board/chromebook/mksd.sh - buildroot - Git at Google

 #!/bin/sh

 # This scripts makes a minimal bootable SD card image for the Chromebook.
 # The resulting file is called bootsd.img. It should be written directly
 # to the card:
 #
 #	SD=/dev/mmcblk1		# check your device name!
 #	dd if=output/images/bootsd.img of=$SD
 #
 # The partitions are created just large enough to hold the kernel and
 # the rootfs image. Most of the card will be empty, and the secondary
 # GPT will not be in its proper location.

 # cgpt does not create protective MBR, and the kernel refuses to read
 # GPT unless there's some kind of MBR in sector 0. So we need parted
 # to write that single sector before doing anything with the GPT.
 cgpt=$HOST_DIR/bin/cgpt
 parted=$HOST_DIR/sbin/parted
 kernel=$BINARIES_DIR/uImage.kpart
 rootfs=$BINARIES_DIR/rootfs.ext2

 run() { echo "$@"; "$@"; }
 die() { echo "$@" >&2; exit 1; }
 test -f $kernel || die "No kernel image found"
 test -f $rootfs || die "No rootfs image found"
 test -x $cgpt || die "cgpt not found (host-vboot-utils have not been built?)"

 # True file sizes in bytes
 kernelsize=`stat -t $kernel | cut -d\  -f2`
 rootfssize=`stat -t $rootfs | cut -d\  -f2`

 # The card is partitioned in sectors of 8KB.
 # 4 sectors are reserved for MBR+GPT. Their actual size turns out
 # to be 33 512-blocks which is just over 2 sectors, but we align
 # it to a nice round number.
 sec=8192
 kernelsec=$(((kernelsize+8191)>>13))
 rootfssec=$(((rootfssize+8191)>>13))
 headersec=4

 # There is also a copy of MBR+GPT at the end of the image.
 # It's going to be useless but both tools assume it's there.
 imagesec=$((2*headersec+kernelsec+rootfssec))
 bootsd="$BINARIES_DIR/bootsd.img"
 run dd bs=$sec count=$imagesec if=/dev/zero of=$bootsd

 # cgpt needs offsets and sizes in 512-blocks.
 block=512
 kernelstart=$((headersec<<4))
 kernelblocks=$((kernelsec<<4))
 rootfsblocks=$((rootfssec<<4))
 rootfsstart=$((kernelstart+kernelblocks))

 # This command initializes both GPT and MBR
 run $parted -s $bootsd mklabel gpt

 # The kernel partition must be marked as bootable, that's why -S -T -P
 run $cgpt add -i 1 -b $kernelstart -s $kernelblocks \
 	-t kernel -l kernel \
 	-S 1 -T 1 -P 10 $bootsd

 # It does not really matter where the rootfs partition is located as long
 # as the kernel can find it.
 # However, if anything is changed here, kernel.args must be updated as well.
 run $cgpt add -i 2 -b $rootfsstart -s $rootfsblocks \
 	-t data -l rootfs $bootsd

 run dd bs=$block if=$kernel of=$bootsd seek=$kernelstart
 run dd bs=$block if=$rootfs of=$bootsd seek=$rootfsstart
	#!/bin/sh

	# This scripts makes a minimal bootable SD card image for the Chromebook.
	# The resulting file is called bootsd.img. It should be written directly
	# to the card:
	#
	# SD=/dev/mmcblk1 # check your device name!
	# dd if=output/images/bootsd.img of=$SD
	#
	# The partitions are created just large enough to hold the kernel and
	# the rootfs image. Most of the card will be empty, and the secondary
	# GPT will not be in its proper location.

	# cgpt does not create protective MBR, and the kernel refuses to read
	# GPT unless there's some kind of MBR in sector 0. So we need parted
	# to write that single sector before doing anything with the GPT.
	cgpt=$HOST_DIR/bin/cgpt
	parted=$HOST_DIR/sbin/parted
	kernel=$BINARIES_DIR/uImage.kpart
	rootfs=$BINARIES_DIR/rootfs.ext2

	run() { echo "$@"; "$@"; }
	die() { echo "$@" >&2; exit 1; }
	test -f $kernel \|\| die "No kernel image found"
	test -f $rootfs \|\| die "No rootfs image found"
	test -x $cgpt \|\| die "cgpt not found (host-vboot-utils have not been built?)"

	# True file sizes in bytes
	kernelsize=`stat -t $kernel \| cut -d\ -f2`
	rootfssize=`stat -t $rootfs \| cut -d\ -f2`

	# The card is partitioned in sectors of 8KB.
	# 4 sectors are reserved for MBR+GPT. Their actual size turns out
	# to be 33 512-blocks which is just over 2 sectors, but we align
	# it to a nice round number.
	sec=8192
	kernelsec=$(((kernelsize+8191)>>13))
	rootfssec=$(((rootfssize+8191)>>13))
	headersec=4

	# There is also a copy of MBR+GPT at the end of the image.
	# It's going to be useless but both tools assume it's there.
	imagesec=$((2*headersec+kernelsec+rootfssec))
	bootsd="$BINARIES_DIR/bootsd.img"
	run dd bs=$sec count=$imagesec if=/dev/zero of=$bootsd

	# cgpt needs offsets and sizes in 512-blocks.
	block=512
	kernelstart=$((headersec<<4))
	kernelblocks=$((kernelsec<<4))
	rootfsblocks=$((rootfssec<<4))
	rootfsstart=$((kernelstart+kernelblocks))

	# This command initializes both GPT and MBR
	run $parted -s $bootsd mklabel gpt

	# The kernel partition must be marked as bootable, that's why -S -T -P
	run $cgpt add -i 1 -b $kernelstart -s $kernelblocks \
	-t kernel -l kernel \
	-S 1 -T 1 -P 10 $bootsd

	# It does not really matter where the rootfs partition is located as long
	# as the kernel can find it.
	# However, if anything is changed here, kernel.args must be updated as well.
	run $cgpt add -i 2 -b $rootfsstart -s $rootfsblocks \
	-t data -l rootfs $bootsd

	run dd bs=$block if=$kernel of=$bootsd seek=$kernelstart
	run dd bs=$block if=$rootfs of=$bootsd seek=$rootfsstart