MatthiasQuintern/AT28C256-rpi-util
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refactor

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matthias@rpi 2023-10-27 02:41:58 +02:00
parent 824ecec13d
commit 1eb3435181
1 changed files with 178 additions and 103 deletions
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275
eeprom.py
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@ -19,7 +19,7 @@ gpio_r = [14, 15, 18, 23, 24, 25, 8, 7, 12, 16, 20, 21]
A = [
# 27, 22, 10, 9, 11, 5, 6, 13,
13, 6, 5, 11, 9, 10, 22, 27, # A0 - A7
2, 3, 4, 17, # A8 - A11
2, 3, 17, 4, # A8 - A11
23, 18, 15 # A12 - A14
]
@ -45,27 +45,18 @@ t_WP = 100 * 1e-9 # Write Pulse Width
t_DS = 50 * 1e-9 # Data Setup Time_CS = 0
t_DH = 0 # Data Hold Time
t_WPH = 50 * 1e-9 # Write Puls High
# t_WPH = 50 * 1e-4 # Write Pulse High !!!2*e5 longer than in Datasheet, since shorter high caused Problems with my Chip!!!
t_WPH = 50 * 1e-4 # Write Pulse High !!!2*e5 longer than in Datasheet, since shorter high caused Problems with my Chip!!!
PRINT_HEX = True
PRINT_BIN = False
PRINT_DEC = False
REP_CHAR = '\n'
def setup_address_control_pins():
# setup the pins
GPIO.setmode(GPIO.BCM)
for pin in controls:
GPIO.setup(pin, OUT, initial=1) # inverted, is 1 means disable
for pin in A:
GPIO.setup(pin, OUT, initial=0)
def setup_io_pins(IOdirection=OUT):
# OUT when writing and IN when reading
for pin in IO:
GPIO.setup(pin, IOdirection)
def cleanup():
GPIO.cleanup()
#
# UTILITY
#
def print_pins():
for i in range(len(A)):
print(f" A{i:02} - {A[i]}")
@ -76,25 +67,29 @@ def print_pins():
print(f" OEb - {OEb}")
def set_address(address: int, bits=8):
"""
set the address pins to the given value
"""
ad_bin = format(address, f"0{bits}b") # get the x-bit verion if the address, eg 12 -> 00001100
for j in range(bits):
# print("Address:", address, ad_bin, j)
if ad_bin[bits-1-j] == "0":
GPIO.output(A[j], 0)
elif ad_bin[bits-1-j] == "1":
GPIO.output(A[j], 1)
return ad_bin
def format_number(n, hex_digits=2, bin_digits=8, dec_digits=3, sep=" "):
s = ""
if not PRINT_HEX and not PRINT_BIN and not PRINT_DEC:
print("ERROR: echo: at least one of hex, bin, dec must be set to True")
exit(1)
if PRINT_HEX: s += "0x" + format(n, f'0{hex_digits}x') + sep
if PRINT_BIN: s += "0b" + format(n, f'0{bin_digits}b') + sep
if PRINT_DEC: s += format(n, f'0{dec_digits}') + sep
return s[:-len(sep)]
def get_bits(i: int):
def echo(address: int, value: int, message: str="", mode: str="-", end=None):
"""
return how many bits are needed to express the number in binary
print a message for a given address and value
"""
return len(bin(i)) - 2 # -2 for the "0x"
s = mode + " " "[" + format_number(address, hex_digits=4, bin_digits=15, dec_digits=5) \
+ "] {" + format_number(value, hex_digits=2, bin_digits=8, dec_digits=3) + "} " \
+ message
print(s, end=REP_CHAR if end is None else end)
def clear_line():
print(" " * 80, end='\r')
def convert_to_int(v):
@ -108,35 +103,71 @@ def convert_to_int(v):
return int(v)
def get_8_bit(l: list):
for i in range(len(l)):
l[i] = format(l[i], f"08b") # get the 8-bit bin value
return l
def erase(from_ad=0, to_ad=32767, **keys):
def get_n_bits(i: int):
"""
Write all 1 to the EEPROM
WEb controlled
return how many bits are needed to express the number in binary
"""
data = [0xff for i in range(from_ad, to_ad)]
write(data, from_ad=from_ad, **keys)
print("Erased EEPROM - Done!")
return
return len(bin(i)) - 2 # -2 for the "0x"
def write_byte(byte, address, verbose=True):
def get_bit(value: int, n: int):
"""
get the n-th bit (0-based)
"""
return value & (1 << n)
def read_binary_file(filepath, from_ad=0) -> list[int]:
with open(filepath, "rb") as file:
bindata = []
for byte in file.read():
bindata.append(byte)
return bindata[from_ad:]
#
# GPIO functions
#
def setup_io_pins(IOdirection=OUT):
# OUT when writing and IN when reading
for pin in IO:
GPIO.setup(pin, IOdirection)
def setup_pins():
# setup the pins
GPIO.setmode(GPIO.BCM)
for pin in controls:
GPIO.setup(pin, OUT, initial=1) # inverted, is 1 means disable
for pin in A:
GPIO.setup(pin, OUT, initial=0)
setup_io_pins(IN)
def cleanup():
GPIO.cleanup()
def set_address(address: int, bits=15):
"""
set the address pins to the given value
"""
for j in range(bits):
GPIO.output(A[j], get_bit(address, j))
def write_byte(byte: int, address: int, verbose=True, debug=False):
if verbose: echo(address, byte, mode="w")
GPIO.output(OEb, 1)
# setup the address
ad_bin = set_address(address, bits=15)
set_address(address, bits=15)
setup_io_pins(OUT)
# Setup Data
for j in range(8):
if byte[7-j] == "1":
bit = 1
else:
bit = 0
GPIO.output(IO[j], bit)
GPIO.output(IO[j], get_bit(byte, j))
# wait "Address" Setup Time
sleep(t_AS)
# wait "Data Setup Time"
@ -149,6 +180,12 @@ def write_byte(byte, address, verbose=True):
# wait until minimum write pulse width is reached. in theory, should be t_WP-t_DS but this caused problems
sleep(t_WP)
if debug:
clear_line()
echo(address, byte, mode="w", message="DEBUG: Press enter to continue")
input()
# End Write Pulse -> disable WEb
GPIO.output(WEb, 1)
GPIO.output(CEb, 1)
@ -177,11 +214,9 @@ def write_byte(byte, address, verbose=True):
timeout = 1e3
timeout += 1
GPIO.output(CEb, 1)
if verbose:
print(f"Writing:\t0b{format(address, '015b')} - 0b{byte} ||| 0x{format(address, '04x')} - {hex(int(byte, 2))}")
def read_byte(address):
def read_byte(address: int, verbose=True, debug=False) -> int:
GPIO.output(WEb, 1)
setup_io_pins(IN)
# set the address valid
@ -194,85 +229,111 @@ def read_byte(address):
# wait the "Address to Output Delay" until the output is valid
sleep(t_ACC)
byte = ""
byte = 0
for j in range(8):
if GPIO.input(IO[7-j]) == 1:
byte += "1"
else:
byte += "0"
byte |= (GPIO.input(IO[j]) << j)
if debug:
clear_line()
echo(address, byte, mode="r", message="DEBUG: Press enter to continue")
input()
# high in OEb and CEb -> disable
GPIO.output(OEb, 1)
GPIO.output(CEb, 1)
return int(byte, 2)
if verbose: echo(address, byte, mode="r")
return byte
def read(from_ad=0, to_ad=255, delay=1e-3, ignore=[0xff], verbose=True, single_step=False, compare=None):
#
# FUNCTIONS
#
def read(from_ad=0, to_ad=255, delay=1e-3, ignore=[0xff], debug=False, compare:list[int]=[], verbose=True) -> list[int]:
"""
from_ad: start address from where to read
to_ad: end address to read to
delay: delay between readings in s
verbose wether to print the reading
ignore list of values which are not printed
verbose: wether to print the reading
ignore: list of values which are not printed
"""
content = []
unequal = []
for i in range(from_ad, to_ad + 1):
byte = read_byte(i)
byte = read_byte(i, verbose=verbose, debug=debug)
content.append(byte)
if not compare and verbose and not byte in ignore:
print(f"Reading:\t0b{format(i, '015b')} - 0b{format(byte, '08b')} ||| 0x{format(i, '04x')} - 0x{format(byte, '02x')}")
elif compare:
if not compare[i] == byte:
if compare:
if not compare[i-from_ad] == byte:
unequal.append(i)
print(f"Unequal at Address 0x{format(i, '04x')} ||| File: 0x{format(compare[i], '02x')} vs EEPROM: 0x{format(byte, '02x')}")
echo(i, byte, "vs {" + format_number(compare[i-from_ad], hex_digits=2, bin_digits=8, dec_digits=3) + "} in file", mode="c", end="\n")
# wait artifical delay
sleep(delay)
if single_step:
input("Press Return to read the next byte")
clear_line()
if compare:
return unequal
return content
def write(content: list, from_ad=0, delay=0, single_step=False, verbose=True, check_written=True):
def write(content: list[int], from_ad=0, delay=0, debug=False, only_diff=True, verbose=True, check_written=True):
"""
Write a list if bytes to the eeprom.
WEb controlled
"""
or_content = content.copy()
content = get_8_bit(content)
to_ad = from_ad+len(content)-1
current_content = []
if only_diff:
print(f"Reading EEPROM and only writing deviating values")
current_content = read(from_ad, to_ad=to_ad, delay=delay, debug=debug, verbose=True)
assert len(content) == len(current_content)
failed = []
print(f"Writing to EEPROM: {len(content)} bytes from address {hex(from_ad)}.")
print(f"Writing to EEPROM: {len(content)} bytes from address {format(from_ad, '04x')} to {format(to_ad, '04x')}.")
for i in range(len(content)):
write_byte(content[i], from_ad + i, verbose=verbose)
if not only_diff or (only_diff and content[i] != current_content[i]):
write_byte(content[i], from_ad + i, verbose=True, debug=debug)
# wait artifical delay
sleep(delay)
if single_step:
input("Press Return to write the next byte")
clear_line()
print("Write to EEPROM - Done!")
if check_written:
print("Comparing EEPROM to file...")
failed = read(from_ad=from_ad, delay=delay, single_step=single_step, verbose=False, compare=or_content)
while len(failed) > 0:
failed = read(from_ad=from_ad, to_ad=to_ad, delay=delay, debug=debug, verbose=False, compare=content)
retries = 1
while len(failed) > 0 and retries > 0:
print(f"Found {len(failed)} bytes deviating from the file - retrying: {retries} times")
for ad in failed:
write_byte(content[ad], ad, verbose=verbose)
failed = read(from_ad=from_ad, delay=delay, single_step=single_step, verbose=False, compare=or_content)
write_byte(content[ad-from_ad], ad, verbose=verbose)
failed = read(from_ad=from_ad, to_ad=to_ad, delay=delay, debug=debug, verbose=False, compare=content)
retries -= 1
clear_line()
print("Comparing complete")
if len(failed) > 0:
print(f"Errors occured: {len(failed)} values could not be written:")
print("[", end="")
for ad in failed:
print(format(ad, '04x'), end=",")
print("]")
return
def get_bytes(filepath, from_ad=0):
with open(filepath, "rb") as file:
bindata = []
for byte in file.read():
bindata.append(byte)
return bindata[from_ad:]
def erase(from_ad=0, to_ad=32767, **keys):
"""
Write all 1 to the EEPROM
WEb controlled
"""
data = [0xff for i in range(from_ad, to_ad)]
write(data, from_ad=from_ad, **keys)
print("Erased EEPROM - Done!")
return
def main():
global REP_CHAR, PRINT_BIN, PRINT_DEC, PRINT_HEX
parser = argparse.ArgumentParser(
prog="AT28C256-EEPROM Writer",
description="Read and write from/to an AT28C256 EEPROM via the Raspberry Pi 4's GPIO pins\n2023 Matthias Quintern",
@ -284,32 +345,46 @@ def main():
parser.add_argument("--erase", "-e", dest="erase", action="store_true", default=False, help="erase the contents of the EEPROM")
parser.add_argument("--file", "-f", metavar="file", dest="file", action="store", default="", help="file for --write and --compare")
parser.add_argument("--from", metavar="start-address", dest="from_ad", action="store", default=0, type=convert_to_int, help="start at address x")
parser.add_argument("--to", metavar="end-address", dest="to_ad", action="store", default=32767, type=convert_to_int, help="end at address y (inclusive)")
parser.add_argument("--single-step", dest="single_step", action="store_true", default=False, help="single step the program")
parser.add_argument("--delay", dest="delay", metavar="delay", action="store", default=0, help="extra delay between cycles")
parser.add_argument("--to", metavar="end-address", dest="to_ad", action="store", default=0x7fff, type=convert_to_int, help="end at address y (inclusive)")
parser.add_argument("--debug", dest="debug", action="store_true", default=False, help="stop the program after setting up the address")
parser.add_argument("--delay", dest="delay", metavar="delay", action="store", type=float, default=0.0, help="extra delay between cycles")
parser.add_argument("--ignore", dest="ignore", metavar="numbers", action="store", nargs="*", type=convert_to_int, default=[0x100], help="ignore the numbers a b ... Default=[0xff]")
parser.add_argument("--verbose", dest="verbose", action="store_true", default=False, help="increase verbosity")
parser.add_argument("--verbose", "-v", dest="verbose", action="store_true", default=False, help="increase verbosity")
parser.add_argument("--print-pins", dest="print_pins", action="store_true", default=False, help="print the pin layout and exit")
parser.add_argument("--no-hex", dest="no_hex", action="store_true", default=False, help="Dont print values hex")
parser.add_argument("--bin", dest="bin", action="store_true", default=False, help="Print values in binary")
args = parser.parse_args()
if (args.write or args.compare) and not args.file:
parser.error('--file is required with --write and --compare')
if not args.verbose: REP_CHAR = '\r'
if args.no_hex: PRINT_HEX = False
if args.bin: PRINT_BIN = True
if args.print_pins:
print_pins()
exit(0)
if args.erase:
erase(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, single_step=args.single_step, verbose=args.verbose)
erase(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, debug=args.debug, verbose=args.verbose)
if args.write:
write(get_bytes(args.file, from_ad=args.from_ad), from_ad=args.from_ad, delay=args.delay, single_step=args.single_step, verbose=args.verbose)
write(read_binary_file(args.file, from_ad=args.from_ad), from_ad=args.from_ad, delay=args.delay, debug=args.debug, verbose=args.verbose)
if args.read:
read(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, single_step=args.single_step, verbose=args.verbose, ignore=args.ignore)
read(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, debug=args.debug, verbose=args.verbose, ignore=args.ignore)
if args.compare:
compare(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, single_step=args.single_step, verbose=args.verbose, ignore=args.ignore, compare=get_bytes(args.file))
unequal = read(from_ad=args.from_ad, to_ad=args.to_ad, delay=args.delay, debug=args.debug, verbose=args.verbose, ignore=args.ignore, compare=read_binary_file(args.file))
print(f"Found {len(unequal)} deviating values")
if __name__ == '__main__':
atexit.register(cleanup)
setup_address_control_pins()
setup_pins()
main()
# PRINT_BIN = True
# for i in range(15):
# address = (1 << i)
# PRINT_BIN = True
# set_address(address=address)
# input(f"DEBUG: {format_number(address, hex_digits=4, bin_digits=15)}")