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# ixp4xx-kernel.inc
#
# Standard definitions for any IXP4xx Linux kernel.
# Include this file in a .bb which specifies, at least,
# PN,PV,PR for the desired kernel
#
# Define the following *before* including this file as
# required:
#
# IXP4XX_PATCHES - full list of patches to apply, to add files
# generate a patch against /dev/null
#
# DEFAULT_PREFERENCE is set automagically in this file as
# follows:
#
# 10 For *released* kernels
# 8 For mm or ac patched versions of released kernels
# 6 For rc patched kernels (release candidates)
# 4 For mm or ac patched rc (release candidate) kernels
# 2 For pre or bk versions
# 0 For mm or ac patched pre or bk versions
#
# --------------------------------------------------------------
#
SECTION = "kernel"
DESCRIPTION = "Linux kernel for the Intel IXP4xx device"
LICENSE = "GPL"
DEPENDS = "arm-kernel-shim devio-native"
# Linux kernel source has the general form linux-X.Y.Z-patchP,
# X.Y is the major version number, Z (which may have multiple
# parts) is a sub-version and 'patch' is something like 'mm' or
# 'ac' with a patch version. The original bz2 archive will be
# in a directory/file vX.Y/linux-X.Y.Z.tar.bz2. The unpacked
# source will be in the directory linux-X.Y.Z and this directory
# name corresponds to the module directory (in /lib/modules).
#
# The corresponding .bb file should be called:
#
# package_X.Y.Z-patchP
#
# Giving PN=package PV=X.Y.Z-patchP (and PR is set in the .bb
# file). Files, including the all important defconfig, are
# searched for in the following directories (last one first):
#
# ixp4xx-kernel/files
# ixp4xx-kernel/X.Y
# ixp4xx-kernel/X.Y.Z
# ixp4xx-kernel/X.Y.Z-patch
# ixp4xx-kernel/X.Y.Z-patchP
# package-X.Y.Z-patchP
#
# This allows sharing of patch files and other useful source!
# To share a file or patch with an earlier version put it in
# the shared directory - e.g. to use foo.patch on 2.6.11.2 and
# 2.6.11.4 it should be in directory ixp4xx-kernel/2.6.11.
#
# Note that when there are multiple patches the X.Y.Z-patch form
# uses base-patch (e.g. 2.6.12-mm) whereas X.Y.Z-patchP has the
# full form, for example 2.6.12-rc3-mm1 (in the same case).
#PN=package-name
#PV=package-version (full)
# The patch has the general form (rcN|preN|acN|mmN|bkN)* with the
# separate patch items being separated by '-' characters. The
# rc patch is first and has the important property that it
# requires the *preceding* kernel base version and that this
# will be the source directory name.
python () {
# The patches list may be empty. This code starts with the base
# kernel version and steps through the patches. Because the rc and
# pre patches actually require the *preceding* kernel version the code
# fixes that up appropriately.
pv = bb.data.getVar("PV",d,1).split('-')
if pv[0].count('+'):
prev = pv[0].split('+')
pv[0] = prev[1];
kernel = pv[0].split('.')
base = pv[0]
name = [base]
major = '.'.join(name[0].split('.')[0:2])
minor = '.'.join(name[0].split('.')[0:3])
patch_uri = [ None ]
filedir = "${FILE_DIRNAME}/ixp4xx-kernel/%s"
# This entry will become the last one (everything is inserted before it)
filepath = [ filedir % "files" ]
pref = 10
mmac = 0
for patch in pv[1:]:
name.append(patch)
pname = '-'.join(name)
if patch[0:2] == "rc" or patch[0:3] == "pre":
patch_uri.append("${KERNELORG_MIRROR}/pub/linux/kernel/v%s/testing/patch-%s.bz2;patch=1;pname=%s" % (major, pname, pname))
kernel[-1] = str(int(kernel[-1]) - 1)
if patch[0:2] == "rc" and pref == 10:
pref = 6
filepath[0:0] = [ filedir % name[0] ]
filepath[0:0] = [ filedir % (name[0] + "-rc") ]
else:
pref = 2
elif patch[0:2] == "bk" or patch[0:3] == "git":
patch_uri.append("${KERNELORG_MIRROR}/pub/linux/kernel/v%s/snapshots/patch-%s.bz2;patch=1;pname=%s" % (major, pname, pname))
pref = 2
elif patch[0:2] == "ac":
patch_uri.append("${KERNELORG_MIRROR}/pub/linux/kernel/people/alan/linux-%s/%s/patch-%s" % (major, base, pname))
mmac = 2
filepath[0:0] = [ filedir % (name[0] + "-ac") ]
elif patch[0:2] == "mm":
patch_uri.append("${KERNELORG_MIRROR}/pub/linux/kernel/people/akpm/patches/%s/%s/%s/%s.bz2;patch=1;pname=%s" % (major, base, pname, pname, pname))
mmac = 2
filepath[0:0] = [ filedir % (name[0] + "-mm") ]
else:
raise bb.build.FuncFailed("ixp4xx-kernel: patch %s not recognized in %s" % (patch, '-'.join(pv)))
filepath[0:0] = [ filedir % pname ]
base = pname
base = '.'.join(kernel)
patch_uri[0] = "${KERNELORG_MIRROR}/pub/linux/kernel/v%s/linux-%s.tar.bz2" % (major, base)
filepath[-1:-1] = [ filedir % base ]
if base != minor:
filepath[-1:-1] = [ filedir % minor ]
filepath[-1:-1] = [ filedir % major ]
bb.data.setVar("IXP4XX_SRCMAJ", major, d)
# bb.note("IXP4XX_SRCMAJ := %s" % major)
bb.data.setVar("IXP4XX_SRCVER", base, d)
# bb.note("IXP4XX_SRCVER := %s" % base)
bb.data.setVar("IXP4XX_SRCURI", ' '.join(patch_uri), d)
# bb.note("IXP4XX_SRCURI := %s" % ' '.join(patch_uri))
bb.data.setVar("IXP4XX_FILESPATH", ':'.join(filepath), d)
# bb.note("IXP4XX_FILESPATH := %s" % ' '.join(filepath))
bb.data.setVar("DEFAULT_PREFERENCE", pref-mmac, d)
# bb.note("DEFAULT_PREFERENCE := %s" % (pref-mmac))
}
# FILESPATH: this list is in order last-searched-first, therefore
# the first entry is the *latest* and/or most specific
FILESPATH = "${FILE_DIRNAME}/${P}:${IXP4XX_FILESPATH}"
# The working directory will be the 'base' version (which may not be the
# same as implied by the PV variable because it corresponds to the prior
# minor version for rc and pre patched versions).
S = "${WORKDIR}/linux-${IXP4XX_SRCVER}"
# IXP4XX_PATCHES is the list of patches.
IXP4XX_PATCHES ?= ""
SRC_URI = "${IXP4XX_SRCURI}"
SRC_URI += "${IXP4XX_PATCHES}"
COMPATIBLE_HOST = 'arm.*-linux.*'
COMPATIBLE_MACHINE = '(ixp4xx|nslu2|fsg3)'
inherit kernel
ARCH = "arm"
# To specify the console set KERNEL_CONSOLE in the .bb file.
# CMDLINE_ROOT contains the boot options, these will be
# appended to the build in boot options (so it is only necessary
# to override stuff in the kernel source).
# CMDLINE_ROOT: machine specific boot options - should not be set on a
# generic kernel!
CMDLINE_ROOT ?= ""
# CMDLINE_DEBUG: debug options such as noirqdebug, defaults to empty
# override in local.conf etc
CMDLINE_DEBUG ?= ""
CMDLINE = "${CMDLINE_ROOT}"
CMDLINE += "${CMDLINE_DEBUG}"
CMDLINE += "${CMDLINE_CONSOLE}"
# Set EXTRAVERSION and LOCALVERSION to "" so that the kernel version
# remains pinned to the x.y.z form, also turn off the directory
# printing which provides almost all the output of an incremental build.
EXTRA_OEMAKE += "EXTRAVERSION="
EXTRA_OEMAKE += "LOCALVERSION="
EXTRA_OEMAKE += "MAKEFLAGS='--no-print-directory'"
# Set the correct CONFIG_CPU_xxx_ENDIAN and CONFIG_CMDLINE at the head
# of the .config file and remove any settings in defconfig then append
# defconfig to .config
do_configure_prepend() {
rm -f ${S}/.config
echo "CONFIG_CMDLINE=\"${CMDLINE}\"" >>'${S}/.config'
if test '${SITEINFO_ENDIANESS}' = be
then
echo 'CONFIG_CPU_BIG_ENDIAN=y' >>'${S}/.config'
fi
if [ "${TARGET_OS}" == "linux-gnueabi" -o "${TARGET_OS}" == "linux-uclibcgnueabi" ]; then
echo "CONFIG_AEABI=y" >> ${S}/.config
echo "CONFIG_OABI_COMPAT=y" >> ${S}/.config
else
echo "# CONFIG_AEABI is not set" >> ${S}/.config
echo "# CONFIG_OABI_COMPAT is not set" >> ${S}/.config
fi
sed -e '/CONFIG_CPU_BIG_ENDIAN/d' \
-e '/CONFIG_CMDLINE=/d' \
-e '/CONFIG_AEABI/d' \
-e '/CONFIG_OABI_COMPAT=/d' \
'${WORKDIR}/defconfig' >>'${S}/.config'
rm -rf ${S}/include/asm-arm/arch ${S}/include/asm-arm/proc \
${S}/include/asm-arm/.proc ${S}/include/asm-arm/.arch
}
# Kernel module dependencies
DEPENDS += "zd1211-firmware"
RDEPENDS_kernel-module-zd1211rw += "zd1211-firmware"
# MACHID and LE handling
#
# This mach_fixup function adds the required prefix to the image to
# force the machine id in the kernel to be a particular value. For
# LE builds it also forces the CPU into LE mode - this is actually
# harmless even if the CPU is already in LE mode. This deals with
# two known problems on some boards:
#
# 1) The machine type set by the boot loader is wrong - e.g. the type
# for an ixdp425, not the actual board type. Prefix the code with
# two instructions:
# e3a01c<hh> e38110<ll>
# Where the machine ID is 0xhhll
# 2) For LE kernels it is necessary to prefix change-to-le code to
# the kernel image if the boot loader runs with the CPU in BE
# (which is normal for IXP4XX boards):
# ee110f10 e3c00080 ee010f10
# and to byte swap the (LE) image to match the BE flash layout
#
# (2) is not required with an LE boot loader (neither the prefix
# nor the byte swapping) so this is controlled by a separate flag,
# however if the boot loader is LE it expects and LE image so the
# instructions written for the machine id must be LE.
#
# The argument to the function is the destination directory
# The generic package only includes the generic image, the other
# packages are made below (they are kernel-image packages but
# with a different ARCH).
FILES_kernel-image = "/boot/${KERNEL_IMAGETYPE}-${MACHINE_ARCH}-${KERNEL_VERSION}"
# MACHINE DEFINITIONS: one block for each machine
# The correct settings for the NSLU2 board:
nslu2_MACHID = "597"
PACKAGES += "kernel-image-nslu2"
PKG_kernel-image-nslu2 = "kernel-image-${KERNEL_VERSION}"
PACKAGE_ARCH_kernel-image-nslu2 = "nslu2${SITEINFO_ENDIANESS}"
DESCRIPTION_kernel-image-nslu2 = "Linux kernel for the LinkSys NSLU2"
FILES_kernel-image-nslu2 = "/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nslu2${SITEINFO_ENDIANESS}-${KERNEL_VERSION}"
pkg_postinst_kernel-image-nslu2 () {
update-alternatives --install /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE} ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nslu2${SITEINFO_ENDIANESS}-${KERNEL_VERSION} ${KERNEL_PRIORITY} || true
}
pkg_postrm_kernel-image-nslu2 () {
update-alternatives --remove ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nslu2${SITEINFO_ENDIANESS}-${KERNEL_VERSION} || true
}
# The correct settings for the NAS100D board:
nas100d_MACHID = "865"
PACKAGES += "kernel-image-nas100d"
PKG_kernel-image-nas100d = "kernel-image-${KERNEL_VERSION}"
PACKAGE_ARCH_kernel-image-nas100d = "nas100d${SITEINFO_ENDIANESS}"
DESCRIPTION_kernel-image-nas100d = "Linux kernel for the IOMega NAS100D"
FILES_kernel-image-nas100d = "/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nas100d${SITEINFO_ENDIANESS}-${KERNEL_VERSION}"
pkg_postinst_kernel-image-nas100d () {
update-alternatives --install /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE} ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nas100d${SITEINFO_ENDIANESS}-${KERNEL_VERSION} ${KERNEL_PRIORITY} || true
}
pkg_postrm_kernel-image-nas100d () {
update-alternatives --remove ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-nas100d${SITEINFO_ENDIANESS}-${KERNEL_VERSION} || true
}
# The correct settings for the DSMG600 board:
dsmg600_MACHID = "964"
PACKAGES += "kernel-image-dsmg600"
PKG_kernel-image-dsmg600 = "kernel-image-${KERNEL_VERSION}"
PACKAGE_ARCH_kernel-image-dsmg600 = "dsmg600${SITEINFO_ENDIANESS}"
DESCRIPTION_kernel-image-dsmg600 = "Linux kernel for the D-Link DSM-G600"
FILES_kernel-image-dsmg600 = "/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-dsmg600${SITEINFO_ENDIANESS}-${KERNEL_VERSION}"
pkg_postinst_kernel-image-dsmg600 () {
update-alternatives --install /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE} ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-dsmg600${SITEINFO_ENDIANESS}-${KERNEL_VERSION} ${KERNEL_PRIORITY} || true
}
pkg_postrm_kernel-image-dsmg600 () {
update-alternatives --remove ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-dsmg600${SITEINFO_ENDIANESS}-${KERNEL_VERSION} || true
}
# The correct settings for the FSG-3 board:
fsg3_MACHID = "1091"
PACKAGES += "kernel-image-fsg3"
PKG_kernel-image-fsg3 = "kernel-image-${KERNEL_VERSION}"
PACKAGE_ARCH_kernel-image-fsg3 = "fsg3${SITEINFO_ENDIANESS}"
DESCRIPTION_kernel-image-fsg3 = "Linux kernel for the Freecom FSG-3"
FILES_kernel-image-fsg3 = "/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-fsg3${SITEINFO_ENDIANESS}-${KERNEL_VERSION}"
pkg_postinst_kernel-image-fsg3 () {
update-alternatives --install /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE} ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-fsg3${SITEINFO_ENDIANESS}-${KERNEL_VERSION} ${KERNEL_PRIORITY} || true
}
pkg_postrm_kernel-image-fsg3 () {
update-alternatives --remove ${KERNEL_IMAGETYPE} /${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-fsg3${SITEINFO_ENDIANESS}-${KERNEL_VERSION} || true
}
BYTESWAP_armeb = "cp$"
BYTESWAP_arm = "xp $,4"
# We need the alternatives to happen in the kernel-image packages, not in
# the kernel package, because only the images know the name of the kernel.
pkg_postinst_kernel () {
}
pkg_postrm_kernel () {
}
# copy_image <dest> <machine>
# copy the zImage and append the appropriate shim
# dest: where to copy to
# machine: machine shim to prepend, empty for none
copy_image() {
local shim
shim="/dev/null"
test -n "$2" && shim="${STAGING_LOADER_DIR}/arm-kernel-shim-$2.bin"
rm -f "$1".new "$1".shimmed
cat $shim ${KERNEL_OUTPUT} > "$1".shimmed
devio '<<'"$1"'.shimmed' >"$1".new '${BYTESWAP}' || {
echo 'ERROR: ${KERNEL_OUTPUT}: failed to copy zImage' >&2
return 1
}
rm -f "$1".shimmed
mv "$1".new "$1"
}
install_image() {
copy_image '${D}/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-'"$1"'-${KERNEL_VERSION}' "$2"
}
do_install_append() {
# Overwrite the unshimmed generic image with a shimmed one (but without
# any command line or machine id override).
rm -f '${D}/${KERNEL_IMAGEDEST}/${KERNEL_IMAGETYPE}-${KERNEL_VERSION}'
install_image '${MACHINE_ARCH}'
# Add the machine specific images, with appropriate suffixes
install_image 'nslu2${SITEINFO_ENDIANESS}' 'nslu2'
install_image 'nas100d${SITEINFO_ENDIANESS}' 'nas100d'
install_image 'dsmg600${SITEINFO_ENDIANESS}' 'dsmg600'
install_image 'fsg3${SITEINFO_ENDIANESS}' 'fsg3'
}
do_deploy[dirs] = "${S}"
deploy_image() {
copy_image '${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE}-'"$1" "$2"
}
do_deploy() {
install -d ${DEPLOY_DIR_IMAGE}
deploy_image '${MACHINE_ARCH}'
# And the machine specific images
deploy_image 'nslu2${SITEINFO_ENDIANESS}' 'nslu2'
deploy_image 'nas100d${SITEINFO_ENDIANESS}' 'nas100d'
deploy_image 'dsmg600${SITEINFO_ENDIANESS}' 'dsmg600'
deploy_image 'fsg3${SITEINFO_ENDIANESS}' 'fsg3'
}
addtask deploy before do_package after do_install
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