blob: ccb269aa34e91941a9fc208b9815306f998a29d0 [file] [log] [blame]
#!/usr/bin/env python
#
# Copyright (c) 2013-2015 The Linux Foundation. All rights reserved.
#
"""
Script to create a U-Boot flashable multi-image blob.
This script creates a multi-image blob, from a bunch of images, and
adds a U-Boot shell script to the blob, that can flash the images from
within U-Boot. The procedure to use this script is listed below.
1. Create an images folder. Ex: my-pack
2. Copy all the images to be flashed into the folder.
3. Copy the partition MBN file into the folder. The file should be
named 'partition.mbn'. This is used to determine the offsets for
each of the named partitions.
4. Create a flash configuration file, specifying the images be
flashed, and the partition in which the images is to be
flashed. The flash configuration file can be specified using the
-f option, default is flash.conf.
5. Invoke 'pack' with the folder name as argument, pass flash
parameters as arguments if required. A single image file will
be created, out side the images folder, with .img suffix. Ex:
my-pack.img
6. Transfer the file into a valid SDRAM address and invoke the
following U-Boot command to flash the images. Replace 0x41000000,
with address location where the image has been loaded. The script
expects the variable 'imgaddr' to be set.
u-boot> imgaddr=0x41000000 source $imgaddr:script
Host-side Pre-req
* Python >= 2.6
* ordereddict >= 1.1 (for Python 2.6)
* mkimage >= 2012.07
* dtc >= 1.2.0
Target-side Pre-req
The following U-Boot config macros should be enabled, for the
generated flashing script to work.
* CONFIG_FIT -- FIT image format support
* CONFIG_SYS_HUSH_PARSER -- bash style scripting support
* CONFIG_SYS_NULLDEV -- redirecting command output support
* CONFIG_CMD_XIMG -- extracting sub-images support
* CONFIG_CMD_NAND -- NAND Flash commands support
* CONFIG_CMD_NAND_YAFFS -- NAND YAFFS2 write support
* CONFIG_CMD_SF -- SPI Flash commands support
"""
from ConfigParser import ConfigParser
from ConfigParser import Error as ConfigParserError
from os.path import getsize
from getopt import getopt
from getopt import GetoptError
from collections import namedtuple
from string import Template
from unittest import TestCase
from tempfile import mkdtemp
from shutil import rmtree
import os
import sys
import os.path
import subprocess
import struct
import re
import hashlib
version = "1.1"
#
# Python 2.6 and earlier did not have OrderedDict use the backport
# from ordereddict package. If that is not available report error.
#
try:
from collections import OrderedDict
except ImportError:
try:
from ordereddict import OrderedDict
except ImportError:
print "error: this script requires the 'ordereddict' class."
print "Try 'pip install --user ordereddict'"
print "Or 'easy_install --user ordereddict'"
sys.exit(1)
__all__ = []
KB = 1024
MB = 1024 * KB
def error(msg, ex=None):
"""Print an error message and exit.
msg -- string, the message to print
ex -- exception, the associate exception, if any
"""
sys.stderr.write("pack: %s" % msg)
if ex != None: sys.stderr.write(": %s" % str(ex))
sys.stderr.write("\n")
sys.exit(1)
FlashInfo = namedtuple("FlashInfo", "type pagesize blocksize chipsize")
ImageInfo = namedtuple("ProgInfo", "name filename type")
PartInfo = namedtuple("PartInfo", "name offset length")
def roundup(value, roundto):
"""Return the next largest multiple of 'roundto'."""
return ((value + roundto - 1) // roundto) * roundto
class GPT(object):
GPTheader = namedtuple("GPTheader", "signature revision header_size"
" crc32 current_lba backup_lba first_usable_lba"
" last_usable_lba disk_guid start_lba_part_entry"
" num_part_entry part_entry_size part_crc32")
GPT_SIGNATURE = 'EFI PART'
GPT_REVISION = '\x00\x00\x01\x00'
GPT_HEADER_SIZE = 0x5C
GPT_HEADER_FMT = "<8s4sLL4xQQQQ16sQLLL"
GPTtable = namedtuple("GPTtable", "part_type unique_guid first_lba"
" last_lba attribute_flag part_name")
GPT_TABLE_FMT = "<16s16sQQQ72s"
def __init__(self, filename, pagesize, blocksize, chipsize):
self.filename = filename
self.pagesize = pagesize
self.blocksize = blocksize
self.chipsize = chipsize
self.__partitions = OrderedDict()
def __validate_and_read_parts(self, part_fp):
"""Validate the GPT and read the partition"""
part_fp.seek(self.blocksize, os.SEEK_SET)
gptheader_str = part_fp.read(struct.calcsize(GPT.GPT_HEADER_FMT))
gptheader = struct.unpack(GPT.GPT_HEADER_FMT, gptheader_str)
gptheader = GPT.GPTheader._make(gptheader)
if gptheader.signature != GPT.GPT_SIGNATURE:
error("Invalid signature")
if gptheader.revision != GPT.GPT_REVISION:
error("Unsupported GPT Revision")
if gptheader.header_size != GPT.GPT_HEADER_SIZE:
error("Invalid Header size")
# Adding GPT partition info. This has to be flashed first.
# GPT Header starts at LBA1 so (current_lba -1) will give the
# starting of primary GPT.
# blocksize will equal to gptheader.first_usuable_lba - current_lba + 1
name = "0:GPT"
block_start = gptheader.current_lba - 1
block_count = gptheader.first_usable_lba - gptheader.current_lba + 1
part_info = PartInfo(name, block_start, block_count)
self.__partitions[name] = part_info
part_fp.seek(2 * self.blocksize, os.SEEK_SET)
for i in range(gptheader.num_part_entry):
gpt_table_str = part_fp.read(struct.calcsize(GPT.GPT_TABLE_FMT))
gpt_table = struct.unpack(GPT.GPT_TABLE_FMT, gpt_table_str)
gpt_table = GPT.GPTtable._make(gpt_table)
block_start = gpt_table.first_lba
block_count = gpt_table.last_lba - gpt_table.first_lba + 1
part_name = gpt_table.part_name.strip(chr(0))
name = part_name.replace('\0','')
part_info = PartInfo(name, block_start, block_count)
self.__partitions[name] = part_info
# Adding the GPT Backup partition.
# GPT header backup_lba gives block number where the GPT backup header will be.
# GPT Backup header will start from offset of 32 blocks before
# the GPTheader.backup_lba. Backup GPT size is 33 blocks.
name = "0:GPTBACKUP"
block_start = gptheader.backup_lba - 32
block_count = 33
part_info = PartInfo(name, block_start, block_count)
self.__partitions[name] = part_info
def get_parts(self):
"""Returns a list of partitions present in the GPT."""
try:
with open(self.filename, "r") as part_fp:
self.__validate_and_read_parts(part_fp)
except IOError, e:
error("error opening %s" % self.filename, e)
return self.__partitions
class MIBIB(object):
Header = namedtuple("Header", "magic1 magic2 version age")
HEADER_FMT = "<LLLL"
HEADER_MAGIC1 = 0xFE569FAC
HEADER_MAGIC2 = 0xCD7F127A
HEADER_VERSION = 4
Table = namedtuple("Table", "magic1 magic2 version numparts")
TABLE_FMT = "<LLLL"
TABLE_MAGIC1 = 0x55EE73AA
TABLE_MAGIC2 = 0xE35EBDDB
TABLE_VERSION = 3
Entry = namedtuple("Entry", "name offset length"
" attr1 attr2 attr3 which_flash")
ENTRY_FMT = "<16sLLBBBB"
def __init__(self, filename, pagesize, blocksize, chipsize):
self.filename = filename
self.pagesize = pagesize
self.blocksize = blocksize
self.chipsize = chipsize
self.__partitions = OrderedDict()
def __validate(self, part_fp):
"""Validate the MIBIB by checking for magic bytes."""
mheader_str = part_fp.read(struct.calcsize(MIBIB.HEADER_FMT))
mheader = struct.unpack(MIBIB.HEADER_FMT, mheader_str)
mheader = MIBIB.Header._make(mheader)
if (mheader.magic1 != MIBIB.HEADER_MAGIC1
or mheader.magic2 != MIBIB.HEADER_MAGIC2):
error("invalid partition table, magic byte not present")
if mheader.version != MIBIB.HEADER_VERSION:
error("unsupport mibib version")
def __read_parts(self, part_fp):
"""Read the partitions from the MIBIB."""
part_fp.seek(self.pagesize, os.SEEK_SET)
mtable_str = part_fp.read(struct.calcsize(MIBIB.TABLE_FMT))
mtable = struct.unpack(MIBIB.TABLE_FMT, mtable_str)
mtable = MIBIB.Table._make(mtable)
if (mtable.magic1 != MIBIB.TABLE_MAGIC1
or mtable.magic2 != MIBIB.TABLE_MAGIC2):
error("invalid sys part. table, magic byte not present")
if mtable.version != MIBIB.TABLE_VERSION:
error("unsupported partition table version")
for i in range(mtable.numparts):
mentry_str = part_fp.read(struct.calcsize(MIBIB.ENTRY_FMT))
mentry = struct.unpack(MIBIB.ENTRY_FMT, mentry_str)
mentry = MIBIB.Entry._make(mentry)
byte_offset = mentry.offset * self.blocksize
if mentry.length == 0xFFFFFFFF:
byte_length = self.chipsize - byte_offset
else:
byte_length = mentry.length * self.blocksize
part_name = mentry.name.strip(chr(0))
part_info = PartInfo(part_name, byte_offset, byte_length)
self.__partitions[part_name] = part_info
def __write_header(self, part_fp):
"""Write the MIBIB header, used for unit testing purposes."""
header = MIBIB.Header(magic1=MIBIB.HEADER_MAGIC1,
magic2=MIBIB.HEADER_MAGIC2,
version=MIBIB.HEADER_VERSION,
age=1)
header_str = struct.pack(MIBIB.HEADER_FMT, *header)
part_fp.write(header_str)
def __write_parts(self, part_fp):
"""Write the MIBIB partitions, used for unit testing purposes."""
part_fp.seek(self.pagesize, os.SEEK_SET)
table = MIBIB.Table(magic1=MIBIB.TABLE_MAGIC1,
magic2=MIBIB.TABLE_MAGIC2,
version=MIBIB.TABLE_VERSION,
numparts=len(self.__partitions))
table_str = struct.pack(MIBIB.TABLE_FMT, *table)
part_fp.write(table_str)
for name, offset, length in self.__partitions.itervalues():
block_offset = offset / self.blocksize
if length == None:
block_length = 0xFFFFFFFF
else:
block_length = length / self.blocksize
entry = MIBIB.Entry(name, block_offset, block_length,
attr1=0, attr2=0, attr3=0, which_flash=0)
entry_str = struct.pack(MIBIB.ENTRY_FMT, *entry)
part_fp.write(entry_str)
def get_parts(self):
"""Returns a list of partitions present in the MIBIB."""
try:
with open(self.filename, "r") as part_fp:
self.__validate(part_fp)
self.__read_parts(part_fp)
except IOError, e:
error("error opening %s" % self.filename, e)
return self.__partitions
def add_part(self, part_info):
"""Add a partition for writing to MIBIB."""
self.__partitions[part_info.name] = part_info
def write(self):
"""Write the MIBIB to file, for unit testing purposes."""
try:
with open(self.filename, "w") as part_fp:
self.__write_header(part_fp)
self.__write_parts(part_fp)
except IOError, e:
error("error opening %s" % self.filename, e)
class FlashScript(object):
"""Base class for creating flash scripts."""
def __init__(self, flinfo):
self.pagesize = flinfo.pagesize
self.blocksize = flinfo.blocksize
self.script = []
self.parts = []
self.curr_stdout = "serial"
self.activity = None
self.script.append('if test "x$verbose" = "x"; then\n')
self.script.append("failedmsg='[failed]'\n")
self.script.append('else\n')
self.script.append("failedmsg='%s Failed'\n" % ("#" * 40))
self.script.append('fi\n')
def append(self, cmd, fatal=True):
"""Add a command to the script.
Add additional code, to terminate on error. This can be
supressed by passing 'fatal' as False.
"""
if fatal:
self.script.append(cmd
+ ' || setenv stdout serial'
+ ' && echo "$failedmsg"'
+ ' && exit 1\n')
else:
self.script.append(cmd + "\n")
def check_isset(self, var):
"""Check if a variable is set."""
self.append('test "x$%s" != "x"' % var)
def dumps(self):
"""Return the created script as a string."""
return "".join(self.script)
def redirect(self, dev):
"""Generate code, to redirect command output to a device."""
if self.curr_stdout == dev:
return
self.append("setenv stdout %s" % dev, fatal=False)
self.curr_stdout = dev
def start_activity(self, activity):
"""Generate code, to indicate start of an activity."""
self.script.append('if test "x$verbose" = "x"; then\n')
self.echo("'%-40.40s'" % activity, nl=False)
self.script.append('else\n')
self.echo("'%s %s Started'" % ("#" * 40, activity), verbose=True)
self.script.append('fi\n')
self.activity = activity
def finish_activity(self):
"""Generate code, to indicate end of an activity."""
self.script.append('if test "x$verbose" = "x"; then\n')
self.echo("'[ done ]'")
self.redirect("serial")
self.script.append('else\n')
self.echo("'%s %s Done'" % ("#" * 40, self.activity), verbose=True)
self.script.append('fi\n')
def imxtract(self, part):
"""Generate code, to extract image location, from a multi-image blob.
part -- string, name of the sub-image
Sets the $fileaddr environment variable, to point to the
location of the sub-image.
"""
self.append("imxtract $imgaddr %s" % part)
def echo(self, msg, nl=True, verbose=False):
"""Generate code, to print a message.
nl -- bool, indicates whether newline is to be printed
verbose -- bool, indicates whether printing in verbose mode
"""
if not verbose:
self.redirect("serial")
if nl:
self.append("echo %s" % msg, fatal=False)
else:
self.append("echo %s%s" % (r"\\c", msg), fatal=False)
if not verbose:
self.redirect("nulldev")
def end(self):
"""Generate code, to indicate successful completion of script."""
self.append("exit 0\n", fatal=False)
def start_if(self, var, value):
"""Generate code, to check an environment variable.
var -- string, variable to check
value -- string, the value to compare with
"""
self.append('if test "$%s" = "%s"; then\n' % (var, value),
fatal=False)
def end_if(self):
"""Generate code, to end if statement."""
self.append('fi\n', fatal=False)
class NandScript(FlashScript):
"""Class for creating NAND flash scripts."""
def __init__(self, flinfo, ipq_nand):
FlashScript.__init__(self, flinfo)
self.ipq_nand = ipq_nand
def erase(self, offset, size):
"""Generate code, to erase the specified partition."""
size = roundup(size, self.blocksize)
self.append("nand erase 0x%08x 0x%08x" % (offset, size))
def write(self, offset, size, yaffs):
"""Generate code, to write to a partition."""
if size > 0:
if yaffs:
self.append("nand write.yaffs $fileaddr 0x%08x 0x%08x"
% (offset, size))
else:
size = roundup(size, self.pagesize)
self.append("nand write $fileaddr 0x%08x 0x%08x" % (offset, size))
def switch_layout(self, layout):
"""Generate code, to switch between sbl/linux layouts."""
self.append("ipq_nand %s" % layout)
class NorScript(FlashScript):
"""Class for creating NAND flash scripts."""
def __init__(self, flinfo):
FlashScript.__init__(self, flinfo)
def erase(self, offset, size):
"""Generate code, to erase the specified partition."""
size = roundup(size, self.blocksize)
self.append("sf erase 0x%08x +0x%08x" % (offset, size))
def write(self, offset, size, yaffs):
"""Generate code, to write to a partition."""
if size > 0:
self.append("sf write $fileaddr 0x%08x 0x%08x" % (offset, size))
def nand_write(self, offset, part_size, img_size):
"""Handle the NOR + NAND case
All binaries upto HLOS will go to NOR and Root FS will go to NAND
Assumed all nand page sizes are less than are equal to 8KB
"""
self.append("nand device 0 && nand erase 0x%08x 0x%08x" % (offset, part_size))
if img_size > 0:
self.append("nand write $fileaddr 0x%08x 0x%08x" % (offset, img_size))
def switch_layout(self, layout):
pass
class EmmcScript(FlashScript):
"""Class for creating EMMC scripts."""
def __init__(self, flinfo):
FlashScript.__init__(self, flinfo)
def erase(self, offset, size):
"""Generate code, to erase the specified partition."""
self.append("mmc erase 0x%08x %x" % (offset, size))
def write(self, offset, size, yaffs):
"""Generate code, to write to a partition."""
if size > 0:
size = roundup(size, self.blocksize)
blk_cnt = size / self.blocksize
self.append("mmc write $fileaddr 0x%08x %x" % (offset, blk_cnt))
def switch_layout(self, layout):
pass
its_tmpl = Template("""
/dts-v1/;
/ {
description = "${desc}";
images {
${images}
};
};
""")
its_image_tmpl = Template("""
${name} {
description = "${desc}";
data = /incbin/("./${fname}");
type = "${imtype}";
arch = "arm";
compression = "none";
hash@1 { algo = "crc32"; };
};
""")
def sha1(message):
"""Returns SHA1 digest in hex format of the message."""
m = hashlib.sha1()
m.update(message)
return m.hexdigest()
class Pack(object):
"""Class to create a flashable, multi-image blob.
Combine multiple images present in a directory, and generate a
U-Boot script to flash the images.
"""
# The maximum rootfs size is 64MB
norplusnand_rootfs_img_size = (64 * 1024 * 1024)
def __init__(self):
self.flinfo = None
self.images_dname = None
self.ipq_nand = None
self.partitions = {}
self.fconf_fname = None
self.scr_fname = None
self.its_fname = None
self.img_fname = None
def __get_yaffs(self, info, section):
"""Get the yaffs flag for a section.
info -- ConfigParser object, containing image flashing info
section -- section to check if yaffs flag is set
"""
try:
yaffs = info.get(section, "yaffs")
if yaffs.lower() in ["0", "no"]:
yaffs = False
elif yaffs.lower() in ["1", "yes"]:
yaffs = True
else:
error("invalid value for 'yaffs' in '%s'" % section)
except ConfigParserError, e:
yaffs = False
if self.flinfo.type == "nor" and yaffs == True:
error("yaffs cannot be used with NOR flash type")
return yaffs
def __get_layout(self, info, section):
"""Get the layout for a section.
info -- ConfigParser object, containing image flashing info
section - section to retreive the layout from
"""
try:
layout = info.get(section, "layout")
except ConfigParserError, e:
layout = None
if self.ipq_nand and layout == None:
error("layout not specified for IPQ device")
if not self.ipq_nand and layout != None:
error("layout specified for a non IPQ device")
if layout not in ("sbl", "linux", None):
error("invalid layout in '%s'" % section)
return layout
def __get_machid(self, info, section):
"""Get the machid for a section.
info -- ConfigParser object, containing image flashing info
section -- section to retreive the machid from
"""
try:
machid = info.get(section, "if_machid")
machid = int(machid, 0)
machid = "%x" % machid
except ConfigParserError, e:
machid = None
except ValueError, e:
error("invalid value for machid, should be integer")
return machid
def __get_img_size(self, filename):
"""Get the size of the image to be flashed
filaneme -- string, filename of the image to be flashed
"""
if filename.lower() == "none":
return 0
try:
return getsize(os.path.join(self.images_dname, filename))
except OSError, e:
error("error getting image size '%s'" % filename, e)
def __get_part_info(self, partition):
"""Return partition info for the specified partition.
partition -- string, partition name
"""
try:
return self.partitions[partition]
except KeyError, e:
return None
def __gen_flash_script(self, info, script, flinfo):
"""Generate the script to flash the images.
info -- ConfigParser object, containing image flashing info
script -- Script object, to append commands to
"""
count = 0
for section in info.sections():
try:
filename = info.get(section, "filename")
partition = info.get(section, "partition")
include = info.get(section, "include")
except ConfigParserError, e:
error("error getting image info in section '%s'" % section, e)
if include.lower() in ["0", "no"]:
continue
machid = self.__get_machid(info, section)
layout = self.__get_layout(info, section)
yaffs = self.__get_yaffs(info, section)
img_size = self.__get_img_size(filename)
part_info = self.__get_part_info(partition)
if self.flinfo.type == 'nand':
size = roundup(img_size, flinfo.pagesize)
tr = ' | tr \"\\000\" \"\\377\"'
if self.flinfo.type == 'emmc':
size = roundup(img_size, flinfo.blocksize)
tr = ''
if ((self.flinfo.type == 'nand' or self.flinfo.type == 'emmc') and (size != img_size)):
pad_size = size - img_size
filename_abs = os.path.join(self.images_dname, filename)
filename_abs_pad = filename_abs + ".padded"
cmd = 'cat %s > %s' % (filename_abs, filename_abs_pad)
ret = subprocess.call(cmd, shell=True)
if ret != 0:
error("failed to copy image")
cmd = 'dd if=/dev/zero count=1 bs=%s %s >> %s' % (pad_size, tr, filename_abs_pad)
cmd = '(' + cmd + ') 1>/dev/null 2>/dev/null'
ret = subprocess.call(cmd, shell=True)
if ret != 0:
error("failed to create padded image from script")
if self.flinfo.type != "emmc":
if part_info == None:
if self.flinfo.type == 'norplusnand':
if count > 2:
error("More than 2 NAND images for NOR+NAND is not allowed")
elif img_size > part_info.length:
error("img size is larger than part. len in '%s'" % section)
else:
if part_info != None:
if (img_size > 0):
if img_size > (part_info.length * self.flinfo.blocksize):
error("img size is larger than part. len in '%s'" % section)
if part_info == None and self.flinfo.type != 'norplusnand':
continue
if machid:
script.start_if("machid", machid)
script.start_activity("Flashing %s:" % section)
if self.ipq_nand: script.switch_layout(layout)
if img_size > 0:
if ((self.flinfo.type == 'nand' or self.flinfo.type == 'emmc') and (size != img_size)):
filename_pad = filename + ".padded"
script.imxtract(section + "-" + sha1(filename_pad))
else:
script.imxtract(section + "-" + sha1(filename))
if part_info == None:
if self.flinfo.type == 'norplusnand':
offset = count * Pack.norplusnand_rootfs_img_size
part_size = Pack.norplusnand_rootfs_img_size
script.nand_write(offset, part_size, img_size)
count = count + 1
else:
offset = part_info.offset
script.erase(offset, part_info.length)
script.write(offset, img_size, yaffs)
script.finish_activity()
if machid:
script.end_if()
if part_info == None and self.flinfo.type != 'norplusnand':
print "Flash type is norplusemmc"
else:
script.end()
def __gen_script(self, script_fp, info_fp, script, images, flinfo):
"""Generate the script to flash the multi-image blob.
script_fp -- file object, to write script to
info_fp -- file object, to read flashing information from
script -- Script object, to append the commands to
images -- list of ImageInfo, appended to, based on images in config
"""
try:
info = ConfigParser({"include": "yes"})
info.readfp(info_fp)
except ConfigParserError, e:
error("error parsing info file '%s'" % self.fconf_fname, e)
self.__gen_flash_script(info, script, flinfo)
for section in info.sections():
if info.get(section, "include").lower() in ["0", "no"]:
continue
partition = info.get(section, "partition")
part_info = self.__get_part_info(partition)
if part_info == None and self.flinfo.type != 'norplusnand':
continue
filename = info.get(section, "filename")
if self.flinfo.type == 'nand':
img_size = self.__get_img_size(filename)
size = roundup(img_size, flinfo.pagesize)
if ( size != img_size ):
filename = filename + ".padded"
if self.flinfo.type == 'emmc':
img_size = self.__get_img_size(filename)
size = roundup(img_size, flinfo.blocksize)
if ( size != img_size ):
filename = filename + ".padded"
image_info = ImageInfo(section + "-" + sha1(filename),
filename, "firmware")
if filename.lower() != "none":
if image_info not in images:
images.append(image_info)
def __its_escape(self, string):
"""Return string with ITS special characters escaped.
string -- string to be escape.
String in ITS files, consider 'slash' as special
character. Escape them by prefixing them with a slash.
"""
return string.replace("\\", "\\\\")
def __mkimage(self, images):
"""Create the multi-image blob.
images -- list of ImageInfo, containing images to be part of the blob
"""
try:
its_fp = open(self.its_fname, "wb")
except IOError, e:
error("error opening its file '%s'" % self.its_fname, e)
desc = "Flashing %s %x %x"
desc = desc % (self.flinfo.type, self.flinfo.pagesize,
self.flinfo.blocksize)
image_data = []
for (section, fname, imtype) in images:
fname = self.__its_escape(fname)
subs = dict(name=section, desc=fname, fname=fname, imtype=imtype)
image_data.append(its_image_tmpl.substitute(subs))
image_data = "".join(image_data)
its_data = its_tmpl.substitute(desc=desc, images=image_data)
its_fp.write(its_data)
its_fp.close()
try:
cmd = ["mkimage", "-f", self.its_fname, self.img_fname]
ret = subprocess.call(cmd)
if ret != 0:
error("failed to create u-boot image from script")
except OSError, e:
error("error executing mkimage", e)
def __create_fnames(self):
"""Populate the filenames."""
self.scr_fname = os.path.join(self.images_dname, "flash.scr")
self.its_fname = os.path.join(self.images_dname, "flash.its")
def __gen_board_script(self, board_section, machid, flinfo,
part_fname, fconf_fname, images):
"""Generate the flashing script for one board.
board_section -- string, board section in board config file
machid -- string, board machine ID in hex format
flinfo -- FlashInfo object, contains board specific flash params
part_fname -- string, partition file specific to the board
fconf_fname -- string, flash config file specific to the board
images -- list of ImageInfo, append images used by the board here
"""
script_fp = open(self.scr_fname, "a")
try:
fconf_fp = open(fconf_fname)
except IOError, e:
error("error opening flash config file '%s'" % fconf_fname, e)
if flinfo.type != "emmc":
mibib = MIBIB(part_fname, flinfo.pagesize, flinfo.blocksize,
flinfo.chipsize)
self.partitions = mibib.get_parts()
else:
gpt = GPT(part_fname, flinfo.pagesize, flinfo.blocksize, flinfo.chipsize)
self.partitions = gpt.get_parts()
self.flinfo = flinfo
if flinfo.type == "nand":
self.ipq_nand = True
script = NandScript(flinfo, self.ipq_nand)
elif flinfo.type == "nor" or flinfo.type == "norplusnand":
self.ipq_nand = False
script = NorScript(flinfo)
elif flinfo.type == "emmc":
self.ipq_nand = False
script = EmmcScript(flinfo)
else:
error("error, flash type unspecified.")
script.start_if("machid", machid)
self.__gen_script(script_fp, fconf_fp, script, images, flinfo)
script.end_if()
try:
script_fp.write(script.dumps())
except IOError, e:
error("error writing to script '%s'" % script_fp.name, e)
script_fp.close()
def __process_board_flash_emmc(self, ftype, board_section, machid, images):
"""Extract board info from config and generate the flash script.
ftype -- string, flash type 'emmc'
board_section -- string, board section in config file
machid -- string, board machine ID in hex format
images -- list of ImageInfo, append images used by the board here
"""
pagesize_param = "%s_pagesize" % ftype
blocksize_param = "%s_blocksize" % "emmc"
blocks_per_chip_param = "%s_total_blocks" % "emmc"
part_fname_param = "%s_partition_mbn" % ftype
fconf_fname_param = "%s_flash_conf" % ftype
if ftype == "norplusemmc":
part_fname_param = "%s_gpt_bin" % ftype
try:
pagesize = int(self.bconf.get(board_section, pagesize_param))
blocksize = int(self.bconf.get(board_section, blocksize_param))
chipsize = int(self.bconf.get(board_section,
blocks_per_chip_param))
except ConfigParserError, e:
error("missing flash info in section '%s'" % board_section, e)
except ValueError, e:
error("invalid flash info in section '%s'" % board_section, e)
if ftype == "norplusemmc":
ftype = "emmc"
flinfo = FlashInfo(ftype, pagesize, blocksize, chipsize)
try:
part_fname = self.bconf.get(board_section, part_fname_param)
if not os.path.isabs(part_fname):
part_fname = os.path.join(self.images_dname, part_fname)
except ConfigParserError, e:
error("missing partition file in section '%s'" % board_section, e)
try:
fconf_fname = self.bconf.get(board_section, fconf_fname_param)
if not os.path.isabs(fconf_fname):
fconf_fname = os.path.join(self.images_dname, fconf_fname)
except ConfigParserError, e:
error("missing NAND config in section '%s'" % board_section, e)
self.__gen_board_script(board_section, machid, flinfo,
part_fname, fconf_fname, images)
def __process_board_flash(self, ftype, board_section, machid, images):
"""Extract board info from config and generate the flash script.
ftype -- string, flash type 'nand' or 'nor' or 'emmc' or 'norplusnand'
board_section -- string, board section in config file
machid -- string, board machine ID in hex format
images -- list of ImageInfo, append images used by the board here
"""
pagesize_param = "%s_pagesize" % ftype
pages_per_block_param = "%s_pages_per_block" % ftype
blocks_per_chip_param = "%s_total_blocks" % ftype
part_fname_param = "%s_partition_mbn" % ftype
fconf_fname_param = "%s_flash_conf" % ftype
if ftype == "norplusnand" or ftype == "norplusemmc":
pagesize_param = "%s_pagesize" % "nor"
pages_per_block_param = "%s_pages_per_block" % "nor"
blocks_per_chip_param = "%s_total_blocks" % "nor"
try:
pagesize = int(self.bconf.get(board_section, pagesize_param))
pages_per_block = int(self.bconf.get(board_section,
pages_per_block_param))
blocks_per_chip = int(self.bconf.get(board_section,
blocks_per_chip_param))
except ConfigParserError, e:
error("missing flash info in section '%s'" % board_section, e)
except ValueError, e:
error("invalid flash info in section '%s'" % board_section, e)
blocksize = pages_per_block * pagesize
chipsize = blocks_per_chip * blocksize
if ftype == "norplusemmc":
ftype = "nor"
flinfo = FlashInfo(ftype, pagesize, blocksize, chipsize)
try:
part_fname = self.bconf.get(board_section, part_fname_param)
if not os.path.isabs(part_fname):
part_fname = os.path.join(self.images_dname, part_fname)
except ConfigParserError, e:
error("missing partition file in section '%s'" % board_section, e)
try:
fconf_fname = self.bconf.get(board_section, fconf_fname_param)
if not os.path.isabs(fconf_fname):
fconf_fname = os.path.join(self.images_dname, fconf_fname)
except ConfigParserError, e:
error("missing NAND config in section '%s'" % board_section, e)
self.__gen_board_script(board_section, machid, flinfo,
part_fname, fconf_fname, images)
def __process_board(self, board_section, images):
try:
machid = int(self.bconf.get(board_section, "machid"), 0)
machid = "%x" % machid
except ConfigParserError, e:
error("missing machid in section '%s'" % board_section, e)
except ValueError, e:
error("invalid machid in section '%s'" % board_section, e)
try:
available = self.bconf.get(board_section, "nand_available")
if available == "true" and self.flash_type == "nand":
self.__process_board_flash("nand", board_section, machid, images)
except ConfigParserError, e:
error("error getting board info in section '%s'" % board_section, e)
try:
available = self.bconf.get(board_section, "nor_available")
if available == "true" and self.flash_type == "nor":
self.__process_board_flash("nor", board_section, machid, images)
except ConfigParserError, e:
error("error getting board info in section '%s'" % board_section, e)
try:
available = self.bconf.get(board_section, "emmc_available")
if available == "true" and self.flash_type == "emmc":
self.__process_board_flash_emmc("emmc", board_section, machid, images)
except ConfigParserError, e:
error("error getting board info in section '%s'" % board_section, e)
try:
available = self.bconf.get(board_section, "norplusnand_available")
if available == "true" and self.flash_type == "norplusnand":
self.__process_board_flash("norplusnand", board_section, machid, images)
except ConfigParserError, e:
error("error getting board info in section '%s'" % board_section, e)
try:
available = self.bconf.get(board_section, "norplusemmc_available")
if available == "true" and self.flash_type == "norplusemmc":
self.__process_board_flash("norplusemmc", board_section, machid, images)
self.__process_board_flash_emmc("norplusemmc", board_section, machid, images)
except ConfigParserError, e:
error("error getting board info in section '%s'" % board_section, e)
def main_bconf(self, flash_type, images_dname, out_fname, brdconfig):
"""Start the packing process, using board config.
flash_type -- string, indicates flash type, 'nand' or 'nor' or 'emmc' or 'norplusnand'
images_dname -- string, name of images directory
out_fname -- string, output file path
"""
self.flash_type = flash_type
self.images_dname = images_dname
self.img_fname = out_fname
self.__create_fnames()
try:
os.unlink(self.scr_fname)
except OSError, e:
pass
try:
bconf_fname = os.path.join(images_dname, brdconfig)
bconf_fp = open(bconf_fname)
self.bconf = ConfigParser()
self.bconf.readfp(bconf_fp)
bconf_fp.close()
except IOError, e:
error("error reading board configuration file", e)
except ConfigParserError, e:
error("error parsing board configuration file", e)
images = []
for section in self.bconf.sections():
self.__process_board(section, images)
images.insert(0, ImageInfo("script", "flash.scr", "script"))
self.__mkimage(images)
def main(self, flinfo, images_dname, out_fname, part_fname, fconf_fname, ipq_nand):
"""Start the packing process.
flinfo -- FlashInfo object, containing flash parameters
images_dname -- string, name of images directory
out_fname -- string, output file path
part_fname -- string, partition file path
fconf_fname -- string, flash confing file path
ipq_nand -- bool, indicates whether this is an IPQ device
"""
self.flinfo = flinfo
self.images_dname = images_dname
self.img_fname = out_fname
self.ipq_nand = ipq_nand
self.__create_fnames()
if self.flinfo.type == "nand":
script = NandScript(self.flinfo, self.ipq_nand)
elif self.flinfo.type == "nor" or self.flinfo.type == "norplusnand":
script = NorScript(self.flinfo)
elif self.flinfo.type == "emmc":
script = EmmcScript(self.flinfo)
else:
error("Invalid flash type specified. It should be 'nand' or 'nor' or 'norplusnand'")
if not os.path.isabs(part_fname):
part_fname = os.path.join(self.images_dname, part_fname)
if not os.path.isabs(fconf_fname):
self.fconf_fname = os.path.join(self.images_dname, fconf_fname)
mibib = MIBIB(part_fname, self.flinfo.pagesize, self.flinfo.blocksize,
self.flinfo.chipsize)
self.partitions = mibib.get_parts()
script.echo("", verbose=True)
script.start_activity("Check environment:")
script.check_isset("imgaddr")
script.check_isset("machid")
script.finish_activity()
try:
info_fp = open(self.fconf_fname)
except IOError, e:
error("error opening info file '%s'" % self.fconf_fname, e)
try:
scr_fp = open(self.scr_fname, "wb")
except IOError, e:
error("error opening script file '%s'" % self.scr_fname, e)
images = []
self.__gen_script(scr_fp, info_fp, script, images)
try:
scr_fp.write(script.dumps())
except IOError, e:
error("error writing to script '%s'" % script_fp.name, e)
scr_fp.close() # Flush out all written commands
images.insert(0, ImageInfo("script", "flash.scr", "script"))
self.__mkimage(images)
class UsageError(Exception):
"""Indicates error in command arguments."""
pass
class ArgParser(object):
"""Class to parse command-line arguments."""
DEFAULT_PAGESIZE = 4096
DEFAULT_PAGES_PER_BLOCK = 64
DEFAULT_BLOCKS_PER_CHIP = 1024
DEFAULT_TYPE = "nand"
DEFAULT_PART_FNAME = "partition.mbn"
DEFAULT_FCONF_FNAME = "flash.conf"
def __init__(self):
self.__pagesize = None
self.__pages_per_block = None
self.__blocksize = None
self.__chipsize = None
self.__flash_type = None
self.flash_info = None
self.images_dname = None
self.ipq_nand = False
self.bconf = False
self.bconf_fname = "boardconfig"
self.part_fname = None
self.fconf_fname = None
self.genitb_fname = None
def __init_pagesize(self, pagesize):
"""Set the pagesize, from the command line argument.
pagesize -- string, flash page size
Raise UsageError, if pagesize is invalid
"""
if pagesize == None:
self.__pagesize = ArgParser.DEFAULT_PAGESIZE
else:
try:
self.__pagesize = int(pagesize)
except ValueError:
raise UsageError("invalid page size '%s'" % pagesize)
def __init_blocksize(self, pages_per_block):
"""Set the blocksize, from the command line argument.
pages_per_block -- string, no. of pages in a flash block
Raise UsageError, if pages_per_block is invalid
"""
if pages_per_block == None:
self.__blocksize = (self.__pagesize
* ArgParser.DEFAULT_PAGES_PER_BLOCK)
else:
try:
self.__blocksize = self.__pagesize * int(pages_per_block)
except ValueError:
raise UsageError("invalid block size '%s'" % self.__blocksize)
def __init_chipsize(self, blocks_per_chip):
"""Set the chipsize, from the command line argument.
blocks_per_chip -- string, no. of blocks in a flash chip
Raise UsageError, if chips_per_block is invalid
"""
if blocks_per_chip == None:
self.__chipsize = (self.__blocksize
* ArgParser.DEFAULT_BLOCKS_PER_CHIP)
else:
try:
self.__chipsize = self.__blocksize * int(blocks_per_chip)
except ValueError:
raise UsageError("invalid chip size '%s'" % self.__chipsize)
def __init_flash_info(self):
"""Set flash_info from the parsed flash paramaters."""
self.flash_info = FlashInfo(self.__flash_type,
self.__pagesize,
self.__blocksize,
self.__chipsize)
def __init_flash_type(self, flash_type):
"""Set the flash_type, from the command line argument.
flash_type -- string, nand or nor
Raise UsageError, if flash_type is invalid
"""
if flash_type == None:
self.__flash_type = ArgParser.DEFAULT_TYPE
elif flash_type in [ "nand", "nor", "emmc", "norplusnand", "norplusemmc" ]:
self.__flash_type = flash_type
else:
raise UsageError("invalid flash type '%s'" % flash_type)
def __init_part_fname(self, part_fname):
"""Set the partition filename from command line argument
part_fname -- string, the partition filename
"""
if part_fname == None:
self.part_fname = ArgParser.DEFAULT_PART_FNAME
else:
self.part_fname = part_fname
def __init_fconf_fname(self, fconf_fname):
"""Set the flash configuration filename from command line argument
fconf_fname -- string, the flash configuration filename
"""
if fconf_fname == None:
self.fconf_fname = ArgParser.DEFAULT_FCONF_FNAME
else:
self.fconf_fname = fconf_fname
def __init_out_fname(self, out_fname, images_dname, flash_type,
pagesize, pages_per_block, blocks_per_chip,
bconf):
"""Set the out_fname from the command line argument.
out_fname -- string, the output filename
images_dname -- string, the images dirname
flash_type -- string, the flash type
pagesize -- int, the flash page size in bytes
pages_per_block -- int, the flash pages per block
blocks_per_chip -- int, the flash blocks per chip
bconf -- bool, whether is board config mode
"""
if out_fname == None:
images_dname_norm = os.path.abspath(images_dname)
if bconf:
fmt = "%s-%s%simg"
self.out_fname = fmt % (images_dname_norm, flash_type,
os.path.extsep)
else:
fmt = "%s-%s-%d-%d-%d%simg"
self.out_fname = fmt % (images_dname_norm, flash_type,
pagesize, pages_per_block,
blocks_per_chip, os.path.extsep)
else:
if os.path.isabs(out_fname):
self.out_fname = out_fname
else:
images_dname_parent = os.path.dirname(images_dname)
self.out_fname = os.path.join(images_dname_parent, out_fname)
def __init_images_dname(self, args):
"""Set the images_dname from the command line argument.
args -- list of string, command line args after stripping options
"""
self.images_dname = args[0]
def parse(self, argv):
"""Start the parsing process, and populate members with parsed value.
argv -- list of string, the command line arguments
"""
flash_type = None
pagesize = None
pages_per_block = None
blocks_per_chip = None
ipq_nand = False
out_fname = None
part_fname = None
fconf_fname = None
bconf = False
bconf_fname = None
genitb_fname = None
try:
opts, args = getopt(argv[1:], "Bib:hp:t:o:c:m:f:F:M:")
except GetoptError, e:
raise UsageError(e.msg)
for option, value in opts:
if option == "-t":
flash_type = value
elif option == "-i":
ipq_nand = True
elif option == "-p":
pagesize = value
elif option == "-b":
pages_per_block = value
elif option == '-c':
blocks_per_chip = value
elif option == "-o":
out_fname = value
elif option == "-m":
part_fname = value
elif option == "-f":
fconf_fname = value
elif option == "-B":
bconf = True
elif option == "-F":
bconf_fname = value
elif option == "-M":
genitb_fname= value
if len(args) != 1:
raise UsageError("insufficient arguments")
self.__init_flash_type(flash_type)
self.__init_pagesize(pagesize)
self.__init_blocksize(pages_per_block)
self.__init_chipsize(blocks_per_chip)
self.__init_flash_info()
self.__init_images_dname(args)
self.__init_out_fname(out_fname, self.images_dname,
self.__flash_type, self.__pagesize,
self.__blocksize / self.__pagesize,
self.__chipsize / self.__blocksize,
bconf)
self.__init_part_fname(part_fname)
self.__init_fconf_fname(fconf_fname)
self.ipq_nand = ipq_nand
self.bconf = bconf
if bconf_fname != None:
self.bconf_fname = bconf_fname
self.genitb_fname = genitb_fname
def usage(self, msg):
"""Print error message and command usage information.
msg -- string, the error message
"""
print "pack: %s" % msg
print
print "Usage: pack [options] IDIR"
print
print "where IDIR is the path containing the images."
print
print " -t TYPE specifies partition type, 'nand' or 'nor',"
print " default is '%s'." % ArgParser.DEFAULT_TYPE
print " -p SIZE specifies the page size in bytes,"
print " default is %d." % ArgParser.DEFAULT_PAGESIZE
print " -b COUNT specifies the pages per block,"
print " default is %d." % ArgParser.DEFAULT_PAGES_PER_BLOCK
print " -c COUNT specifies the no. of blocks per chip"
print " default is %d." % ArgParser.DEFAULT_BLOCKS_PER_CHIP
print " -i specifies IPQ processor specific NAND layout"
print " switch, default disabled."
print " -m FILE specifies the partition filename"
print " default is '%s'." % ArgParser.DEFAULT_PART_FNAME
print " -f FILE specifies the flash configuration filename"
print " default is '%s'." % ArgParser.DEFAULT_FCONF_FNAME
print " -o FILE specifies the output filename"
print " default is IDIR-TYPE-SIZE-COUNT.img"
print " if the filename is relative, it is relative"
print " to the parent of IDIR."
print " -M specifies script name to build single ITB with multiple dtb's,"
print " default disabled."
print
print "NOTE: The above invocation method of pack is deprecated."
print "The new pack invocation uses a board config file to retrieve"
print "the board specific parameters. The new invocation is provided"
print "below."
print
print "Usage: pack [options] IDIR"
print
print "where IDIR is the path containing the images."
print
print " -t TYPE specifies partition type, 'nand' or 'nor', or 'emmc'"
print " default is '%s'." % ArgParser.DEFAULT_TYPE
print " -B specifies board config should be used, for"
print " flash parameters."
print " -F specifies board config file name should be used, for"
print " flash parameters. Defaults to 'boardconfig'"
print " -o FILE specifies the output filename"
print " default is IDIR-TYPE.img"
print " if the filename is relative, it is relative"
print " to the parent of IDIR."
print
print "Pack Version: %s" % version
def main():
"""Main script entry point.
Created to avoid polluting the global namespace.
"""
try:
parser = ArgParser()
parser.parse(sys.argv)
except UsageError, e:
parser.usage(e.args[0])
sys.exit(1)
if parser.genitb_fname:
prc = subprocess.Popen(['sh', parser.genitb_fname])
prc.wait()
if prc.returncode != 0:
print 'ERROR: unable to create ITB'
return prc.returncode
else:
print '...ITB binary created'
pack = Pack()
if parser.bconf:
pack.main_bconf(parser.flash_info.type, parser.images_dname,
parser.out_fname, parser.bconf_fname)
else:
pack.main(parser.flash_info, parser.images_dname,
parser.out_fname, parser.part_fname,
parser.fconf_fname, parser.ipq_nand)
class ArgParserTestCase(TestCase):
def setUp(self):
self.parser = ArgParser()
def test_defaults(self):
self.parser.parse(["pack.py", "itest"])
self.assertEqual(self.parser.images_dname, "itest")
fmt = "itest-%s-%d-%d-%d.img"
expected_fname = fmt % (ArgParser.DEFAULT_TYPE,
ArgParser.DEFAULT_PAGESIZE,
ArgParser.DEFAULT_PAGES_PER_BLOCK,
ArgParser.DEFAULT_BLOCKS_PER_CHIP)
self.assertEqual(self.parser.out_fname, expected_fname)
self.assertEqual(self.parser.ipq_nand, False)
self.assertEqual(self.parser.flash_info.type,
ArgParser.DEFAULT_TYPE)
self.assertEqual(self.parser.flash_info.pagesize,
ArgParser.DEFAULT_PAGESIZE)
self.assertEqual(self.parser.flash_info.blocksize,
ArgParser.DEFAULT_PAGES_PER_BLOCK
* ArgParser.DEFAULT_PAGESIZE)
self.assertEqual(self.parser.flash_info.chipsize,
ArgParser.DEFAULT_BLOCKS_PER_CHIP
* ArgParser.DEFAULT_PAGES_PER_BLOCK
* ArgParser.DEFAULT_PAGESIZE)
def test_ipq_flag(self):
self.parser.parse(["pack.py", "-i", "itest"])
self.assertEqual(self.parser.ipq_nand, True)
def test_invalid_flag(self):
self.assertRaises(UsageError, self.parser.parse,
["pack.py", "-x", "itest"])
def test_type_option(self):
self.parser.parse(["pack.py", "-t", "nor", "itest"])
self.assertEqual(self.parser.flash_info.type, "nor")
def test_invalid_type_option(self):
self.assertRaises(UsageError, self.parser.parse,
["pack.py", "-t", "abcd", "itest"])
def test_pagesize_option(self):
self.parser.parse(["pack.py", "-p", "2048", "itest"])
self.assertEqual(self.parser.flash_info.pagesize, 2048)
def test_invalid_pagesize_option(self):
self.assertRaises(UsageError, self.parser.parse,
["pack.py", "-p", "abcd", "itest"])
def test_pages_per_block_option(self):
self.parser.parse(["pack.py", "-b", "32", "itest"])
self.assertEqual(self.parser.flash_info.blocksize,
ArgParser.DEFAULT_PAGESIZE * 32)
def test_invalid_pages_per_block_option(self):
self.assertRaises(UsageError, self.parser.parse,
["pack.py", "-b", "abcd", "itest"])
def test_blocks_per_chip_option(self):
self.parser.parse(["pack.py", "-c", "512", "itest"])
self.assertEqual(self.parser.flash_info.chipsize,
ArgParser.DEFAULT_PAGESIZE
* ArgParser.DEFAULT_PAGES_PER_BLOCK
* 512)
def test_out_fname_rel_option(self):
self.parser.parse(["pack.py", "-o", "abcd", "/tmp/test/itest"])
self.assertEqual(self.parser.out_fname, "/tmp/test/abcd")
def test_out_fname_abs_option(self):
self.parser.parse(["pack.py", "-o", "/tmp/abcd", "/tmp/test/itest"])
self.assertEqual(self.parser.out_fname, "/tmp/abcd")
def test_partition_option(self):
self.parser.parse(["pack.py", "-m", "abcd", "/tmp/test/itest"])
self.assertEqual(self.parser.part_fname, "abcd")
def test_flash_conf_option(self):
self.parser.parse(["pack.py", "-f", "abcd", "/tmp/test/itest"])
self.assertEqual(self.parser.fconf_fname, "abcd")
class PackTestCase(TestCase):
def setUp(self):
self.pack = Pack()
blocksize = (ArgParser.DEFAULT_PAGESIZE
* ArgParser.DEFAULT_PAGES_PER_BLOCK)
chipsize = blocksize * ArgParser.DEFAULT_BLOCKS_PER_CHIP
self.flinfo = FlashInfo(ArgParser.DEFAULT_TYPE,
ArgParser.DEFAULT_PAGESIZE,
blocksize, chipsize)
self.img_dname = mkdtemp()
self.img_fname = self.img_dname + ".img"
self.part_fname = "partition.mbn"
self.fconf_fname = "flash.conf"
sbl1_fp = open(os.path.join(self.img_dname, "sbl1.mbn"), "w")
sbl1_fp.write("#" * blocksize * 2)
sbl1_fp.close()
self.__create_partition_mbn(blocksize, chipsize)
def __create_partition_mbn(self, blocksize, chipsize):
part_fname = os.path.join(self.img_dname, self.part_fname)
mibib = MIBIB(part_fname, ArgParser.DEFAULT_PAGESIZE, blocksize,
chipsize)
offset = 0
part_size = 2 * blocksize
mibib.add_part(PartInfo("0:SBL1", offset, part_size))
offset += part_size
part_size = 2 * blocksize
mibib.add_part(PartInfo("0:MIBIB", offset, part_size))
offset += part_size
part_size = 1 * blocksize
mibib.add_part(PartInfo("0:SBL2", offset, part_size))
offset += part_size
part_size = None
mibib.add_part(PartInfo("0:FS", offset, part_size))
mibib.write()
def __mkconf(self, conf_str):
conf_fname = os.path.join(self.img_dname, self.fconf_fname)
conf_fp = open(conf_fname, "w")
conf_fp.write(conf_str)
conf_fp.close()
def tearDown(self):
rmtree(self.img_dname)
try:
os.remove(self.img_fname)
except OSError:
pass
def test_simple(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
self.assertEqual(os.path.exists(self.img_fname), True)
def test_missing_conf(self):
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_nand_layout(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
layout = sbl
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=True)
self.assertEqual(os.path.exists(self.img_fname), True)
def test_invalid_layout(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
layout = abcd
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=True)
def test_inconsistent_layout(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
layout = sbl
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_invalid_filename(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl10.mbn
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_special_chars_in_filename(self):
self.__mkconf("""
[slash]
partition = 0:SBL1
filename = sb\\l1.mbn
""")
sbl1_fp = open(os.path.join(self.img_dname, "sb\\l1.mbn"), "w")
sbl1_fp.write("abcdef")
sbl1_fp.close()
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
self.assertEqual(os.path.exists(self.img_fname), True)
def __get_images(self):
mkimage_output = subprocess.check_output(["mkimage", "-l", self.img_fname])
return re.findall(r"Image \d+ \((.*)\)", mkimage_output)
def test_multi_image(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
[sbl2]
partition = 0:MIBIB
filename = partition.mbn
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
count = len(self.__get_images())
self.assertEqual(count, 3)
def test_include(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
include = no
[sbl2]
partition = 0:MIBIB
filename = partition.mbn
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
images = self.__get_images()
print images
self.assertTrue("sbl2" in images)
self.assertTrue("sbl1" not in images)
def test_yaffs_yes(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
yaffs = yes
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
def test_yaffs_no(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
yaffs = no
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
def test_yaffs_invalid(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
yaffs = abcd
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_invalid_partition(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL5
filename = sbl1.mbn
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_img_larger_than_partition(self):
self.__mkconf("""
[sbl2]
partition = 0:SBL2
filename = sbl1.mbn
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
def test_machid_in_hex(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
if_machid = 0x152
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
self.assertEqual(os.path.exists(self.img_fname), True)
def test_machid_in_dec(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
if_machid = 256
""")
self.pack.main(self.flinfo, self.img_dname, self.img_fname,
self.part_fname, self.fconf_fname, ipq_nand=False)
self.assertEqual(os.path.exists(self.img_fname), True)
def test_machid_invalid(self):
self.__mkconf("""
[sbl1]
partition = 0:SBL1
filename = sbl1.mbn
if_machid = xyz
""")
self.assertRaises(SystemExit,
self.pack.main,
self.flinfo,
self.img_dname,
self.img_fname,
self.part_fname,
self.fconf_fname,
ipq_nand=False)
if __name__ == "__main__":
main()