,14500)
$$(call ListPathsSafely_IfPrintf,$1,$2,14501,14750)
$$(call ListPathsSafely_IfPrintf,$1,$2,14751,15000)
$$(call ListPathsSafely_IfPrintf,$1,$2,15001,15250)
$$(call ListPathsSafely_IfPrintf,$1,$2,15251,15500)
$$(call ListPathsSafely_IfPrintf,$1,$2,15501,15750)
$$(call ListPathsSafely_IfPrintf,$1,$2,15751,16000)
$$(call ListPathsSafely_IfPrintf,$1,$2,16001,16250)
$$(call ListPathsSafely_IfPrintf,$1,$2,16251,16500)
$$(call ListPathsSafely_IfPrintf,$1,$2,16501,16750)
$$(call ListPathsSafely_IfPrintf,$1,$2,16751,17000)
$$(call ListPathsSafely_IfPrintf,$1,$2,17001,17250)
$$(call ListPathsSafely_IfPrintf,$1,$2,17251,17500)
$$(call ListPathsSafely_IfPrintf,$1,$2,17501,17750)
$$(call ListPathsSafely_IfPrintf,$1,$2,17751,18000)
$$(call ListPathsSafely_IfPrintf,$1,$2,18001,18250)
$$(call ListPathsSafely_IfPrintf,$1,$2,18251,18500)
$$(call ListPathsSafely_IfPrintf,$1,$2,18501,18750)
$$(call ListPathsSafely_IfPrintf,$1,$2,18751,19000)
$$(call ListPathsSafely_IfPrintf,$1,$2,19001,19250)
$$(call ListPathsSafely_IfPrintf,$1,$2,19251,19500)
$$(call ListPathsSafely_IfPrintf,$1,$2,19501,19750)
$$(call ListPathsSafely_IfPrintf,$1,$2,19751,20000)
$$(call ListPathsSafely_IfPrintf,$1,$2,20001,20250)
$$(call ListPathsSafely_IfPrintf,$1,$2,20251,20500)
$$(call ListPathsSafely_IfPrintf,$1,$2,20501,20750)
$$(call ListPathsSafely_IfPrintf,$1,$2,20751,21000)
$$(call ListPathsSafely_IfPrintf,$1,$2,21001,21250)
$$(call ListPathsSafely_IfPrintf,$1,$2,21251,21500)
$$(call ListPathsSafely_IfPrintf,$1,$2,21501,21750)
$$(call ListPathsSafely_IfPrintf,$1,$2,21751,22000)
$$(call ListPathsSafely_IfPrintf,$1,$2,22001,22250)
$$(call ListPathsSafely_IfPrintf,$1,$2,22251,22500)
$$(call ListPathsSafely_IfPrintf,$1,$2,22501,22750)
$$(call ListPathsSafely_IfPrintf,$1,$2,22751,23000)
$$(call ListPathsSafely_IfPrintf,$1,$2,23001,23250)
$$(call ListPathsSafely_IfPrintf,$1,$2,23251,23500)
$$(call ListPathsSafely_IfPrintf,$1,$2,23501,23750)
$$(call ListPathsSafely_IfPrintf,$1,$2,23751,24000)
$$(call ListPathsSafely_IfPrintf,$1,$2,24001,24250)
$$(call ListPathsSafely_IfPrintf,$1,$2,24251,24500)
$$(call ListPathsSafely_IfPrintf,$1,$2,24501,24750)
$$(call ListPathsSafely_IfPrintf,$1,$2,24751,25000)
$$(call ListPathsSafely_IfPrintf,$1,$2,25001,25250)
$$(call ListPathsSafely_IfPrintf,$1,$2,25251,25500)
$$(call ListPathsSafely_IfPrintf,$1,$2,25501,25750)
$$(call ListPathsSafely_IfPrintf,$1,$2,25751,26000)
$$(call ListPathsSafely_IfPrintf,$1,$2,26001,26250)
$$(call ListPathsSafely_IfPrintf,$1,$2,26251,26500)
$$(call ListPathsSafely_IfPrintf,$1,$2,26501,26750)
$$(call ListPathsSafely_IfPrintf,$1,$2,26751,27000)
$$(call ListPathsSafely_IfPrintf,$1,$2,27001,27250)
$$(call ListPathsSafely_IfPrintf,$1,$2,27251,27500)
$$(call ListPathsSafely_IfPrintf,$1,$2,27501,27750)
$$(call ListPathsSafely_IfPrintf,$1,$2,27751,28000)
$$(call ListPathsSafely_IfPrintf,$1,$2,28001,28250)
$$(call ListPathsSafely_IfPrintf,$1,$2,28251,28500)
$$(call ListPathsSafely_IfPrintf,$1,$2,28501,28750)
$$(call ListPathsSafely_IfPrintf,$1,$2,28751,29000)
$$(call ListPathsSafely_IfPrintf,$1,$2,29001,29250)
$$(call ListPathsSafely_IfPrintf,$1,$2,29251,29500)
$$(call ListPathsSafely_IfPrintf,$1,$2,29501,29750)
$$(call ListPathsSafely_IfPrintf,$1,$2,29751,30000)
endef
endif # HAS_FILE_FUNCTION
################################################################################
# A file containing a way to uniquely identify the source code revision that
# the build was created from
SOURCE_REVISION_TRACKER := $(SUPPORT_OUTPUTDIR)/src-rev/source-revision-tracker
# Locate all hg repositories included in the forest, as absolute paths
FindAllReposAbs = \
$(strip $(sort $(dir $(filter-out $(TOPDIR)/build/%, $(wildcard \
$(addprefix $(TOPDIR)/, .hg */.hg */*/.hg */*/*/.hg */*/*/*/.hg) \
)))))
# Locate all hg repositories included in the forest, as relative paths
FindAllReposRel = \
$(strip $(subst $(TOPDIR)/,.,$(patsubst $(TOPDIR)/%/, %, $(FindAllReposAbs))))
################################################################################
define SetupLogging
ifeq ($$(LOG_PROFILE_TIMES_FILE), true)
ifeq ($$(IS_GNU_TIME), yes)
SHELL := $$(BASH) $$(TOPDIR)/make/scripts/shell-profiler.sh \
gnutime $$(TIME) \
$$(OUTPUT_ROOT)/build-profile.log $$(SHELL)
else ifneq ($$(FLOCK), )
SHELL := $$(BASH) $$(TOPDIR)/make/scripts/shell-profiler.sh \
flock $$(FLOCK) \
$$(OUTPUT_ROOT)/build-profile.log $$(SHELL)
endif
endif
ifeq ($$(LOG_LEVEL), trace)
SHELL_NO_RECURSE := $$(SHELL)
# Shell redefinition trick inspired by http://www.cmcrossroads.com/ask-mr-make/6535-tracing-rule-execution-in-gnu-make
# For each target executed, will print
# Building <TARGET> (from <FIRST PREREQUISITE>) (<ALL NEWER PREREQUISITES> newer)
# but with a limit of 20 on <ALL NEWER PREREQUISITES>, to avoid cluttering logs too much
# (and causing a crash on Cygwin).
SHELL = $$(warning $$(if $$@,Building $$@,Running shell command) $$(if $$<, (from $$<))$$(if $$?, ($$(wordlist 1, 20, $$?) $$(if $$(wordlist 21, 22, $$?), ... [in total $$(words $$?) files]) newer)))$$(SHELL_NO_RECURSE) -x
endif
# The warn level can never be turned off
LogWarn = $$(info $$(strip $$1))
LOG_WARN :=
ifneq ($$(findstring $$(LOG_LEVEL), info debug trace),)
LogInfo = $$(info $$(strip $$1))
LOG_INFO :=
else
LogInfo =
LOG_INFO := > /dev/null
endif
ifneq ($$(findstring $$(LOG_LEVEL), debug trace),)
LogDebug = $$(info $$(strip $$1))
LOG_DEBUG :=
else
LogDebug =
LOG_DEBUG := > /dev/null
endif
ifneq ($$(findstring $$(LOG_LEVEL), trace),)
LogTrace = $$(info $$(strip $$1))
LOG_TRACE :=
else
LogTrace =
LOG_TRACE := > /dev/null
endif
endef
# Make sure logging is setup for everyone that includes MakeBase.gmk.
$(eval $(call SetupLogging))
################################################################################
# Creates a sequence of increasing numbers (inclusive).
# Param 1 - starting number
# Param 2 - ending number
sequence = \
$(wordlist $1, $2, $(strip \
$(eval SEQUENCE_COUNT :=) \
$(call _sequence-do,$(strip $2))))
_sequence-do = \
$(if $(word $1, $(SEQUENCE_COUNT)),, \
$(eval SEQUENCE_COUNT += .) \
$(words $(SEQUENCE_COUNT)) \
$(call _sequence-do,$1))
################################################################################
MAX_PARAMS := 35
PARAM_SEQUENCE := $(call sequence, 2, $(MAX_PARAMS))
# Template for creating a macro taking named parameters. To use it, assign the
# template to a variable with the name you want for your macro, using '='
# assignment. Then define a macro body with the suffix "Body". The Body macro
# should take 1 parameter which should be a unique string for that invocation
# of the macro.
# Ex:
# SetupFoo = $(NamedParamsMacroTemplate)
# define SetupFooBody
# # do something
# # access parameters as $$($1_BAR)
# endef
# Call it like this
# $(eval $(call SetupFoo, BUILD_SOMETHING, \
# BAR := some parameter value, \
# ))
define NamedParamsMacroTemplate
$(if $($(MAX_PARAMS)),$(error Internal makefile error: \
Too many named arguments to macro, please update MAX_PARAMS in MakeBase.gmk))
# Iterate over 2 3 4... and evaluate the named parameters with $1_ as prefix
$(foreach i,$(PARAM_SEQUENCE), $(if $(strip $($i)),\
$(strip $1)_$(strip $(call EscapeHash, $(call DoubleDollar, $($i))))$(NEWLINE)))
# Debug print all named parameter names and values
$(if $(findstring $(LOG_LEVEL),debug trace), \
$(info $0 $(strip $1) $(foreach i,$(PARAM_SEQUENCE), \
$(if $(strip $($i)),$(NEWLINE) $(strip [$i] $(if $(filter $(LOG_LEVEL), trace), \
$($i), $(wordlist 1, 20, $($(i))) $(if $(word 21, $($(i))), ...)))))))
$(if $(DEBUG_$(strip $1)),
$(info -------- <<< Begin expansion of $(strip $1)) \
$(info $(call $(0)Body,$(strip $1))) \
$(info -------- >>> End expansion of $(strip $1)) \
)
$(call $(0)Body,$(strip $1))
endef
################################################################################
# Make directory without forking mkdir if not needed
# 1: List of directories to create
MakeDir = \
$(strip \
$(eval MakeDir_dirs_to_make := $(strip $(foreach d, $1, $(if $(wildcard $d), , $d)))) \
$(if $(MakeDir_dirs_to_make), $(shell $(MKDIR) -p $(MakeDir_dirs_to_make))) \
)
################################################################################
# Assign a variable only if it is empty
# Param 1 - Variable to assign
# Param 2 - Value to assign
SetIfEmpty = \
$(if $($(strip $1)),,$(eval $(strip $1) := $2))
################################################################################
ifeq ($(OPENJDK_TARGET_OS),solaris)
# On Solaris, if the target is a symlink and exists, cp won't overwrite.
# Cp has to operate in recursive mode to allow for -P flag, to preserve soft links. If the
# name of the target file differs from the source file, rename after copy.
# If the source and target parent directories are the same, recursive copy doesn't work
# so we fall back on regular copy, which isn't preserving symlinks.
define install-file
$(MKDIR) -p '$(@D)'
$(RM) '$@'
if [ "$(@D)" != "$(<D)" ]; then \
$(CP) -f -r -P '$<' '$(@D)'; \
if [ "$(@F)" != "$(<F)" ]; then \
$(MV) '$(@D)/$(<F)' '$@'; \
fi; \
else \
if [ -L '$<' ]; then \
$(ECHO) "Source file is a symlink and target is in the same directory: $< $@" ; \
exit 1; \
fi; \
$(CP) -f '$<' '$@'; \
fi
endef
else ifeq ($(OPENJDK_TARGET_OS),macosx)
# On mac, extended attributes sometimes creep into the source files, which may later
# cause the creation of ._* files which confuses testing. Clear these with xattr if
# set. Some files get their write permissions removed after being copied to the
# output dir. When these are copied again to images, xattr would fail. By only clearing
# attributes when they are present, failing on this is avoided.
#
# If copying a soft link to a directory, need to delete the target first to avoid
# weird errors.
define install-file
$(MKDIR) -p '$(@D)'
$(RM) '$@'
$(CP) -fRP '$<' '$@'
if [ -n "`$(XATTR) -l '$@'`" ]; then $(XATTR) -c '$@'; fi
endef
else
define install-file
$(call MakeDir, $(@D))
$(CP) -fP '$<' '$@'
endef
endif
# Variant of install file that does not preserve symlinks
define install-file-nolink
$(call MakeDir, $(@D))
$(CP) -f '$<' '$@'
endef
################################################################################
# Take two paths and return the path of the last common directory.
# Ex: /foo/bar/baz, /foo/bar/banan -> /foo/bar
# foo/bar/baz, /foo/bar -> <empty>
#
# The x prefix is used to preserve the presence of the initial slash
#
# $1 - Path to compare
# $2 - Other path to compare
FindCommonPathPrefix = \
$(patsubst x%,%,$(subst $(SPACE),/,$(strip \
$(call FindCommonPathPrefixHelper, \
$(subst /,$(SPACE),x$(strip $1)), $(subst /,$(SPACE),x$(strip $2))) \
)))
FindCommonPathPrefixHelper = \
$(if $(call equals, $(firstword $1), $(firstword $2)), \
$(firstword $1) \
$(call FindCommonPathPrefixHelper, \
$(wordlist 2, $(words $1), $1), $(wordlist 2, $(words $2), $2) \
) \
)
# Convert a partial path into as many directory levels of ../, removing
# leading and following /.
# Ex: foo/bar/baz/ -> ../../..
# foo/bar -> ../..
# /foo -> ..
DirToDotDot = \
$(subst $(SPACE),/,$(foreach d, $(subst /,$(SPACE),$1),..))
# Computes the relative path from a directory to a file
# $1 - File to compute the relative path to
# $2 - Directory to compute the relative path from
RelativePath = \
$(eval $1_prefix := $(call FindCommonPathPrefix, $1, $2)) \
$(eval $1_dotdots := $(call DirToDotDot, $(patsubst $($(strip $1)_prefix)/%, %, $2))) \
$(eval $1_suffix := $(patsubst $($(strip $1)_prefix)/%, %, $1)) \
$($(strip $1)_dotdots)/$($(strip $1)_suffix)
################################################################################
# link-file-* works similarly to install-file but creates a symlink instead.
# There are two versions, either creating a relative or an absolute link. Be
# careful when using this on Windows since the symlink created is only valid in
# the unix emulation environment.
define link-file-relative
$(call MakeDir, $(@D))
$(RM) $@
$(LN) -s $(call RelativePath, $<, $(@D)) $@
endef
define link-file-absolute
$(call MakeDir, $(@D))
$(RM) $@
$(LN) -s $< $@
endef
################################################################################
# Filter out duplicate sub strings while preserving order. Keeps the first occurance.
uniq = \
$(if $1,$(firstword $1) $(call uniq,$(filter-out $(firstword $1),$1)))
# Returns all whitespace-separated words in $2 where at least one of the
# whitespace-separated words in $1 is a substring.
containing = \
$(strip \
$(foreach v,$(strip $2),\
$(call uniq,$(foreach p,$(strip $1),$(if $(findstring $p,$v),$v)))))
# Returns all whitespace-separated words in $2 where none of the
# whitespace-separated words in $1 is a substring.
not-containing = \
$(strip $(filter-out $(call containing,$1,$2),$2))
# Return a list of all string elements that are duplicated in $1.
dups = \
$(strip $(foreach v, $(sort $1), $(if $(filter-out 1, \
$(words $(filter $v, $1))), $v)))
# String equals
equals = \
$(and $(findstring $(strip $1),$(strip $2)),\
$(findstring $(strip $2),$(strip $1)))
# Remove a whole list of prefixes
# $1 - List of prefixes
# $2 - List of elements to process
remove-prefixes = \
$(strip $(if $1,$(patsubst $(firstword $1)%,%,\
$(call remove-prefixes,$(filter-out $(firstword $1),$1),$2)),$2))
# Convert the string given to upper case, without any $(shell)
# Inspired by http://lists.gnu.org/archive/html/help-make/2013-09/msg00009.html
uppercase_table := a,A b,B c,C d,D e,E f,F g,G h,H i,I j,J k,K l,L m,M n,N o,O \
p,P q,Q r,R s,S t,T u,U v,V w,W x,X y,Y z,Z
uppercase_internal = \
$(if $(strip $1), $$(subst $(firstword $1), $(call uppercase_internal, \
$(wordlist 2, $(words $1), $1), $2)), $2)
# Convert a string to upper case. Works only on a-z.
# $1 - The string to convert
uppercase = \
$(strip \
$(eval uppercase_result := $(call uppercase_internal, $(uppercase_table), $1)) \
$(uppercase_result) \
)
################################################################################
ifneq ($(DISABLE_CACHE_FIND), true)
# In Cygwin, finds are very costly, both because of expensive forks and because
# of bad file system caching. Find is used extensively in $(shell) commands to
# find source files. This makes rerunning make with no or few changes rather
# expensive. To speed this up, these two macros are used to cache the results
# of simple find commands for reuse.
#
# Runs a find and stores both the directories where it was run and the results.
# This macro can be called multiple times to add to the cache. Only finds files
# with no filters.
#
# Needs to be called with $(eval )
#
# Even if the performance benifit is negligible on other platforms, keep the
# functionality active unless explicitly disabled to exercise it more.
#
# Initialize FIND_CACHE_DIRS with := to make it a non recursively-expanded variable
FIND_CACHE_DIRS :=
# Param 1 - Dirs to find in
# Param 2 - (optional) specialization. Normally "-a \( ... \)" expression.
define FillCacheFind
# Filter out already cached dirs. The - is needed when FIND_CACHE_DIRS is empty
# since filter out will then return empty.
FIND_CACHE_NEW_DIRS := $$(filter-out $$(addsuffix /%,\
- $(FIND_CACHE_DIRS)) $(FIND_CACHE_DIRS), $1)
ifneq ($$(FIND_CACHE_NEW_DIRS), )
# Remove any trailing slash from dirs in the cache dir list
FIND_CACHE_DIRS += $$(patsubst %/,%, $$(FIND_CACHE_NEW_DIRS))
FIND_CACHE := $$(sort $$(FIND_CACHE) $$(shell $(FIND) $$(FIND_CACHE_NEW_DIRS) \( -type f -o -type l \) $2))
endif
endef
# Mimics find by looking in the cache if all of the directories have been cached.
# Otherwise reverts to shell find. This is safe to call on all platforms, even if
# cache is deactivated.
#
# $1 can be either a directory or a file. If it's a directory, make
# sure we have exactly one trailing slash before the wildcard.
# The extra - is needed when FIND_CACHE_DIRS is empty but should be harmless.
#
# Param 1 - Dirs to find in
# Param 2 - (optional) specialization. Normally "-a \( ... \)" expression.
define CacheFind
$(if $(filter-out $(addsuffix /%,- $(FIND_CACHE_DIRS)) $(FIND_CACHE_DIRS),$1), \
$(if $(wildcard $1), $(shell $(FIND) $1 \( -type f -o -type l \) $2)), \
$(filter $(addsuffix /%,$(patsubst %/,%,$1)) $1,$(FIND_CACHE)))
endef
else
# If CacheFind is disabled, just run the find command.
# Param 1 - Dirs to find in
# Param 2 - (optional) specialization. Normally "-a \( ... \)" expression.
define CacheFind
$(shell $(FIND) $1 \( -type f -o -type l \) $2)
endef
endif
################################################################################
define AddFileToCopy
# Helper macro for SetupCopyFiles
# 1 : Source file
# 2 : Dest file
# 3 : Variable to add targets to
# 4 : Macro to call for copy operation
# 5 : Action text to log
$2: $1
$$(call LogInfo, $(strip $5) $$(patsubst $(OUTPUT_ROOT)/%,%,$$@))
$$($$(strip $4))
$3 += $2
endef
# Returns the value of the first argument
identity = \
$(strip $1)
# Setup make rules for copying files, with an option to do more complex
# processing instead of copying.
#
# Parameter 1 is the name of the rule. This name is used as variable prefix,
# and the targets generated are listed in a variable by that name.
#
# Remaining parameters are named arguments. These include:
# SRC : Source root dir (defaults to dir of first file)
# DEST : Dest root dir
# FILES : List of files to copy with absolute paths, or path relative to SRC.
# Must be in SRC.
# FLATTEN : Set to flatten the directory structure in the DEST dir.
# MACRO : Optionally override the default macro used for making the copy.
# Default is 'install-file'
# NAME_MACRO : Optionally supply a macro that rewrites the target file name
# based on the source file name
# LOG_ACTION : Optionally specify a different action text for log messages
SetupCopyFiles = $(NamedParamsMacroTemplate)
define SetupCopyFilesBody
ifeq ($$($1_MACRO), )
$1_MACRO := install-file
endif
# Default SRC to the dir of the first file.
ifeq ($$($1_SRC), )
$1_SRC := $$(dir $$(firstword $$($1_FILES)))
endif
ifeq ($$($1_NAME_MACRO), )
$1_NAME_MACRO := identity
endif
ifeq ($$($1_LOG_ACTION), )
$1_LOG_ACTION := Copying
endif
# Remove any trailing slash from SRC and DEST
$1_SRC := $$(patsubst %/,%,$$($1_SRC))
$1_DEST := $$(patsubst %/,%,$$($1_DEST))
$$(foreach f, $$(patsubst $$($1_SRC)/%,%,$$($1_FILES)), \
$$(eval $$(call AddFileToCopy, $$($1_SRC)/$$f, \
$$($1_DEST)/$$(call $$(strip $$($1_NAME_MACRO)),$$(if $$($1_FLATTEN),$$(notdir $$f),$$f)), \
$1, $$($1_MACRO), $$($1_LOG_ACTION))))
endef
################################################################################
# Parse a multiple-keyword variable, like FOO="KEYWORD1=val1;KEYWORD2=val2;..."
# These will be converted into a series of variables like FOO_KEYWORD1=val1,
# FOO_KEYWORD2=val2, etc. Unknown keywords will cause an error.
#
# Parameter 1 is the name of the rule, and is also the name of the variable.
#
# Remaining parameters are named arguments. These include:
# KEYWORDS A list of valid keywords
# STRING_KEYWORDS A list of valid keywords, processed as string. This means
# that '%20' will be replaced by ' ' to allow for multi-word strings.
#
ParseKeywordVariable = $(NamedParamsMacroTemplate)
define ParseKeywordVariableBody
ifneq ($$($1), )
# To preserve spaces, substitute them with a hopefully unique pattern
# before splitting and then re-substitute spaces back.
$1_MANGLED := $$(subst $$(SPACE),||||,$$($1))
$$(foreach mangled_part, $$(subst ;, , $$($1_MANGLED)), \
$$(eval mangled_part_eval := $$(call DoubleDollar, $$(mangled_part))) \
$$(eval part := $$$$(subst ||||,$$$$(SPACE),$$$$(mangled_part_eval))) \
$$(eval $1_NO_MATCH := true) \
$$(foreach keyword, $$($1_KEYWORDS), \
$$(eval keyword_eval := $$(call DoubleDollar, $$(keyword))) \
$$(if $$(filter $$(keyword)=%, $$(part)), \
$$(eval $(strip $1)_$$$$(keyword_eval) := $$$$(strip $$$$(patsubst $$$$(keyword_eval)=%, %, $$$$(part)))) \
$$(eval $1_NO_MATCH := ) \
) \
) \
$$(foreach keyword, $$($1_STRING_KEYWORDS), \
$$(eval keyword_eval := $$(call DoubleDollar, $$(keyword))) \
$$(if $$(filter $$(keyword)=%, $$(part)), \
$$(eval $(strip $1)_$$$$(keyword_eval) := $$$$(strip $$$$(subst %20, , $$$$(patsubst $$$$(keyword_eval)=%, %, $$$$(part))))) \
$$(eval $1_NO_MATCH := ) \
) \
) \
$$(if $$($1_NO_MATCH), \
$$(if $$(filter $$(part), $$($1_KEYWORDS) $$($1_STRING_KEYWORDS)), \
$$(info Keyword $$(part) for $1 needs to be assigned a value.) \
, \
$$(info $$(part) is not a valid keyword for $1.) \
$$(info Valid keywords: $$($1_KEYWORDS) $$($1_STRING_KEYWORDS).) \
) \
$$(error Cannot continue) \
) \
)
endif
endef
################################################################################
# ShellQuote
#
# Quotes a string with single quotes and replaces single quotes with '\'' so
# that the contents survives being given to the shell.
ShellQuote = \
$(SQUOTE)$(subst $(SQUOTE),$(SQUOTE)\$(SQUOTE)$(SQUOTE),$(strip $1))$(SQUOTE)
################################################################################
# FixPath
#
# On Windows, converts a path from cygwin/unix style (e.g. /bin/foo) into
# "mixed mode" (e.g. c:/cygwin/bin/foo). On other platforms, return the path
# unchanged.
# This is normally not needed since we use the FIXPATH prefix for command lines,
# but might be needed in certain circumstances.
ifeq ($(OPENJDK_TARGET_OS), windows)
FixPath = \
$(shell $(CYGPATH) -m $1)
else
FixPath = \
$1
endif
################################################################################
# Write to and read from file
# Param 1 - File to read
ReadFile = \
$(shell $(CAT) $1)
# Param 1 - Text to write
# Param 2 - File to write to
ifeq ($(HAS_FILE_FUNCTION), true)
WriteFile = \
$(file >$2,$(strip $1))
else
# Use printf to get consistent behavior on all platforms.
WriteFile = \
$(shell $(PRINTF) "%s" $(call ShellQuote, $1) > $2)
endif
################################################################################
# DependOnVariable
#
# This macro takes a variable name and puts the value in a file only if the
# value has changed since last. The name of the file is returned. This can be
# used to create rule dependencies on make variable values. The following
# example would get rebuilt if the value of SOME_VAR was changed:
#
# path/to/some-file: $(call DependOnVariable, SOME_VAR)
# echo $(SOME_VAR) > $@
#
# Note that leading and trailing white space in the value is ignored.
#
# Defines the sub directory structure to store variable value file in
DependOnVariableDirName = \
$(strip $(addsuffix $(if $(MODULE),/$(MODULE)), \
$(subst $(TOPDIR)/,, $(if $(filter /%, $(firstword $(MAKEFILE_LIST))), \
$(firstword $(MAKEFILE_LIST)), \
$(CURDIR)/$(firstword $(MAKEFILE_LIST))))))
# Defines the name of the file to store variable value in. Generates a name
# unless parameter 2 is given.
# Param 1 - Name of variable
# Param 2 - (optional) name of file to store value in
DependOnVariableFileName = \
$(strip $(if $(strip $2), $2, \
$(MAKESUPPORT_OUTPUTDIR)/vardeps/$(DependOnVariableDirName)/$(strip $1).vardeps))
# Does the actual work with parameters stripped.
# If the file exists AND the contents is the same as the variable, do nothing
# else print a new file.
# Always returns the name of the file where the value was printed.
# Param 1 - Name of variable
# Param 2 - (optional) name of file to store value in
DependOnVariableHelper = \
$(strip \
$(eval -include $(call DependOnVariableFileName, $1, $2)) \
$(if $(call equals, $(strip $($1)), $(strip $($1_old))),,\
$(call MakeDir, $(dir $(call DependOnVariableFileName, $1, $2))) \
$(if $(findstring $(LOG_LEVEL), trace), \
$(info NewVariable $1: >$(strip $($1))<) \
$(info OldVariable $1: >$(strip $($1_old))<)) \
$(call WriteFile, $1_old:=$(call DoubleDollar,$(call EscapeHash,$($1))), \
$(call DependOnVariableFileName, $1, $2))) \
$(call DependOnVariableFileName, $1, $2) \
)
# Main macro
# Param 1 - Name of variable
# Param 2 - (optional) name of file to store value in
DependOnVariable = \
$(call DependOnVariableHelper,$(strip $1),$(strip $2))
# LogCmdlines is only intended to be used by ExecuteWithLog
ifeq ($(LOG_CMDLINES), true)
LogCmdlines = $(info $(strip $1))
else
LogCmdlines =
endif
################################################################################
# ExecuteWithLog will run a command and log the output appropriately. This is
# meant to be used by commands that do "real" work, like a compilation.
# The output is stored in a specified log file, which is displayed at the end
# of the build in case of failure. The command line itself is stored in a file,
# and also logged to stdout if the LOG=cmdlines option has been given.
#
# NOTE: If the command redirects stdout, the caller needs to wrap it in a
# subshell (by adding parentheses around it), otherwise the redirect to the
# subshell tee process will create a race condition where the target file may
# not be fully written when the make recipe is done.
#
# Param 1 - The path to base the name of the log file / command line file on
# Param 2 - The command to run
ExecuteWithLog = \
$(call LogCmdlines, Exececuting: [$(strip $2)]) \
$(call WriteFile, $2, $(strip $1).cmdline) \
( $(strip $2) > >($(TEE) $(strip $1).log) 2> >($(TEE) $(strip $1).log >&2) || \
( exitcode=$(DOLLAR)? && \
$(CP) $(strip $1).log $(MAKESUPPORT_OUTPUTDIR)/failure-logs/$(subst /,_,$(patsubst $(BUILD_OUTPUT)/%,%,$(strip $1))).log && \
$(CP) $(strip $1).cmdline $(MAKESUPPORT_OUTPUTDIR)/failure-logs/$(subst /,_,$(patsubst $(BUILD_OUTPUT)/%,%,$(strip $1))).cmdline && \
exit $(DOLLAR)exitcode ) )
################################################################################
# Find lib dir for module
# Param 1 - module name
FindLibDirForModule = \
$(SUPPORT_OUTPUTDIR)/modules_libs/$(strip $1)
################################################################################
# Return a string suitable for use after a -classpath or --module-path option. It
# will be correct and safe to use on all platforms. Arguments are given as space
# separate classpath entries. Safe for multiple nested calls.
# param 1 : A space separated list of classpath entries
# The surrounding strip is needed to keep additional whitespace out
PathList = \
"$(subst $(SPACE),$(PATH_SEP),$(strip $(subst $(DQUOTE),,$1)))"
################################################################################
# Check if a specified hotspot variant is being built, or at least one of a
# list of variants. Will return 'true' or 'false'.
# $1 - the variant to test for
check-jvm-variant = \
$(strip \
$(if $(filter-out $(VALID_JVM_VARIANTS), $1), \
$(error Internal error: Invalid variant tested: $1)) \
$(if $(filter $1, $(JVM_VARIANTS)), true, false))
################################################################################
# Converts a space separated list to a comma separated list.
#
# Replacing double-comma with a single comma is to workaround the issue with
# some version of make on windows that doesn't substitute spaces with one comma
# properly.
CommaList = \
$(strip \
$(subst $(COMMA)$(COMMA),$(COMMA),$(subst $(SPACE),$(COMMA),$(strip $1))) \
)
################################################################################
# Converts a space separated list to a colon separated list.
#
# Replacing double-colon with a single colon is to workaround the issue with
# some version of make on windows that doesn't substitute spaces with one colon
# properly.
ColonList = \
$(strip \
$(subst ::,:,$(subst $(SPACE),:,$(strip $1))) \
)
################################################################################
# Hook to include the corresponding custom file, if present.
$(eval $(call IncludeCustomExtension, , common/MakeBase.gmk))
endif # _MAKEBASE_GMK