Nicolas Borla
BBR 1 Ebene
mbed-os/tools/targets/REALTEK_RTL8195AM.py
- Committer:
- borlanic
- Date:
- 2018-05-14
- Revision:
- 0:fbdae7e6d805
File content as of revision 0:fbdae7e6d805:
"""
Realtek Semiconductor Corp.
RTL8195A elf2bin script
"""
import sys, array, struct, os, re, subprocess
import hashlib
import shutil
import time
import binascii
import elftools
from tools.paths import TOOLS_BOOTLOADERS
from tools.toolchains import TOOLCHAIN_PATHS
# Constant Variables
TAG = 0x81950001
VER = 0x81950001
CAMPAIGN = binascii.hexlify('FFFFFFFFFFFFFFFF')
RAM2_HEADER = {
'tag': 0,
'ver': 0,
'timestamp': 0,
'size': 72,
'hash': 'FF',
'campaign': 'FF',
'crc32': 0xFFFFFFFF,
}
def format_number(number, width):
# convert to string
line = format(number, '0%dx' % (width))
if len(line) > width:
print "[ERROR] 0x%s cannot fit in width %d" % (line, width)
sys.exit(-1)
# cut string to list & reverse
line = [line[i:i+2] for i in range(0, len(line), 2)]
line.reverse()
return binascii.a2b_hex("".join(line))
def format_string(string):
return binascii.a2b_hex(string)
def write_number(value, width, output):
output.write(format_number(value, width))
def write_string(value, width, output):
output.write(format_string(value))
def append_image_file(image, output):
input = open(image, "rb")
output.write(input.read())
input.close()
def write_padding_bytes(output_name, size):
current_size = os.stat(output_name).st_size
padcount = size - current_size
if padcount < 0:
print "[ERROR] image is larger than expected size"
sys.exit(-1)
output = open(output_name, "ab")
output.write('\377' * padcount)
output.close()
def crc32_checksum(string):
return binascii.crc32(string) & 0xFFFFFFFF
def sha256_checksum(filename, block_size=65536):
sha256 = hashlib.sha256()
with open(filename, 'rb') as f:
for block in iter(lambda: f.read(block_size), b''):
sha256.update(block)
return sha256.hexdigest()
def epoch_timestamp():
epoch = int(time.time())
return epoch
def find_symbol(toolchain, mapfile, symbol):
ret = None
HEX = '0x0{,8}(?P<addr>[0-9A-Fa-f]{8})'
if toolchain == "GCC_ARM":
SYM = re.compile(r'^\s+' + HEX + r'\s+' + symbol + '\r?$')
elif toolchain in ["ARM_STD", "ARM", "ARM_MICRO"]:
SYM = re.compile(r'^\s+' + HEX + r'\s+0x[0-9A-Fa-f]{8}\s+Code.*\s+i\.' + symbol + r'\s+.*$')
elif toolchain == "IAR":
SYM = re.compile(r'^' + symbol + r'\s+' + HEX + '\s+.*$')
with open(mapfile, 'r') as infile:
for line in infile:
match = re.match(SYM, line)
if match:
ret = match.group("addr")
if not ret:
print "[ERROR] cannot find the address of symbol " + symbol
return 0
return int(ret,16) | 1
def _parse_load_segment_inner(image_elf):
with open(image_elf, "rb") as fd:
elffile = elftools.elf.elffile.ELFFile(fd)
for segment in elffile.iter_segments():
offset = segment['p_offset']
addr = segment['p_vaddr']
size = segment['p_filesz']
if (addr != 0 and size != 0 and segment['p_type'] == 'PT_LOAD'):
yield offset, addr, size
def parse_load_segment(toolchain, image_elf):
return list(_parse_load_segment_inner(image_elf))
def create_payload(image_elf, ram2_bin, entry, segment):
file_elf = open(image_elf, "rb")
file_bin = open(ram2_bin, "wb")
write_number(int(entry), 8, file_bin)
write_number(int(len(segment)), 8, file_bin)
write_number(0xFFFFFFFF, 8, file_bin)
write_number(0xFFFFFFFF, 8, file_bin)
for (offset, addr, size) in segment:
file_elf.seek(offset)
# write image header - size & addr
write_number(addr, 8, file_bin)
write_number(size, 8, file_bin)
# write load segment
file_bin.write(file_elf.read(size))
delta = size % 4
if delta != 0:
padding = 4 - delta
write_number(0x0, padding * 2, file_bin)
file_bin.close()
file_elf.close()
def create_daplink(image_bin, ram1_bin, ram2_bin):
# remove target binary file/path
if os.path.isfile(image_bin):
os.remove(image_bin)
else:
shutil.rmtree(image_bin)
RAM2_HEADER['tag'] = format_number(TAG, 8)
RAM2_HEADER['ver'] = format_number(VER, 8)
RAM2_HEADER['timestamp'] = format_number(epoch_timestamp(), 16)
RAM2_HEADER['size'] = format_number(os.stat(ram2_bin).st_size + 72, 8)
RAM2_HEADER['hash'] = format_string(sha256_checksum(ram2_bin))
RAM2_HEADER['campaign'] = format_string(CAMPAIGN)
output = open(image_bin, "wb")
append_image_file(ram1_bin, output)
append_image_file(ram2_bin, output)
output.seek(0xb000)
line = ""
for key in ['tag', 'ver', 'timestamp', 'size', 'hash', 'campaign']:
line += RAM2_HEADER[key]
output.write(RAM2_HEADER[key])
RAM2_HEADER['crc32'] = format_number(crc32_checksum(line), 8)
output.write(RAM2_HEADER['crc32'])
output.close()
# ----------------------------
# main function
# ----------------------------
def rtl8195a_elf2bin(t_self, image_elf, image_bin):
image_name = list(os.path.splitext(image_elf))[:-1]
image_map = ".".join(image_name + ['map'])
ram1_bin = os.path.join(TOOLS_BOOTLOADERS, "REALTEK_RTL8195AM", "ram_1.bin")
ram2_bin = ".".join(image_name) + '-payload.bin'
entry = find_symbol(t_self.name, image_map, "PLAT_Start")
segment = parse_load_segment(t_self.name, image_elf)
create_payload(image_elf, ram2_bin, entry, segment)
create_daplink(image_bin, ram1_bin, ram2_bin)