README.md


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94

Vector Packet Processing
========================

## Introduction.

The VPP platform is an extensible framework that provides out-of-the-box
production quality switch/router functionality. It is the open source version
of Cisco's Vector Packet Processing (VPP) technology: a high performance,
packet-processing stack that can run on commodity CPUs.

The benefits of this implementation of VPP are its high performance, proven
technology, its modularity and flexibility, and rich feature set.

For more information on VPP and its features please visit the
[FD.io website](http://fd.io/) and
[What is VPP?](https://wiki.fd.io/view/VPP/What_is_VPP%3F) pages.


## Directory layout.

Directory name         | Description
---------------------- | -------------------------------------------
     build-data        | Build metadata
     build-root        | Build output directory
     doxygen           | Documentation generator configuration
     dpdk              | DPDK patches and build infrastructure
     g2                | Event log visualization tool
     gmod              | perf related?
     perftool          | Performance tool
     sample-plugin     | A sample plugin
@ref svm               | Shared virtual memory allocation library
     test              | Unit tests
@ref vlib              | VPP application library source
@ref vlib-api          | VPP API library source
@ref vnet              | VPP networking source
@ref vpp               | VPP application source
@ref vpp-api           | VPP application API source
     vppapigen         | VPP API generator source
     vpp-api-test      | VPP API test program source
@ref vppinfra          | VPP core library source

(If the page you are viewing is not generated by Doxygen then
ignore any @@ref labels in the above table.)


## Getting started.

In general anyone interested in building, developing or running VPP should
consult the [VPP wiki](https://wiki.fd.io/view/VPP) for more complete
documentation.

In particular, readers are recommended to take a look at [Pulling, Building,
Running, Hacking, Pushing](https://wiki.fd.io/view/VPP/Pulling,_Building,_Run
ning,_Hacking_and_Pushing_VPP_Code) which provides extensive step-by-step
coverage of the topic.

For the impatient, some salient information is distilled below.


### Quick-start: On an existing Linux host.

To install system dependencies, build VPP and then install it, simply run the
build script. This should be performed a non-privileged user with `sudo`
access from the project base directory:

    ./build-root/vagrant/build.sh

If you want a more fine-grained approach because you intend to do some
development work, the `Makefile` in the root directory of the source tree
provides several convenience shortcuts as `make` targets that may be of
interest. To see the available targets run:

    make


### Quick-start: Vagrant.

The directory `build-root/vagrant` contains a `VagrantFile` and supporting
scripts to bootstrap a working VPP inside a Vagrant-managed Virtual Machine.
This VM can then be used to test concepts with VPP or as a development
platform to extend VPP. Some obvious caveats apply when using a VM for VPP
since its performance will never match that of bare metal; if your work is
timing or performance sensitive, consider using bare metal in addition or
instead of the VM.

For this to work you will need a working installation of Vagrant. Instructions
for this can be found [on the Setting up Vagrant wiki page]
(https://wiki.fd.io/view/DEV/Setting_Up_Vagrant).


## More information.

Visit the [VPP wiki](https://wiki.fd.io/view/VPP) for details on more
advanced building strategies and development notes.
# Copyright (c) 2015 Cisco and/or its affiliates.
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

#
# Copyright (c) 2007-2008 Eliot Dresselhaus
#
#  Permission is hereby granted, free of charge, to any person obtaining
#  a copy of this software and associated documentation files (the
#  "Software"), to deal in the Software without restriction, including
#  without limitation the rights to use, copy, modify, merge, publish,
#  distribute, sublicense, and/or sell copies of the Software, and to
#  permit persons to whom the Software is furnished to do so, subject to
#  the following conditions:
#
#  The above copyright notice and this permission notice shall be
#  included in all copies or substantial portions of the Software.
#
#  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
#  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
#  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
#  NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
#  LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
#  OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
#  WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
#

######################################################################
# Collect makefile fragments
######################################################################

# Scripts require non-POSIX parts of bash
SHELL := /bin/bash

# Where this makefile lives
MU_BUILD_ROOT_DIR = $(shell pwd)
MU_BUILD_NAME = $(shell basename $(MU_BUILD_ROOT_DIR))

# Search path (e.g. multiple directories) where sources are found.
SOURCE_PATH =

# Pick up user's definitions for variables e.g. SOURCE_PATH, etc.
-include build-config.mk

MU_BUILD_ROOT_NAME = $(shell basename $(MU_BUILD_ROOT_DIR))
MU_BUILD_DATA_DIR_NAME = build-data

ABSOLUTE_SOURCE_PATH = $(foreach d,$(SOURCE_PATH),$(shell cd $(d) && pwd))

SOURCE_PATH_BUILD_ROOT_DIRS = $(addsuffix /$(MU_BUILD_NAME),$(ABSOLUTE_SOURCE_PATH))
SOURCE_PATH_BUILD_DATA_DIRS = $(addsuffix /$(MU_BUILD_DATA_DIR_NAME),$(ABSOLUTE_SOURCE_PATH))

# For tools use build-root as source path, otherwise use given source path
FIND_SOURCE_PATH =						\
  $(if $(is_build_tool),					\
    $(SOURCE_PATH_BUILD_ROOT_DIRS) $(MU_BUILD_ROOT_DIR),	\
    $(SOURCE_PATH_BUILD_DATA_DIRS))

# First search given source path, then default to build-root
FULL_SOURCE_PATH = $(SOURCE_PATH_BUILD_DATA_DIRS) $(MU_BUILD_ROOT_DIR)

# Misc functions
is_in_fn = $(strip $(filter $(1),$(2)))
last_fn = $(lastword $1)
chop_fn = $(wordlist 2,$(words $1),x $1)
uniq_fn = $(strip $(if $1,$(call uniq_fn,$(call chop_fn,$1)) \
            $(if $(filter $(call last_fn,$1),$(call chop_fn,$1)),,$(call last_fn,$1))))
ifdef3_fn = $(if $(patsubst undefined,,$(origin $(1))),$(3),$(2))
ifdef_fn = $(call ifdef3_fn,$(1),$(2),$($(1)))

_mu_debug = $(warning "$(1) = $($(1))")

$(foreach d,$(FIND_SOURCE_PATH),					\
  $(eval _mu_package_mk_in_$(d) = $(shell find $(d)/packages/*.mk 2> /dev/null))	\
  $(eval _mu_srcdirs_in_$(d) =						\
    $(shell find $(d)/..						\
      -maxdepth 1							\
      -type d								\
      -and -not -name ".."						\
      -and -not -name $(MU_BUILD_ROOT_NAME)				\
      -and -not -name $(MU_BUILD_DATA_DIR_NAME)))			\
  $(eval _mu_non_package_files_in_$(d) =				\
    $(shell find $(d)/packages						\
      -type f								\
      -and -not -name '*.mk'						\
      -and -not -name '*~' 2> /dev/null))				\
  $(foreach p,$(patsubst %.mk,%,$(notdir $(_mu_package_mk_in_$(d)))),	\
    $(eval _mu_package_dir_$(p) = $(d))					\
    $(eval _mu_package_mk_$(p) = $(d)/packages/$(p).mk)			\
  )									\
  $(foreach p,$(notdir $(_mu_srcdirs_in_$(d))),				\
    $(eval _mu_package_srcdir_$(p) = $(shell cd $(d)/../$(p) && pwd))	\
  )									\
)

# Find root directory for package based on presence of package .mk
# makefile fragment on source path.
_find_build_data_dir_for_package_fn = $(shell			\
  set -eu$(BUILD_DEBUG) ;					\
  for d in $(FIND_SOURCE_PATH) ; do				\
    f="$${d}/packages/$(1).mk" ;				\
    [[ -f $${f} ]] && echo `cd $${d} && pwd` && exit 0 ;	\
  done ;							\
  echo "")
find_build_data_dir_for_package_fn = $(call ifdef_fn,_mu_package_dir_$(1),)

# dir/PACKAGE
_find_source_fn = $(shell				\
  set -eu$(BUILD_DEBUG) ;				\
  d="$(call find_build_data_dir_for_package_fn,$(1))" ;	\
  [[ -n "$${d}" ]] && d="$${d}/../$(1)" ;		\
  echo "$${d}")
find_source_fn = $(call ifdef3_fn,_mu_package_dir_$(1),,$(_mu_package_dir_$(1))/../$(1))

# Find given FILE in source path as build-data/packages/FILE
find_package_file_fn = $(shell				\
  set -eu$(BUILD_DEBUG) ;				\
  d="$(call find_build_data_dir_for_package_fn,$(1))" ;	\
  [[ -n "$${d}" ]] && d="$${d}/packages/$(2)" ;		\
  [[ -f "$${d}" ]] && echo "$${d}")

# Find first FILE in source path with name PATH/build-data/FILE
find_build_data_file_fn = $(shell				\
  set -eu$(BUILD_DEBUG) ;					\
  for d in $(FIND_SOURCE_PATH) ; do				\
    f="$${d}/$(1)" ;						\
    [[ -f $${f} ]] && echo `cd $${d} && pwd`/$(1) && exit 0 ;	\
  done ;							\
  echo "")

######################################################################
# ARCH, PLATFORM
######################################################################

NATIVE_ARCH = $(shell gcc -dumpmachine | sed -e 's/\([a-zA-Z_0-9]*\)-.*/\1/')

# Find all platforms.mk that we can, including those from build-root
$(foreach d,$(FULL_SOURCE_PATH), \
  $(eval -include $(d)/platforms.mk))

# Platform should be defined somewhere by specifying $($(PLATFORM)_arch)
ARCH = $(strip $($(PLATFORM)_arch))
ifeq ($(ARCH),)
  $(error "Unknown platform `$(PLATFORM)'")
endif

# map e.g. ppc7450 -> ppc
BASIC_ARCH = \
   ${shell case '$(ARCH)' in \
      (native) echo $(NATIVE_ARCH) ;; \
      (i*86*) echo i386 ;; \
      (ppc*|powerpc*) echo ppc ;; \
      (*) echo '$(ARCH)' ;; \
     esac }

# x86_64 can be either 32/64.  set BIACH=32 to get 32 bit libraries.
BIARCH = 64

x86_64_libdir = $(BIARCH)
native_libdir = $($(NATIVE_ARCH)_libdir)

# lib or lib64 depending
arch_lib_dir = lib$($(BASIC_ARCH)_libdir)

# OS to configure for.  configure --host will be set to $(ARCH)-$(OS)
# Allow per-platform overrides

OS = $(strip $($(PLATFORM)_os))
ifeq ($(OS),)
  OS = mu-linux
endif

spu_target = spu
native_target =

is_native = $(if $(ARCH:native=),,true)
not_native = $(if $(ARCH:native=),true,)

ARCH_TARGET_tmp = $(call ifdef_fn,$(ARCH)_target,$(ARCH)-$(OS))
TARGET = $(call ifdef_fn,$(PLATFORM)_target,$(ARCH_TARGET_tmp))
TARGET_PREFIX = $(if $(not_native),$(TARGET)-,)

# CPU microarchitecture detection. 
# Either set <platform>_march in build-data/platforms/<platform>.mk,
# or detect and use the build-host instruction set

MARCH = $(strip $($(PLATFORM)_march))
ifeq ($(MARCH),)
  ifneq ($(wildcard $(TOOL_INSTALL_DIR)/bin/$(TARGET)-gcc),)
    TARGET_GCC = $(TOOL_INSTALL_DIR)/bin/$(TARGET)-gcc
  else ifneq ($(wildcard $(MU_BUILD_ROOT_DIR)/tools/bin/$(TARGET)-gcc),)
    TARGET_GCC = $(MU_BUILD_ROOT_DIR)/tools/bin/$(TARGET)-gcc
  endif
  ifneq ($(TARGET_GCC),)
    MARCH = $(shell $(TARGET_GCC) -Q --help=target -march=native | grep march | sed -e 's/.*march=[[:space:]]*//')
  else
    MARCH = native
  endif
else
  ifeq ($(MARCH),nehalem)
    override MARCH = corei7
  else ifeq ($(MARCH),westmere)
    override MARCH = corei7
  else ifeq ($(MARCH),sandybridge)
    override MARCH = corei7-avx
  else ifeq ($(MARCH),ivybridge)
    override MARCH = core-avx-i
  else ifeq ($(MARCH),haswell)
    override MARCH = core-avx2
  endif
endif
export MARCH

MTUNE = $(strip $($(PLATFORM)_mtune))
ifeq ($(MTUNE),)
  MTUNE = generic
endif

######################################################################
# Generic build stuff
######################################################################

# The package we are currently working on
PACKAGE = $*

# Build/install tags.  This lets you have different CFLAGS/CPPFLAGS/LDFLAGS
# for e.g. debug versus optimized compiles.  Each tag has its own set of build/install
# areas.
TAG = 
TAG_PREFIX = $(if $(TAG),$(TAG)-)

# yes you need the space
tag_var_with_added_space_fn = $(if $($(TAG)_TAG_$(1)),$($(TAG)_TAG_$(1)) )

# TAG=debug for debugging
debug_TAG_CFLAGS = -g -O0 -DCLIB_DEBUG -DFORTIFY_SOURCE=2 -march=$(MARCH) \
		   -fstack-protector-all -fPIC
debug_TAG_LDFLAGS = -g -O0 -DCLIB_DEBUG -DFORTIFY_SOURCE=2 -march=$(MARCH) \
		   -fstack-protector-all -fPIC

BUILD_PREFIX_package = build-$(TAG_PREFIX)
BUILD_PREFIX_tool = build-tool-$(TAG_PREFIX)
INSTALL_PREFIX = install-$(TAG_PREFIX)
IMAGES_PREFIX = images-$(TAG_PREFIX)

# Whether we are building a tool or not
tool_or_package_fn = $(if $(is_build_tool),tool,package)

# Directory where packages are built & installed
BUILD_DIR = $(MU_BUILD_ROOT_DIR)/$(BUILD_PREFIX_$(call tool_or_package_fn))$(ARCH)

## BURT
# we will deprecate INSTALL_DIR shortly for DFLT_INSTALL_DIR
INSTALL_DIR = $(MU_BUILD_ROOT_DIR)/$(INSTALL_PREFIX)$(ARCH)
# DFLT_INSTALL_DIR used in platforms.mk for $(PLATFORM)_DESTDIR_BASE
DFLT_INSTALL_DIR := $(MU_BUILD_ROOT_DIR)/$(INSTALL_PREFIX)$(ARCH)
## BURT

PLATFORM_IMAGE_DIR = $(MU_BUILD_ROOT_DIR)/$(IMAGES_PREFIX)$(PLATFORM)

# $(call VAR,DEFAULT)
override_var_with_default_fn = $(if $($(1)),$($(1)),$(2))

# $(call if_directory_exists_fn,D1,D2) returns D1 if it exists else D2
define if_directory_exists_fn
$(shell if test -d $(1); then echo $(1); else echo $(2); fi)
endef

# $(call if_file_exists_fn,F1,F2) returns F1 if it exists else F2
define if_file_exists_fn
$(shell if test -f $(1); then echo $(1); else echo $(2); fi)
endef

# Default VAR, package specified override of default PACKAGE_VAR
package_var_fn = $(call override_var_with_default_fn,$(1)_$(2),$(1))

package_build_dir_fn = $(call package_var_fn,$(1),build_dir)

package_install_dir_fn = \
  $(if $(is_build_tool),$(TOOL_INSTALL_DIR),$(INSTALL_DIR)/$(call package_build_dir_fn,$(1)))

PACKAGE_BUILD_DIR = \
  $(BUILD_DIR)/$(call package_build_dir_fn,$(PACKAGE))
PACKAGE_INSTALL_DIR = \
  $(call package_install_dir_fn,$(PACKAGE))

# Tools (gcc, binutils, glibc...) are installed here
TOOL_INSTALL_DIR = $(MU_BUILD_ROOT_DIR)/tools

# Target specific tools go here e.g. mu-build/tools/ppc-mu-linux
TARGET_TOOL_INSTALL_DIR = $(TOOL_INSTALL_DIR)/$(TARGET)

# Set BUILD_DEBUG to vx or x enable shell command tracing.
BUILD_DEBUG =

# Message from build system itself (as opposed to make or shell commands)
build_msg_fn = echo "@@@@ $(1) @@@@"

# Allow CCACHE_DIR to be overridden, e.g. in .../build-root/build-config.mk
ifeq ($(CCACHE_DIR),)
  CCACHE_DIR=$(MU_BUILD_ROOT_DIR)/.ccache
endif

# Always prefer our own tools to those installed on system.
# Note: ccache-bin must be before tool bin.
BUILD_ENV =										\
    export CCACHE_DIR=$(CCACHE_DIR) ;					\
    export PATH=$(TOOL_INSTALL_DIR)/ccache-bin:$(TOOL_INSTALL_DIR)/bin:$${PATH} ;	\
    export PATH="`echo $${PATH} | sed -e s/[.]://`" ;					\
    $(if $(not_native),export CONFIG_SITE=$(MU_BUILD_ROOT_DIR)/config.site ;,)	\
    export LD_LIBRARY_PATH=$(TOOL_INSTALL_DIR)/lib64:$(TOOL_INSTALL_DIR)/lib ;		\
    set -eu$(BUILD_DEBUG) ;							        \
    set -o pipefail

######################################################################
# Package build generic definitions
######################################################################

package_dir_fn = \
  $(call find_build_data_dir_for_package_fn,$(1))/packages

package_mk_fn = $(call package_dir_fn,$(1))/$(1).mk

### BURT

#next version
#pkgPhaseDependMacro = $(foreach x,configure build install,                  \
			$(eval $(1)_$(x)_depend := $($(1)_depend:%=%-$(x))))
#version equivalent to original code
pkgPhaseDependMacro = $(eval $(1)_configure_depend := $($(1)_depend:%=%-install))

### BURT

# Pick up built-root/pre-package-include.mk for all source directories
$(foreach d,$(SOURCE_PATH_BUILD_ROOT_DIRS),	\
  $(eval -include $(d)/pre-package-include.mk))

$(foreach d,$(addsuffix /packages,$(FIND_SOURCE_PATH)),			\
  $(eval -include $(d)/*.mk)						\
  $(eval ALL_PACKAGES += $(patsubst $(d)/%.mk,%,$(wildcard $(d)/*.mk)))	\
)

# Pick up built-root/post-package-include.mk for all source directories
$(foreach d,$(SOURCE_PATH_BUILD_ROOT_DIRS),	\
  $(eval -include $(d)/post-package-include.mk))

# Linux specific native build tools
NATIVE_TOOLS_LINUX =				\
  e2fsimage					\
  e2fsprogs					\
  fakeroot					\
  jffs2						\
  mkimage					\
  zlib						\
  xz						\
  squashfs

IS_LINUX = $(if $(findstring no,$($(PLATFORM)_uses_linux)),no,yes)

NATIVE_TOOLS_$(IS_LINUX) += $(NATIVE_TOOLS_LINUX)

# only build glibc for linux installs
CROSS_TOOLS_$(IS_LINUX) += glibc gcc

# must be first for bootstrapping
NATIVE_TOOLS = findutils make

# basic tools needed for build system
NATIVE_TOOLS += git automake autoconf libtool texinfo bison flex tar

# needed to compile gcc
NATIVE_TOOLS += mpfr gmp mpc

# Tool to sign binaries
NATIVE_TOOLS += sign

# ccache
NATIVE_TOOLS += ccache

# Tools needed on native host to build for platform
NATIVE_TOOLS += $(call ifdef_fn,$(PLATFORM)_native_tools,)

# Tools for cross-compiling from native -> ARCH
CROSS_TOOLS = binutils gcc-bootstrap gdb

# Tools needed on native host to build for platform
CROSS_TOOLS += $(call ifdef_fn,$(PLATFORM)_cross_tools,)

NATIVE_TOOLS += $(NATIVE_TOOLS_yes)
CROSS_TOOLS += $(CROSS_TOOLS_yes)

timestamp_name_fn = .mu_build_$(1)_timestamp
CONFIGURE_TIMESTAMP = $(call timestamp_name_fn,configure)
BUILD_TIMESTAMP = $(call timestamp_name_fn,build)
INSTALL_TIMESTAMP = $(call timestamp_name_fn,install)

TIMESTAMP_DIR = $(PACKAGE_BUILD_DIR)

find_newer_files_fn =						\
  "`for i in $(2) ; do						\
      [[ -f $$i && $$i -nt $(1) ]] && echo "$$i" && exit 0;	\
    done ;							\
    exit 0;`"

find_filter = -not -name '*~'
find_filter += -and -not -path '*/.git*'
find_filter += -and -not -path '*/.svn*'
find_filter += -and -not -path '*/.CVS*'
find_filter += -and -not -path '*/manual/*'
find_filter += -and -not -path '*/autom4te.cache/*'
find_filter += -and -not -path '*/doc/all-cfg.texi'
find_filter += -and -not -path '*/.mu_build_*'

find_newer_filtered_fn =			\
  (! -f $(1)					\
    || -n $(call find_newer_files_fn,$(1),$(3))	\
    || -n "`find -H $(2)			\
	      -type f				\
              -and -newer $(1)			\
	      -and \( $(4) \)			\
              -print -quit`")

find_newer_fn =							\
  $(call find_newer_filtered_fn,$(1),$(2),$(3),$(find_filter))

######################################################################
# Package dependencies
######################################################################

# This must come before %-configure, %-build, %-install pattern rules
# or else dependencies will not work.

package_dependencies_fn =				\
  $(patsubst %-install, %,				\
    $(filter %-install,$($(1)_configure_depend)))

PACKAGE_DEPENDENCIES = $(call package_dependencies_fn,$(PACKAGE))

# package specific configure, build, install dependencies
add_package_dependency_fn = \
  $(if $($(1)_$(2)_depend), \
       $(eval $(1)-$(2) : $($(1)_$(2)_depend)))

$(foreach p,$(ALL_PACKAGES), \
    $(call add_package_dependency_fn,$(p),configure) \
    $(call add_package_dependency_fn,$(p),build) \
    $(call add_package_dependency_fn,$(p),install))

TARGETS_RESPECTING_DEPENDENCIES = image_install wipe diff push-all pull-all find-source

# carry over packages dependencies to image install, wipe, pull-all, push-all
$(foreach p,$(ALL_PACKAGES),							\
  $(if $($(p)_configure_depend),						\
    $(foreach s,$(TARGETS_RESPECTING_DEPENDENCIES),				\
      $(eval $(p)-$(s):								\
	     $(addsuffix -$(s), $(call package_dependencies_fn,$(p)))))))

# recursively resolve dependencies
resolve_dependencies2_fn = $(strip					\
  $(eval __added = $(filter-out $(4),					\
    $(call uniq_fn,							\
      $(foreach l,$(3),							\
       $(call ifdef3_fn,$(l)$(1),,$(call $(2),$($(l)$(1))))		\
      ))))								\
  $(eval __known = $(call uniq_fn,$(4) $(3) $(__added)))		\
  $(if $(__added),							\
    $(call resolve_dependencies2_fn,$(1),$(2),$(__added),$(__known)),	\
    $(__known))								\
)

resolve_dependencies_null_fn = $(1)

resolve_dependencies_fn = $(call resolve_dependencies2_fn,$(1),resolve_dependencies_null_fn,$(2))

######################################################################
# Package configure
######################################################################

# x86_64 can be either 32/64.  set BIACH=32 to get 32 bit libraries.
BIARCH = 64

x86_64_libdir = $(BIARCH)
native_libdir = $($(NATIVE_ARCH)_libdir)

# lib or lib64 depending
arch_lib_dir = lib$($(BASIC_ARCH)_libdir)

# find dynamic linker as absolute path
TOOL_INSTALL_LIB_DIR=$(TOOL_INSTALL_DIR)/$(TARGET)/$(arch_lib_dir)
DYNAMIC_LINKER=${shell cd $(TOOL_INSTALL_LIB_DIR); echo ld*.so.*}

# Pad dynamic linker & rpath so elftool will never have to change ELF section sizes.
# Yes, this is a kludge.
lots_of_slashes_to_pad_names = "/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////"

# When PLATFORM != native we *always* use our own versions of GLIBC and dynamic linker
# Allow per-platform overrides
CROSS_LDFLAGS = $(strip $($(PLATFORM)_cross_ldflags))
ifeq ($(CROSS_LDFLAGS),)
  CROSS_LDFLAGS =											\
    -Wl,--dynamic-linker=$(lots_of_slashes_to_pad_names)$(TOOL_INSTALL_LIB_DIR)/$(DYNAMIC_LINKER)	\
    -Wl,-rpath -Wl,$(lots_of_slashes_to_pad_names)$(TOOL_INSTALL_LIB_DIR)
endif

cross_ldflags = $(if $(is_native)$(is_build_tool),,$(CROSS_LDFLAGS) )

# $(call installed_libs_fn,PACKAGE)
# Return install library directory for given package.
# Some packages (e.g. openssl) don't install under lib64; instead they use lib
define installed_lib_fn
$(call if_directory_exists_fn,
  $(call package_install_dir_fn,$(1))/$(arch_lib_dir),
  $(call package_install_dir_fn,$(1))/lib)
endef

# Set -L and rpath to point to dependent libraries previously built by us.
installed_libs_fn =					\
  $(foreach i,$(1),					\
    -L$(call installed_lib_fn,$(i))			\
    -Wl,-rpath -Wl,$(call installed_lib_fn,$(i)))

# As above for include files
installed_include_fn = $(call package_install_dir_fn,$(1))/include

installed_includes_fn = $(foreach i,$(1),-I$(call installed_include_fn,$(i)))

# By default package CPPFLAGS (to set include path -I) and LDFLAGS (to set link path -L)
# point at dependent install directories.
DEFAULT_CPPFLAGS = $(call installed_includes_fn, $(PACKAGE_DEPENDENCIES))
DEFAULT_LDFLAGS = $(call installed_libs_fn, $(PACKAGE_DEPENDENCIES))

configure_var_fn = \
  $(call tag_var_with_added_space_fn,$(1))$(call override_var_with_default_fn,$(PACKAGE)_$(1),$(DEFAULT_$(1)))
configure_ldflags_fn = \
  $(cross_ldflags)$(call configure_var_fn,LDFLAGS)

# Allow packages to override CPPFLAGS, CFLAGS, and LDFLAGS
CONFIGURE_ENV =								\
    $(if $(call configure_var_fn,CPPFLAGS),				\
	 CPPFLAGS="$(CPPFLAGS) $(call configure_var_fn,CPPFLAGS)")	\
    $(if $(call configure_var_fn,CFLAGS),				\
	 CFLAGS="$(CFLAGS) $(call configure_var_fn,CFLAGS)")		\
    $(if $(call configure_var_fn,CCASFLAGS),				\
	 CCASFLAGS="$(CCASFLAGS) $(call configure_var_fn,CCASFLAGS)")	\
    $(if $(call configure_ldflags_fn),					\
	 LDFLAGS="$(LDFLAGS) $(call configure_ldflags_fn)")		\
    $(if $($(PACKAGE)_configure_env),$($(PACKAGE)_configure_env))

### BURT
# only partially used now (used in a few .mk files)
ifeq ($(is_build_tool),yes)
prefix     = $(PACKAGE_INSTALL_DIR)
libdir     = $(PACKAGE_INSTALL_DIR)/$(arch_lib_dir)
libexecdir = $(PACKAGE_INSTALL_DIR)/usr/libexec
DESTDIR     = /
else
# Eventually simplify this with no per package DESTDIR or prefix
ppdMacro = $(if $(PER_PACKAGE_DESTDIR),$(call package_build_dir_fn,$(1)))
pppMacro = $(if $(PER_PACKAGE_PREFIX),$(call package_build_dir_fn,$(1)))
prefixMacro     = $($(PLATFORM)_PREFIX_BASE)/$(pppMacro)
prefix = $(call prefixMacro,$(PACKAGE))
libdir     = $($(PLATFORM)_LIBDIR)
libexecdir = $($(PLATFORM)_LIBEXECDIR)
destdirMacro  = $($(PLATFORM)_DESTDIR_BASE)$(ppdMacro)
DESTDIR  = $(call destdirMacro,$(PACKAGE))
endif
### BURT
### dbarach
image_extra_dependencies = $($(PLATFORM)_image_extra_dependencies)
### dbarach

configure_package_gnu =						\
  s=$(call find_source_fn,$(PACKAGE_SOURCE)) ;			\
  if [ ! -f $$s/configure ] ; then				\
    autoreconf -i -f $$s ;					\
  fi ;								\
  cd $(PACKAGE_BUILD_DIR) ;					\
  env $(CONFIGURE_ENV)						\
    $$s/configure						\
      $(if $($(PACKAGE)_configure_host_and_target),		\
           $($(PACKAGE)_configure_host_and_target),		\
           $(if $(not_native),--host=$(TARGET),))		\
      $(if $($(PACKAGE)_configure_prefix),			\
           $($(PACKAGE)_configure_prefix),			\
           --libdir=$(PACKAGE_INSTALL_DIR)/$(arch_lib_dir)	\
           --prefix=$(PACKAGE_INSTALL_DIR))			\
      $($(PACKAGE)_configure_args) 				\
      $($(PACKAGE)_configure_args_$(PLATFORM))

configure_package =							\
  $(call build_msg_fn,Configuring $(PACKAGE) in $(PACKAGE_BUILD_DIR)) ;	\
  mkdir -p $(PACKAGE_BUILD_DIR) ;					\
  $(if $($(PACKAGE)_configure),						\
       $($(PACKAGE)_configure),						\
       $(configure_package_gnu))

# Tools (e.g. gcc, binutils, gdb) required a platform to build for
check_platform =								\
  is_tool="$(is_build_tool)" ;							\
  is_cross_package="$(findstring $(PACKAGE),$(CROSS_TOOLS))" ;			\
  is_arch_native="$(if $(subst native,,$(ARCH)),,yes)" ;			\
  if [ "$${is_tool}" == "yes"							\
       -a "$${is_cross_package}" != ""						\
       -a "$${is_arch_native}" != "" ]; then					\
    $(call build_msg_fn,You must specify PLATFORM for building tools) ;		\
    exit 1 ;									\
  fi ;										\
  : check that platform gcc can be found ;					\
  target_gcc=gcc ;								\
  if [ "$${is_arch_native}" != "yes" ] ; then					\
    target_gcc=$(TARGET)-gcc ;							\
  fi ;										\
  if [ "$${is_tool}" != "yes"							\
       -a "$${is_arch_native}" != "yes"						\
       -a ! -x "`which 2> /dev/null $${target_gcc}`" ] ; then			\
    $(call build_msg_fn,							\
	   No cross-compiler found for platform $(PLATFORM) target $(TARGET);	\
	     try make PLATFORM=$(PLATFORM) install-tools) ;			\
    exit 1 ;									\
  fi
    
configure_check_timestamp =						\
  @$(BUILD_ENV) ;							\
  $(check_platform) ;							\
  mkdir -p $(PACKAGE_BUILD_DIR) ;					\
  mkdir -p $(PACKAGE_INSTALL_DIR) ;					\
  conf="$(TIMESTAMP_DIR)/$(CONFIGURE_TIMESTAMP)" ;			\
  dirs="$(call package_mk_fn,$(PACKAGE))				\
	$(wildcard $(call find_source_fn,$(PACKAGE_SOURCE))/configure)	\
       $(MU_BUILD_ROOT_DIR)/config.site" ;				\
  if [[ $(call find_newer_fn, $${conf}, $${dirs}, $?) ]]; then		\
    $(configure_package) ;						\
    touch $${conf} ;							\
  else									\
    $(call build_msg_fn,Configuring $(PACKAGE): nothing to do) ;	\
  fi

.PHONY: %-configure
%-configure: %-find-source
	$(configure_check_timestamp)

######################################################################
# Package build
######################################################################

linux_n_cpus = `grep '^processor' /proc/cpuinfo | wc -l`

MAKE_PARALLEL_JOBS =				\
  -j $(shell					\
    if [ -f /proc/cpuinfo ] ; then		\
      expr 2 '*' $(linux_n_cpus) ;		\
    else					\
      echo 1 ;					\
    fi)

MAKE_PARALLEL_FLAGS = $(if $($(PACKAGE)_make_parallel_fails),,$(MAKE_PARALLEL_JOBS))

# Make command shorthand for packages & tools.
PACKAGE_MAKE =					\
  $(MAKE)					\
    -C $(PACKAGE_BUILD_DIR)			\
    $($(PACKAGE)_make_args)			\
    $(MAKE_PARALLEL_FLAGS)

build_package =							\
  $(call build_msg_fn,Building $* in $(PACKAGE_BUILD_DIR)) ;	\
  mkdir -p $(PACKAGE_BUILD_DIR) ;				\
  cd $(PACKAGE_BUILD_DIR) ;					\
  $(if $($(PACKAGE)_build),					\
       $($(PACKAGE)_build),					\
       $(PACKAGE_MAKE))

build_check_timestamp =									\
  @$(BUILD_ENV) ;									\
  comp="$(TIMESTAMP_DIR)/$(BUILD_TIMESTAMP)" ;						\
  conf="$(TIMESTAMP_DIR)/$(CONFIGURE_TIMESTAMP)" ;					\
  dirs="$(call find_source_fn,$(PACKAGE_SOURCE))					\
	$($(PACKAGE)_build_timestamp_depends)						\
	$(if $(is_build_tool),,$(addprefix $(INSTALL_DIR)/,$(PACKAGE_DEPENDENCIES)))" ;	\
  if [[ $${conf} -nt $${comp}								\
        || $(call find_newer_fn, $${comp}, $${dirs}, $?) ]]; then			\
    $(build_package) ;									\
    touch $${comp} ;									\
  else											\
    $(call build_msg_fn,Building $(PACKAGE): nothing to do) ;				\
  fi

.PHONY: %-build
%-build: %-configure
	$(build_check_timestamp)

.PHONY: %-rebuild
%-rebuild: %-wipe %-build
	@ :

######################################################################
# Package install
######################################################################

install_package =								\
    : by default, for non-tools, remove any previously installed bits ;		\
    $(if $(is_build_tool)$($(PACKAGE)_keep_instdir),				\
         true,									\
         rm -rf $(PACKAGE_INSTALL_DIR));					\
    mkdir -p $(PACKAGE_INSTALL_DIR) ;						\
    $(if $($(PACKAGE)_pre_install),$($(PACKAGE)_pre_install),true);		\
    $(if $($(PACKAGE)_install),							\
	 $($(PACKAGE)_install),							\
	 $(PACKAGE_MAKE)							\
	    $($(PACKAGE)_install_args)						\
	    install) ;								\
    $(if $($(PACKAGE)_post_install),$($(PACKAGE)_post_install),true)

install_check_timestamp =					\
  @$(BUILD_ENV) ;						\
  inst=$(TIMESTAMP_DIR)/$(INSTALL_TIMESTAMP) ;			\
  dirs="$(PACKAGE_BUILD_DIR)					\
	$($(PACKAGE)_install_dependencies)" ;			\
  if [[ $(call find_newer_fn, $${inst}, $${dirs}, $?) ]]; then	\
    $(call build_msg_fn,Installing $(PACKAGE)) ;		\
    $(install_package) ;					\
    touch $${inst} ;						\
  else								\
    $(call build_msg_fn,Installing $(PACKAGE): nothing to do) ;	\
  fi

.PHONY: %-install
%-install: %-build
	$(install_check_timestamp)

######################################################################
# Source code managment
######################################################################

GIT = git

# Maps package name to source directory root.
# Multiple packages may use a single source tree.
# For example, gcc-bootstrap package shares gcc source.
PACKAGE_SOURCE = $(if $($(PACKAGE)_source),$($(PACKAGE)_source),$(PACKAGE))

# Use git to download source if directory is not found
find_source_for_package =									\
  @$(BUILD_ENV) ;										\
  $(call build_msg_fn,Arch for platform '$(PLATFORM)' is $(ARCH)) ;				\
  $(call build_msg_fn,Finding source for $(PACKAGE)) ;						\
  s="$(call find_source_fn,$(PACKAGE_SOURCE))" ;						\
  [[ -z "$${s}" ]]										\
    && $(call build_msg_fn,Package $(PACKAGE) not found with path $(SOURCE_PATH))		\
    && exit 1;											\
  mk="$(call find_build_data_dir_for_package_fn,$(PACKAGE_SOURCE))/packages/$(PACKAGE).mk";	\
  $(call build_msg_fn,Makefile fragment found in $${mk}) ;					\
  if [ ! -d "$${s}" ] ; then									\
    d=`dirname $${mk}` ;									\
    i=`cd $${d}/.. && ($(GIT) config remote.origin.url ||					\
                    awk '/URL/ { print $$2; }' .git/remotes/origin)`;				\
    g=`dirname $${i}` ;										\
    $(call build_msg_fn,Fetching source: $(GIT) clone $${g}/$(PACKAGE_SOURCE) $$s) ;		\
    if ! $(GIT) clone $${g}/$(PACKAGE_SOURCE) $$s; then						\
      $(call build_msg_fn,No source for $(PACKAGE) in $${g});					\
      exit 1;											\
    fi ;											\
    $(call build_msg_fn,Fix file dates in $${g}/$(PACKAGE_SOURCE)) ;					\
    (cd $${s} ; $(MU_BUILD_ROOT_DIR)/autowank --touch) ;					\
  fi ;												\
  s=`cd $${s} && pwd` ;										\
  $(call build_msg_fn,Source found in $${s})

.PHONY: %-find-source
%-find-source:
	$(find_source_for_package)

.PHONY: %-push %-pull %-push-all %-pull-all
%-push %-pull %-push-all %-pull-all:
	@$(BUILD_ENV) ;								\
	push_or_pull=$(patsubst %-all,%,$(subst $(PACKAGE)-,,$@)) ;		\
	$(call build_msg_fn,Git $${push_or_pull} source for $(PACKAGE)) ;	\
	s=$(call find_source_fn,$(PACKAGE_SOURCE)) ;				\
	if [ "x$$s" = "x" ]; then						\
	     $(call build_msg_fn,No source for $(PACKAGE)) ;			\
	     exit 1;								\
	fi ;									\
	cd $$s && $(GIT) $${push_or_pull}

# Pull all packages for platform
.PHONY: pull-all
pull-all:
	@$(BUILD_ENV) ;								\
	$(call build_msg_fn,Git pull build system) ;				\
	for d in $(MU_BUILD_ROOT_DIR)						\
		 $(SOURCE_PATH_BUILD_ROOT_DIRS)					\
	 	 $(SOURCE_PATH_BUILD_DATA_DIRS); do				\
	  $(call build_msg_fn,Git pull $${d}) ;					\
	  pushd $${d} >& /dev/null && $(GIT) pull && popd >& /dev/null ;	\
	done ;									\
	$(call build_msg_fn,Git pull build tools) ;				\
	$(call tool_make_target_fn,pull-all) ;					\
	$(call build_msg_fn,Git pull packages for platform $(PLATFORM)) ;	\
	make PLATFORM=$(PLATFORM) $(patsubst %,%-pull-all,$(ROOT_PACKAGES))

.PHONY: %-diff
%-diff:									
	@$(BUILD_ENV) ;							\
	d=$(call find_source_fn,$(PACKAGE_SOURCE)) ;			\
	$(call build_msg_fn,Git diff $(PACKAGE)) ;			\
	if [ -d $${d}/.git ] ; then 					\
	 cd $${d} && $(GIT) --no-pager diff 2>/dev/null; 		\
        else								\
	 $(call build_msg_fn, $(PACKAGE) not a git directory) ;		\
	fi
            

# generate diffs for everything in source path
.PHONY: diff-all
diff-all:								
	@$(BUILD_ENV) ;							\
	$(call build_msg_fn,Generate diffs) ;				\
	for r in $(ABSOLUTE_SOURCE_PATH); do				\
	  for d in $${r}/* ; do						\
	    if [ -d $${d} ] ; then					\
	      $(call build_msg_fn,Git diff $${d}) ;			\
	      if [ -d $${d}/.git ] ; then				\
		cd $${d} && $(GIT) --no-pager diff 2>/dev/null;		\
	      else							\
		$(call build_msg_fn, $${d} not a git directory) ;	\
	      fi ;							\
	    fi ; 							\
	  done ;							\
	done

######################################################################
# System images
######################################################################

IMAGE_DIR = $(MU_BUILD_ROOT_DIR)/image-$(PLATFORM)

# Reports shared libraries in given directory
find_shared_libs_fn =				\
  find $(1)					\
    -maxdepth 1					\
       -regex '.*/lib[a-z0-9_]+\+?\+?.so'		\
    -o -regex '.*/lib[a-z0-9_]+-[0-9.]+\+?\+?.so'	\
    -o -regex '.*/lib[a-z0-9_]+\+?\+?.so.[0-9.]+'

# By default pick up files from binary directories and /etc.
# Also include shared libraries.
DEFAULT_IMAGE_INCLUDE =					\
  for d in bin sbin libexec				\
           usr/bin usr/sbin usr/libexec			\
           etc; do					\
    [[ -d $$d ]] && echo $$d;				\
  done ;						\
  [[ -d $(arch_lib_dir) ]]				\
    && $(call find_shared_libs_fn,$(arch_lib_dir))

# Define any shell functions needed by install scripts
image_install_functions =			\
  $(foreach p,$(ALL_PACKAGES),			\
    $(if $($(p)_image_install_functions),	\
	 $($(p)_image_install_functions)))

# Should always be over-written by temp dir in %-root-image rule
IMAGE_INSTALL_DIR = $(error you need to set IMAGE_INSTALL_DIR)

image_install_fn =								\
  @$(BUILD_ENV) ;								\
  $(call build_msg_fn,Image-install $(1) for platform $(PLATFORM)) ;		\
  inst_dir=$(IMAGE_INSTALL_DIR) ;						\
  mkdir -p $${inst_dir} ;							\
  cd $(2) ;									\
  : select files to include in image ;						\
  image_include_files="								\
    `$(call ifdef_fn,$(1)_image_include,$(DEFAULT_IMAGE_INCLUDE)) ;		\
     echo "" ;									\
     exit 0 ; `";								\
  : select files regexps to exclude from image ;				\
  image_exclude_files="" ;							\
  if [ ! -z "$($(1)_image_exclude)" ] ; then					\
    image_exclude_files="${image_exclude_files}					\
                         $(patsubst %,--exclude=%,$($(1)_image_exclude))" ;	\
  fi ;										\
  [[ -z "$${image_include_files}" || $${image_include_files} == " " ]]		\
    || tar cf - $${image_include_files} $${image_exclude_files}			\
       | tar xf - -C $${inst_dir} ;						\
  : copy files from copyimg directories on source path if present ;		\
  for build_data_dir in $(SOURCE_PATH_BUILD_DATA_DIRS) ; do			\
    d="$${build_data_dir}/packages/$(1).copyimg" ;				\
    if [ -d "$${d}" ] ; then							\
      env $($(PLATFORM)_copyimg_env)						\
	$(MU_BUILD_ROOT_DIR)/copyimg $${d} $${inst_dir} ;			\
    fi ;									\
  done ;									\
  : run package dependent install script ;					\
  $(if $($(1)_image_install),							\
       $(image_install_functions)						\
       cd $${inst_dir} ;							\
       $($(1)_image_install))

.PHONY: %-image_install
%-image_install: %-install
	$(call image_install_fn,$(PACKAGE),$(PACKAGE_INSTALL_DIR))

basic_system_image_include =					\
  $(call ifdef_fn,$(PLATFORM)_basic_system_image_include, 	\
  echo bin/ldd ;						\
  echo $(arch_lib_dir)/ld*.so* ;				\
  $(call find_shared_libs_fn, $(arch_lib_dir)))

basic_system_image_install =				\
  mkdir -p bin lib mnt proc root sbin sys tmp etc ;	\
  mkdir -p usr usr/{bin,sbin} usr/lib ;			\
  mkdir -p var var/{lib,lock,log,run,tmp} ;		\
  mkdir -p var/lock/subsys var/lib/urandom 

.PHONY: basic_system-image_install
basic_system-image_install: # linuxrc-install
	$(if $(not_native),							\
	     $(call image_install_fn,basic_system,$(TARGET_TOOL_INSTALL_DIR)),)

ROOT_PACKAGES = $(if $($(PLATFORM)_root_packages),$($(PLATFORM)_root_packages),$(default_root_packages))

.PHONY: install-packages
install-packages: $(patsubst %,%-find-source,$(ROOT_PACKAGES))	
	@$(BUILD_ENV) ;							        \
	set -eu$(BUILD_DEBUG) ;							\
	d=$(MU_BUILD_ROOT_DIR)/packages-$(PLATFORM) ;				\
	rm -rf $${d} ;								\
	mkdir -p $${d};								\
	$(MAKE) -C $(MU_BUILD_ROOT_DIR) IMAGE_INSTALL_DIR=$${d}			\
	    $(patsubst %,%-image_install,					\
	      basic_system							\
	      $(ROOT_PACKAGES))	|| exit 1;					\
	$(call build_msg_fn, Relocating ELF executables to run in $${d}) ;	\
	find $${d} -type f							\
	    -exec elftool quiet in '{}' out '{}'				\
		set-interpreter							\
		    $${d}/$(arch_lib_dir)/$(DYNAMIC_LINKER)			\
		set-rpath $${d}/$(arch_lib_dir):$${d}/lib ';' ;			\
	: strip symbols from files ;						\
	if [ $${strip_symbols:-no} = 'yes' ] ; then				\
	    $(call build_msg_fn, Stripping symbols from files) ;		\
	    find $${d} -type f							\
		-exec								\
		  $(TARGET_PREFIX)strip						\
		    --strip-unneeded '{}' ';'					\
		    >& /dev/null ;						\
	else									\
	    $(call build_msg_fn, NOT stripping symbols) ;			\
	fi 

# readonly root squashfs image
# Note: $(call build_msg_fn) does not seem to work inside of fakeroot so we use echo
.PHONY: ro-image
$(PLATFORM_IMAGE_DIR)/ro.img ro-image: $(patsubst %,%-find-source,$(ROOT_PACKAGES))
	@$(BUILD_ENV) ;							\
	d=$(PLATFORM_IMAGE_DIR) ;					\
	mkdir -p $$d;							\
	ro_image=$$d/ro.img ;						\
	rm -f $${ro_image} ;						\
	tmp_dir="`mktemp -d $$d/ro-image-XXXXXX`" ;			\
	chmod 0755 $${tmp_dir} ;					\
	cd $${tmp_dir} ;						\
	trap "rm -rf $${tmp_dir}" err ;					\
	fakeroot /bin/bash -c "{					\
	  set -eu$(BUILD_DEBUG) ;					\
	  $(MAKE) -C $(MU_BUILD_ROOT_DIR) IMAGE_INSTALL_DIR=$${tmp_dir}	\
	    $(patsubst %,%-image_install,				\
	      basic_system						\
	      $(ROOT_PACKAGES)) ;					\
	  : make dev directory ;					\
	  $(linuxrc_makedev) ;						\
	  echo @@@@ Relocating ELF executables to run in / @@@@ ;	\
	  find $${d} -type f						\
	      -exec elftool quiet in '{}' out '{}'			\
		set-interpreter						\
		    /$(arch_lib_dir)/$(DYNAMIC_LINKER)			\
	        set-rpath /$(arch_lib_dir):/lib ';' ;			\
	  : strip symbols from files ;					\
	  if [ '$${strip_symbols:-yes}' = 'yes' ] ; then		\
	      echo @@@@ Stripping symbols from files @@@@ ;		\
	      find $${tmp_dir} -type f					\
		-exec							\
		  $(TARGET_PREFIX)strip					\
		    --strip-unneeded '{}' ';'				\
		    >& /dev/null ;					\
	  else								\
	      echo @@@@ NOT stripping symbols @@@@ ;			\
	  fi ;								\
	  if [ $${sign_executables:-yes} = 'yes'			\
	       -a -n "$($(PLATFORM)_public_key)" ] ; then		\
	      echo @@@@ Signing executables @@@@ ;			\
	      find $${tmp_dir} -type f					\
		| xargs sign $($(PLATFORM)_public_key)			\
			     $($(PLATFORM)_private_key_passphrase) ;	\
	  fi ;								\
	  : make read-only file system ;				\
	  mksquashfs							\
	    $${tmp_dir} $${ro_image}					\
	    -no-exports -no-progress -no-recovery ;			\
	}" ;								\
	: cleanup tmp directory ;					\
	rm -rf $${tmp_dir}

MKFS_JFFS2_BYTE_ORDER_x86_64 = -l
MKFS_JFFS2_BYTE_ORDER_i686 = -l
MKFS_JFFS2_BYTE_ORDER_ppc = -b
MKFS_JFFS2_BYTE_ORDER_mips = -b
MKFS_JFFS2_BYTE_ORDER_native = $(MKFS_JFFS2_BYTE_ORDER_$(NATIVE_ARCH))

MKFS_JFFS2_SECTOR_SIZE_IN_KBYTES = \
  $(call ifdef_fn,$(PLATFORM)_jffs2_sector_size_in_kbytes,256)

mkfs_fn_jffs2 = mkfs.jffs2				\
  --eraseblock=$(MKFS_JFFS2_SECTOR_SIZE_IN_KBYTES)KiB	\
  --root=$(1) --output=$(2)				\
  $(MKFS_JFFS2_BYTE_ORDER_$(BASIC_ARCH))

# As things stand the actual initrd size parameter
# is set in .../open-repo/build-data/packages/linuxrc.mk.
EXT2_RW_IMAGE_SIZE=notused

mkfs_fn_ext2 = \
  e2fsimage -d $(1) -f $(2) -s $(EXT2_RW_IMAGE_SIZE)

RW_IMAGE_TYPE=jffs2

make_rw_image_fn = \
  $(call mkfs_fn_$(RW_IMAGE_TYPE),$(1),$(2))

rw_image_embed_ro_image_fn =					\
  mkdir -p proc initrd images ro rw union ;			\
  cp $(PLATFORM_IMAGE_DIR)/$(1) images/$(1) ;			\
  md5sum images/$(1) > images/$(1).md5 ;			\
  echo Built by $(LOGNAME) at `date` > images/$(1).stamp ;	\
  mkdir -p changes/$(1)

# make sure RW_IMAGE_TYPE is a type we know how to build
.PHONY: rw-image-check-type
rw-image-check-type:
	@$(BUILD_ENV) ;								\
	if [ -z "$(make_rw_image_fn)" ] ; then					\
	  $(call build_msg_fn,Unknown read/write fs image type;			\
		              try RW_IMAGE_TYPE=ext2 or RW_IMAGE_TYPE=jffs2) ;	\
	  exit 1;								\
	fi

# read write image
.PHONY: rw-image
rw-image: rw-image-check-type ro-image
	@$(BUILD_ENV) ;						\
	d=$(PLATFORM_IMAGE_DIR) ;				\
	mkdir -p $$d ;						\
	rw_image="$$d/rw.$(RW_IMAGE_TYPE)" ;			\
	ro_image="ro.img" ;					\
	rm -f $$rw_image ;					\
	tmp_dir="`mktemp -d $$d/rw-image-XXXXXX`" ;		\
	chmod 0755 $${tmp_dir} ;				\
	cd $${tmp_dir} ;					\
	trap "rm -rf $${tmp_dir}" err ;				\
	fakeroot /bin/bash -c "{				\
	  set -eu$(BUILD_DEBUG) ;				\
	  $(linuxrc_makedev) ;					\
	  $(call rw_image_embed_ro_image_fn,$${ro_image}) ;	\
	  $(call make_rw_image_fn,$${tmp_dir},$${rw_image}) ;	\
	}" ;							\
	: cleanup tmp directory ;				\
	rm -rf $${tmp_dir}

images: linuxrc-install linux-install $(image_extra_dependencies) rw-image
	@$(BUILD_ENV) ;						\
	d=$(PLATFORM_IMAGE_DIR) ;				\
	cd $(BUILD_DIR)/linux-$(PLATFORM) ;			\
	i="" ;							\
	[[ -z $$i && -f bzImage ]] && i=bzImage ;		\
	[[ -z $$i && -f zImage ]] && i=zImage ;			\
	[[ -z $$i && -f linux ]] && i=linux ;			\
	[[ -z $$i && -f vmlinux ]] && i=vmlinux ;		\
	[[ -z $$i ]]						\
	  && $(call build_msg_fn,no linux image to install	\
		in $(BUILD_DIR)/linux-$(PLATFORM))		\
	  && exit 1 ;						\
	cp $$i $$d

######################################################################
# Tool chain build/install
######################################################################

.PHONY: ccache-install
ccache-install:
	$(MAKE) -C $(MU_BUILD_ROOT_DIR)	ccache-build
	mkdir -p $(TOOL_INSTALL_DIR)/ccache-bin
	ln -sf $(MU_BUILD_ROOT_DIR)/build-tool-native/ccache/ccache \
		$(TOOL_INSTALL_DIR)/ccache-bin/$(TARGET_PREFIX)gcc 

TOOL_MAKE = $(MAKE) is_build_tool=yes

tool_make_target_fn = 							\
  $(if $(strip $(NATIVE_TOOLS)),					\
    $(TOOL_MAKE) $(patsubst %,%-$(1),$(NATIVE_TOOLS)) ARCH=native || exit 1 ;) \
  $(TOOL_MAKE) $(patsubst %,%-$(1),$(CROSS_TOOLS))

.PHONY: install-tools
install-tools:
	$(call tool_make_target_fn,install)

.PHONY: bootstrap-tools
bootstrap-tools:
	$(TOOL_MAKE) make-install findutils-install git-install \
	automake-install autoconf-install libtool-install fakeroot-install


######################################################################
# Clean
######################################################################

package_clean_script =							\
  @$(call build_msg_fn, Cleaning $* in $(PACKAGE_INSTALL_DIR)) ;	\
  $(BUILD_ENV) ;							\
  $(if $(is_build_tool),,rm -rf $(PACKAGE_INSTALL_DIR) ;)		\
  rm -rf $(TIMESTAMP_DIR)/$(call timestamp_name_fn,*) ;			\
  $(if $($(PACKAGE)_clean),						\
    $($(PACKAGE)_clean),						\
    $(PACKAGE_MAKE) clean)

.PHONY: %-clean
%-clean:
	$(package_clean_script)

# Wipe e.g. remove build and install directories for packages.
package_wipe_script =											\
  @message=$(if $(is_build_tool),"Wiping build $(PACKAGE)","Wiping build/install $(PACKAGE)") ;		\
  $(call build_msg_fn,$$message) ;									\
  $(BUILD_ENV) ;											\
  rm -rf $(if $(is_build_tool),$(PACKAGE_BUILD_DIR),$(PACKAGE_INSTALL_DIR) $(PACKAGE_BUILD_DIR))

.PHONY: %-wipe
%-wipe:
	$(package_wipe_script)

# Wipe entire build/install area for TAG and PLATFORM
.PHONY: wipe-all
wipe-all:
	@$(call build_msg_fn, Wiping $(BUILD_DIR) $(INSTALL_DIR)) ;	\
	$(BUILD_ENV) ;							\
	rm -rf $(BUILD_DIR) $(INSTALL_DIR)

# Clean everything
distclean:
	rm -rf $(MU_BUILD_ROOT_DIR)/$(BUILD_PREFIX_package)*/
	rm -rf $(MU_BUILD_ROOT_DIR)/$(BUILD_PREFIX_tool)*
	rm -rf $(MU_BUILD_ROOT_DIR)/$(INSTALL_PREFIX)*
	rm -rf $(MU_BUILD_ROOT_DIR)/$(IMAGES_PREFIX)*
	rm -rf $(TOOL_INSTALL_DIR)
	rm -rf $(MU_BUILD_ROOT_DIR)/*.deb
	rm -rf $(MU_BUILD_ROOT_DIR)/*.rpm
	rm -rf $(MU_BUILD_ROOT_DIR)/*.changes
	if [ -e /usr/bin/dh ];then (cd $(MU_BUILD_ROOT_DIR)/deb/;debian/rules clean); fi
	rm -f $(MU_BUILD_ROOT_DIR)/deb/debian/*.install
	rm -f $(MU_BUILD_ROOT_DIR)/deb/debian/*.dkms
	rm -f $(MU_BUILD_ROOT_DIR)/deb/debian/changelog