util/flashprog_partial_write_test.sh - flashprog - Gitiles

 #!/bin/sh
 #
 # Copyright (C) 2010 Google Inc.
 # Written by David Hendricks for Google Inc.
 #
 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 2 of the License, or
 # (at your option) any later version.
 #
 # This program 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 for more details.
 #
 # This script attempts to test Flashprog partial write capability by writing
 # patterns of 0xff and 0x00 bytes to the lowest 128kB of flash. 128kB is chosen
 # since 64kB is usually the largest possible block size, so we will try to
 # cover at least two blocks with this test.

 EXIT_SUCCESS=0
 EXIT_FAILURE=1

 # The copy of flashprog to test. If unset, we'll assume the user wants to test
 # a newly built flashprog binary in the parent directory (this script should
 # reside in flashprog/util).
 if [ -z "$FLASHPROG" ] ; then
 	FLASHPROG="../flashprog"
 fi
 echo "testing flashprog binary: ${FLASHPROG}"

 OLDDIR=$(pwd)

 # test data location
 TMPDIR=$(mktemp -d -t flashprog_test.XXXXXXXXXX)
 if [ "$?" != "0" ] ; then
 	echo "Could not create temporary directory"
 	exit $EXIT_FAILURE
 fi

 ZERO_4K="00_4k.bin"
 FF_4K="ff_4k.bin"
 FF_4K_TEXT="ff_4k.txt"

 TESTFILE="test.bin"

 which uuencode > /dev/null
 if [ "$?" != "0" ] ; then
 	echo "uuencode is required to use this script"
 	exit $EXIT_FAILURE
 fi

 which flashprog > /dev/null
 if [ "$?" != "0" ] ; then
 	echo "Please install a stable version of flashprog in your path."
 	echo "This will be used to compare the test flashprog binary and "
 	echo "restore your firmware image at the end of the test."
 	exit $EXIT_FAILURE
 fi

 # Keep a copy of flashprog with the test data
 cp "$FLASHPROG" "${TMPDIR}/"
 cd "$TMPDIR"
 echo "Running test in ${TMPDIR}"

 # Make 4k worth of 0xff bytes
 echo "begin 640 $FF_4K" > "$FF_4K_TEXT"
 i=0
 while [ $i -le 90 ] ; do
 	echo "M____________________________________________________________" >> "$FF_4K_TEXT"
 	i=$((${i} + 1))
 done
 echo "!_P``" >> "$FF_4K_TEXT"
 echo "\`" >> "$FF_4K_TEXT"
 echo "end" >> "$FF_4K_TEXT"
 uudecode -o "$FF_4K" "$FF_4K_TEXT"
 rm -f "$FF_4K_TEXT"

 # Make 4k worth of 0x00 bytes
 dd if=/dev/zero of="$ZERO_4K" bs=1 count=4096 2> /dev/null
 echo "ffh pattern written in ${FF_4K}"
 echo "00h pattern written in ${ZERO_4K}"

 echo "Reading BIOS image"
 BIOS="bios.bin"
 flashprog ${FLASHPROG_PARAM} -r "$BIOS" > /dev/null
 echo "Original image saved as ${BIOS}"

 # $1: exit code
 do_exit() {
 	if [ ${1} -eq ${EXIT_FAILURE} ] ; then
 		echo "Result: FAILED"
 	else
 		echo "Result: PASSED"
 	fi

 	echo "restoring original bios image using system's flashprog"
 	flashprog ${FLASHPROG_PARAM} -w "$BIOS"
 	echo "test files remain in ${TMPDIR}"
 	cd "$OLDDIR"
 	exit "$1"
 }

 #
 # Actual tests are performed below.
 #
 NUM_REGIONS=16

 # Make a layout - 4K regions on 4K boundaries. This will test basic
 # functionality of erasing and writing specific blocks.
 echo "
 0x000000:0x000fff 00_0
 0x001000:0x001fff ff_0

 0x002000:0x002fff 00_1
 0x003000:0x003fff ff_1

 0x004000:0x004fff 00_2
 0x005000:0x005fff ff_2

 0x006000:0x006fff 00_3
 0x007000:0x007fff ff_3

 0x008000:0x008fff 00_4
 0x009000:0x009fff ff_4

 0x00a000:0x00afff 00_5
 0x00b000:0x00bfff ff_5

 0x00c000:0x00cfff 00_6
 0x00d000:0x00dfff ff_6

 0x00e000:0x00efff 00_7
 0x00f000:0x00ffff ff_7

 0x010000:0x010fff 00_8
 0x011000:0x011fff ff_8

 0x012000:0x012fff 00_9
 0x013000:0x013fff ff_9

 0x014000:0x014fff 00_10
 0x015000:0x015fff ff_10

 0x016000:0x016fff 00_11
 0x017000:0x017fff ff_11

 0x018000:0x018fff 00_12
 0x019000:0x019fff ff_12

 0x01a000:0x01afff 00_13
 0x01b000:0x01bfff ff_13

 0x01c000:0x01cfff 00_14
 0x01d000:0x01dfff ff_14

 0x01e000:0x01efff 00_15
 0x01f000:0x01ffff ff_15
 " > layout_4k_aligned.txt

 cp "$BIOS" "$TESTFILE"
 i=0
 while [ $i -lt $NUM_REGIONS ] ; do
 	echo -n "aligned region ${i} test: "
 	offset=$((${i} * 8192))
 	dd if=${ZERO_4K} of=${TESTFILE} bs=1 conv=notrunc seek=${offset} 2> /dev/null
 	dd if=${FF_4K} of=${TESTFILE} bs=1 conv=notrunc seek=$((${offset} + 4096)) 2> /dev/null

 	./flashprog ${FLASHPROG_PARAM} -l layout_4k_aligned.txt -i 00_${i} -i ff_${i} -w "$TESTFILE" > /dev/null
 	if [ "$?" != "0" ] ; then
 		echo "failed to flash region"
 		do_exit "$EXIT_FAILURE"
 	fi

 	# download the entire ROM image and use diff to compare to ensure
 	# flashprog logic does not violate user-specified regions
 	flashprog ${FLASHPROG_PARAM} -r difftest.bin > /dev/null
 	diff -q difftest.bin "$TESTFILE"
 	if [ "$?" != "0" ] ; then
 		echo "failed diff test"
 		do_exit "$EXIT_FAILURE"
 	fi
 	rm -f difftest.bin

 	i=$((${i} + 1))
 	echo "passed"
 done

 # Make a layout - 4K regions on 4.5K boundaries. This will help find problems
 # with logic that only operates on part of a block. For example, if a user
 # wishes to re-write a fraction of a block, then:
 # 1. The whole block must be erased.
 # 2. The old content must be restored at unspecified offsets.
 # 3. The new content must be written at specified offsets.
 #
 # Note: The last chunk of 0xff bytes is only 2k as to avoid overrunning a 128kB
 # test image.
 #
 echo "
 0x000800:0x0017ff 00_0
 0x001800:0x0027ff ff_0

 0x002800:0x0037ff 00_1
 0x003800:0x0047ff ff_1

 0x004800:0x0057ff 00_2
 0x005800:0x0067ff ff_2

 0x006800:0x0077ff 00_3
 0x007800:0x0087ff ff_3

 0x008800:0x0097ff 00_4
 0x009800:0x00a7ff ff_4

 0x00a800:0x00b7ff 00_5
 0x00b800:0x00c7ff ff_5

 0x00c800:0x00d7ff 00_6
 0x00d800:0x00e7ff ff_6

 0x00e800:0x00f7ff 00_7
 0x00f800:0x0107ff ff_7

 0x010800:0x0117ff 00_8
 0x011800:0x0127ff ff_8

 0x012800:0x0137ff 00_9
 0x013800:0x0147ff ff_9

 0x014800:0x0157ff 00_10
 0x015800:0x0167ff ff_10

 0x016800:0x0177ff 00_11
 0x017800:0x0187ff ff_11

 0x018800:0x0197ff 00_12
 0x019800:0x01a7ff ff_12

 0x01a800:0x01b7ff 00_13
 0x01b800:0x01c7ff ff_13

 0x01c800:0x01d7ff 00_14
 0x01d800:0x01e7ff ff_14

 0x01e800:0x01f7ff 00_15
 0x01f800:0x01ffff ff_15
 " > layout_unaligned.txt

 # reset the test file and ROM to the original state
 flashprog ${FLASHPROG_PARAM} -w "$BIOS" > /dev/null
 cp "$BIOS" "$TESTFILE"

 i=0
 while [ $i -lt $NUM_REGIONS ] ; do
 	echo -n "unaligned region ${i} test: "

 	offset=$(($((${i} * 8192)) + 2048))
 	# Protect against too long write
 	writelen=4096
 	if [ $((${offset} + 4096 + 4096)) -ge 131072 ]; then
 		writelen=$((131072 - $((${offset} + 4096))))
 		if [ ${writelen} -lt 0 ]; then
 			writelen=0
 		fi
 	fi
 	dd if=${ZERO_4K} of=${TESTFILE} bs=1 conv=notrunc seek=${offset} 2> /dev/null
 	dd if=${FF_4K} of=${TESTFILE} bs=1 conv=notrunc seek=$((${offset} + 4096)) count=writelen 2> /dev/null

 	./flashprog ${FLASHPROG_PARAM} -l layout_unaligned.txt -i 00_${i} -i ff_${i} -w "$TESTFILE" > /dev/null
 	if [ "$?" != "0" ] ; then
 		echo "failed to flash region"
 		do_exit "$EXIT_FAILURE"
 	fi

 	# download the entire ROM image and use diff to compare to ensure
 	# flashprog logic does not violate user-specified regions
 	flashprog ${FLASHPROG_PARAM} -r difftest.bin > /dev/null
 	diff -q difftest.bin "$TESTFILE"
 	if [ "$?" != "0" ] ; then
 		echo "failed diff test"
 		do_exit "$EXIT_FAILURE"
 	fi
 	rm -f difftest.bin

 	i=$((${i} + 1))
 	echo "passed"
 done

 do_exit "$EXIT_SUCCESS"
	#!/bin/sh
	#
	# Copyright (C) 2010 Google Inc.
	# Written by David Hendricks for Google Inc.
	#
	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program 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 for more details.
	#
	# This script attempts to test Flashprog partial write capability by writing
	# patterns of 0xff and 0x00 bytes to the lowest 128kB of flash. 128kB is chosen
	# since 64kB is usually the largest possible block size, so we will try to
	# cover at least two blocks with this test.

	EXIT_SUCCESS=0
	EXIT_FAILURE=1

	# The copy of flashprog to test. If unset, we'll assume the user wants to test
	# a newly built flashprog binary in the parent directory (this script should
	# reside in flashprog/util).
	if [ -z "$FLASHPROG" ] ; then
	FLASHPROG="../flashprog"
	fi
	echo "testing flashprog binary: ${FLASHPROG}"

	OLDDIR=$(pwd)

	# test data location
	TMPDIR=$(mktemp -d -t flashprog_test.XXXXXXXXXX)
	if [ "$?" != "0" ] ; then
	echo "Could not create temporary directory"
	exit $EXIT_FAILURE
	fi

	ZERO_4K="00_4k.bin"
	FF_4K="ff_4k.bin"
	FF_4K_TEXT="ff_4k.txt"

	TESTFILE="test.bin"

	which uuencode > /dev/null
	if [ "$?" != "0" ] ; then
	echo "uuencode is required to use this script"
	exit $EXIT_FAILURE
	fi

	which flashprog > /dev/null
	if [ "$?" != "0" ] ; then
	echo "Please install a stable version of flashprog in your path."
	echo "This will be used to compare the test flashprog binary and "
	echo "restore your firmware image at the end of the test."
	exit $EXIT_FAILURE
	fi

	# Keep a copy of flashprog with the test data
	cp "$FLASHPROG" "${TMPDIR}/"
	cd "$TMPDIR"
	echo "Running test in ${TMPDIR}"

	# Make 4k worth of 0xff bytes
	echo "begin 640 $FF_4K" > "$FF_4K_TEXT"
	i=0
	while [ $i -le 90 ] ; do
	echo "M____________________________________________________________" >> "$FF_4K_TEXT"
	i=$((${i} + 1))
	done
	echo "!_P``" >> "$FF_4K_TEXT"
	echo "\`" >> "$FF_4K_TEXT"
	echo "end" >> "$FF_4K_TEXT"
	uudecode -o "$FF_4K" "$FF_4K_TEXT"
	rm -f "$FF_4K_TEXT"

	# Make 4k worth of 0x00 bytes
	dd if=/dev/zero of="$ZERO_4K" bs=1 count=4096 2> /dev/null
	echo "ffh pattern written in ${FF_4K}"
	echo "00h pattern written in ${ZERO_4K}"

	echo "Reading BIOS image"
	BIOS="bios.bin"
	flashprog ${FLASHPROG_PARAM} -r "$BIOS" > /dev/null
	echo "Original image saved as ${BIOS}"

	# $1: exit code
	do_exit() {
	if [ ${1} -eq ${EXIT_FAILURE} ] ; then
	echo "Result: FAILED"
	else
	echo "Result: PASSED"
	fi

	echo "restoring original bios image using system's flashprog"
	flashprog ${FLASHPROG_PARAM} -w "$BIOS"
	echo "test files remain in ${TMPDIR}"
	cd "$OLDDIR"
	exit "$1"
	}

	#
	# Actual tests are performed below.
	#
	NUM_REGIONS=16

	# Make a layout - 4K regions on 4K boundaries. This will test basic
	# functionality of erasing and writing specific blocks.
	echo "
	0x000000:0x000fff 00_0
	0x001000:0x001fff ff_0

	0x002000:0x002fff 00_1
	0x003000:0x003fff ff_1

	0x004000:0x004fff 00_2
	0x005000:0x005fff ff_2

	0x006000:0x006fff 00_3
	0x007000:0x007fff ff_3

	0x008000:0x008fff 00_4
	0x009000:0x009fff ff_4

	0x00a000:0x00afff 00_5
	0x00b000:0x00bfff ff_5

	0x00c000:0x00cfff 00_6
	0x00d000:0x00dfff ff_6

	0x00e000:0x00efff 00_7
	0x00f000:0x00ffff ff_7

	0x010000:0x010fff 00_8
	0x011000:0x011fff ff_8

	0x012000:0x012fff 00_9
	0x013000:0x013fff ff_9

	0x014000:0x014fff 00_10
	0x015000:0x015fff ff_10

	0x016000:0x016fff 00_11
	0x017000:0x017fff ff_11

	0x018000:0x018fff 00_12
	0x019000:0x019fff ff_12

	0x01a000:0x01afff 00_13
	0x01b000:0x01bfff ff_13

	0x01c000:0x01cfff 00_14
	0x01d000:0x01dfff ff_14

	0x01e000:0x01efff 00_15
	0x01f000:0x01ffff ff_15
	" > layout_4k_aligned.txt

	cp "$BIOS" "$TESTFILE"
	i=0
	while [ $i -lt $NUM_REGIONS ] ; do
	echo -n "aligned region ${i} test: "
	offset=$((${i} * 8192))
	dd if=${ZERO_4K} of=${TESTFILE} bs=1 conv=notrunc seek=${offset} 2> /dev/null
	dd if=${FF_4K} of=${TESTFILE} bs=1 conv=notrunc seek=$((${offset} + 4096)) 2> /dev/null

	./flashprog ${FLASHPROG_PARAM} -l layout_4k_aligned.txt -i 00_${i} -i ff_${i} -w "$TESTFILE" > /dev/null
	if [ "$?" != "0" ] ; then
	echo "failed to flash region"
	do_exit "$EXIT_FAILURE"
	fi

	# download the entire ROM image and use diff to compare to ensure
	# flashprog logic does not violate user-specified regions
	flashprog ${FLASHPROG_PARAM} -r difftest.bin > /dev/null
	diff -q difftest.bin "$TESTFILE"
	if [ "$?" != "0" ] ; then
	echo "failed diff test"
	do_exit "$EXIT_FAILURE"
	fi
	rm -f difftest.bin

	i=$((${i} + 1))
	echo "passed"
	done

	# Make a layout - 4K regions on 4.5K boundaries. This will help find problems
	# with logic that only operates on part of a block. For example, if a user
	# wishes to re-write a fraction of a block, then:
	# 1. The whole block must be erased.
	# 2. The old content must be restored at unspecified offsets.
	# 3. The new content must be written at specified offsets.
	#
	# Note: The last chunk of 0xff bytes is only 2k as to avoid overrunning a 128kB
	# test image.
	#
	echo "
	0x000800:0x0017ff 00_0
	0x001800:0x0027ff ff_0

	0x002800:0x0037ff 00_1
	0x003800:0x0047ff ff_1

	0x004800:0x0057ff 00_2
	0x005800:0x0067ff ff_2

	0x006800:0x0077ff 00_3
	0x007800:0x0087ff ff_3

	0x008800:0x0097ff 00_4
	0x009800:0x00a7ff ff_4

	0x00a800:0x00b7ff 00_5
	0x00b800:0x00c7ff ff_5

	0x00c800:0x00d7ff 00_6
	0x00d800:0x00e7ff ff_6

	0x00e800:0x00f7ff 00_7
	0x00f800:0x0107ff ff_7

	0x010800:0x0117ff 00_8
	0x011800:0x0127ff ff_8

	0x012800:0x0137ff 00_9
	0x013800:0x0147ff ff_9

	0x014800:0x0157ff 00_10
	0x015800:0x0167ff ff_10

	0x016800:0x0177ff 00_11
	0x017800:0x0187ff ff_11

	0x018800:0x0197ff 00_12
	0x019800:0x01a7ff ff_12

	0x01a800:0x01b7ff 00_13
	0x01b800:0x01c7ff ff_13

	0x01c800:0x01d7ff 00_14
	0x01d800:0x01e7ff ff_14

	0x01e800:0x01f7ff 00_15
	0x01f800:0x01ffff ff_15
	" > layout_unaligned.txt

	# reset the test file and ROM to the original state
	flashprog ${FLASHPROG_PARAM} -w "$BIOS" > /dev/null
	cp "$BIOS" "$TESTFILE"

	i=0
	while [ $i -lt $NUM_REGIONS ] ; do
	echo -n "unaligned region ${i} test: "

	offset=$(($((${i} * 8192)) + 2048))
	# Protect against too long write
	writelen=4096
	if [ $((${offset} + 4096 + 4096)) -ge 131072 ]; then
	writelen=$((131072 - $((${offset} + 4096))))
	if [ ${writelen} -lt 0 ]; then
	writelen=0
	fi
	fi
	dd if=${ZERO_4K} of=${TESTFILE} bs=1 conv=notrunc seek=${offset} 2> /dev/null
	dd if=${FF_4K} of=${TESTFILE} bs=1 conv=notrunc seek=$((${offset} + 4096)) count=writelen 2> /dev/null

	./flashprog ${FLASHPROG_PARAM} -l layout_unaligned.txt -i 00_${i} -i ff_${i} -w "$TESTFILE" > /dev/null
	if [ "$?" != "0" ] ; then
	echo "failed to flash region"
	do_exit "$EXIT_FAILURE"
	fi

	# download the entire ROM image and use diff to compare to ensure
	# flashprog logic does not violate user-specified regions
	flashprog ${FLASHPROG_PARAM} -r difftest.bin > /dev/null
	diff -q difftest.bin "$TESTFILE"
	if [ "$?" != "0" ] ; then
	echo "failed diff test"
	do_exit "$EXIT_FAILURE"
	fi
	rm -f difftest.bin

	i=$((${i} + 1))
	echo "passed"
	done

	do_exit "$EXIT_SUCCESS"