mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-24 19:53:08 +00:00
727f043747
* Scripts: option bytes check * Scripts: option bytes set * Scripts: openocd config * Scripts: increased readability, process IPCCBR option byte * Scripts: split dap_ob.py * Updater: process IPCCBR option byte * Scripts: move chip-related functions to chip definition * Scripts: freeze CPU registers * Scripts: flash programming routine * ob.py * otp.py * otp: handle errors correctly * downgrade to python 3.9 * correct type hinting * Scripts: fix path to ob.data Co-authored-by: あく <alleteam@gmail.com>
281 lines
9.6 KiB
Python
281 lines
9.6 KiB
Python
import logging
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import os
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import typing
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from flipper.utils.programmer import Programmer
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from flipper.utils.openocd import OpenOCD
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from flipper.utils.stm32wb55 import STM32WB55
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from flipper.assets.obdata import OptionBytesData
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class OpenOCDProgrammer(Programmer):
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def __init__(
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self,
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interface: str = "interface/cmsis-dap.cfg",
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port_base: typing.Union[int, None] = None,
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serial: typing.Union[str, None] = None,
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):
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super().__init__()
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config = {}
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config["interface"] = interface
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config["target"] = "target/stm32wbx.cfg"
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if not serial is None:
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if interface == "interface/cmsis-dap.cfg":
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config["serial"] = f"cmsis_dap_serial {serial}"
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elif "stlink" in interface:
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config["serial"] = f"stlink_serial {serial}"
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if not port_base is None:
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config["port_base"] = port_base
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self.openocd = OpenOCD(config)
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self.logger = logging.getLogger()
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def reset(self, mode: Programmer.RunMode = Programmer.RunMode.Run) -> bool:
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stm32 = STM32WB55()
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if mode == Programmer.RunMode.Run:
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stm32.reset(self.openocd, stm32.RunMode.Run)
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elif mode == Programmer.RunMode.Stop:
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stm32.reset(self.openocd, stm32.RunMode.Init)
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else:
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raise Exception("Unknown mode")
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return True
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def flash(self, address: int, file_path: str, verify: bool = True) -> bool:
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if not os.path.exists(file_path):
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raise Exception(f"File {file_path} not found")
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self.openocd.start()
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self.openocd.send_tcl(f"init")
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self.openocd.send_tcl(
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f"program {file_path} 0x{address:08x}{' verify' if verify else ''} reset exit"
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)
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self.openocd.stop()
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return True
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def _ob_print_diff_table(self, ob_reference: bytes, ob_read: bytes, print_fn):
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print_fn(
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f'{"Reference": <20} {"Device": <20} {"Diff Reference": <20} {"Diff Device": <20}'
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)
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# Split into 8 byte, word + word
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for i in range(0, len(ob_reference), 8):
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ref = ob_reference[i : i + 8]
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read = ob_read[i : i + 8]
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diff_str1 = ""
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diff_str2 = ""
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for j in range(0, len(ref.hex()), 2):
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byte_str_1 = ref.hex()[j : j + 2]
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byte_str_2 = read.hex()[j : j + 2]
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if byte_str_1 == byte_str_2:
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diff_str1 += "__"
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diff_str2 += "__"
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else:
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diff_str1 += byte_str_1
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diff_str2 += byte_str_2
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print_fn(
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f"{ref.hex(): <20} {read.hex(): <20} {diff_str1: <20} {diff_str2: <20}"
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)
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def option_bytes_validate(self, file_path: str) -> bool:
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# Registers
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stm32 = STM32WB55()
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# OpenOCD
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self.openocd.start()
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stm32.reset(self.openocd, stm32.RunMode.Init)
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# Generate Option Bytes data
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ob_data = OptionBytesData(file_path)
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ob_values = ob_data.gen_values().export()
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ob_reference = ob_values.reference
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ob_compare_mask = ob_values.compare_mask
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ob_length = len(ob_reference)
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ob_words = int(ob_length / 4)
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# Read Option Bytes
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ob_read = bytes()
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for i in range(ob_words):
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addr = stm32.OPTION_BYTE_BASE + i * 4
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value = self.openocd.read_32(addr)
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ob_read += value.to_bytes(4, "little")
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# Compare Option Bytes with reference by mask
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ob_compare = bytes()
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for i in range(ob_length):
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ob_compare += bytes([ob_read[i] & ob_compare_mask[i]])
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# Compare Option Bytes
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return_code = False
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if ob_reference == ob_compare:
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self.logger.info("Option Bytes are valid")
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return_code = True
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else:
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self.logger.error("Option Bytes are invalid")
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self._ob_print_diff_table(ob_reference, ob_compare, self.logger.error)
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# Stop OpenOCD
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stm32.reset(self.openocd, stm32.RunMode.Run)
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self.openocd.stop()
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return return_code
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def _unpack_u32(self, data: bytes, offset: int):
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return int.from_bytes(data[offset : offset + 4], "little")
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def option_bytes_set(self, file_path: str) -> bool:
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# Registers
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stm32 = STM32WB55()
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# OpenOCD
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self.openocd.start()
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stm32.reset(self.openocd, stm32.RunMode.Init)
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# Generate Option Bytes data
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ob_data = OptionBytesData(file_path)
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ob_values = ob_data.gen_values().export()
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ob_reference_bytes = ob_values.reference
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ob_compare_mask_bytes = ob_values.compare_mask
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ob_write_mask_bytes = ob_values.write_mask
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ob_length = len(ob_reference_bytes)
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ob_dwords = int(ob_length / 8)
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# Clear flash errors
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stm32.clear_flash_errors(self.openocd)
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# Unlock Flash and Option Bytes
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stm32.flash_unlock(self.openocd)
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stm32.option_bytes_unlock(self.openocd)
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ob_need_to_apply = False
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for i in range(ob_dwords):
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device_addr = stm32.OPTION_BYTE_BASE + i * 8
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device_value = self.openocd.read_32(device_addr)
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ob_write_mask = self._unpack_u32(ob_write_mask_bytes, i * 8)
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ob_compare_mask = self._unpack_u32(ob_compare_mask_bytes, i * 8)
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ob_value_ref = self._unpack_u32(ob_reference_bytes, i * 8)
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ob_value_masked = device_value & ob_compare_mask
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need_patch = ((ob_value_masked ^ ob_value_ref) & ob_write_mask) != 0
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if need_patch:
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ob_need_to_apply = True
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self.logger.info(
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f"Need to patch: {device_addr:08X}: {ob_value_masked:08X} != {ob_value_ref:08X}, REG[{i}]"
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)
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# Check if this option byte (dword) is mapped to a register
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device_reg_addr = stm32.option_bytes_id_to_address(i)
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# Construct new value for the OB register
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ob_value = device_value & (~ob_write_mask)
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ob_value |= ob_value_ref & ob_write_mask
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self.logger.info(f"Writing {ob_value:08X} to {device_reg_addr:08X}")
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self.openocd.write_32(device_reg_addr, ob_value)
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if ob_need_to_apply:
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stm32.option_bytes_apply(self.openocd)
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else:
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self.logger.info(f"Option Bytes are already correct")
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# Load Option Bytes
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# That will reset and also lock the Option Bytes and the Flash
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stm32.option_bytes_load(self.openocd)
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# Stop OpenOCD
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stm32.reset(self.openocd, stm32.RunMode.Run)
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self.openocd.stop()
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return True
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def otp_write(self, address: int, file_path: str) -> bool:
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# Open file, check that it aligned to 8 bytes
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with open(file_path, "rb") as f:
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data = f.read()
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if len(data) % 8 != 0:
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self.logger.error(f"File {file_path} is not aligned to 8 bytes")
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return False
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# Check that address is aligned to 8 bytes
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if address % 8 != 0:
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self.logger.error(f"Address {address} is not aligned to 8 bytes")
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return False
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# Get size of data
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data_size = len(data)
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# Check that data size is aligned to 8 bytes
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if data_size % 8 != 0:
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self.logger.error(f"Data size {data_size} is not aligned to 8 bytes")
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return False
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self.logger.debug(f"Writing {data_size} bytes to OTP at {address:08X}")
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self.logger.debug(f"Data: {data.hex().upper()}")
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# Start OpenOCD
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oocd = self.openocd
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oocd.start()
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# Registers
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stm32 = STM32WB55()
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try:
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# Check that OTP is empty for the given address
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# Also check that data is already written
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already_written = True
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for i in range(0, data_size, 4):
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file_word = int.from_bytes(data[i : i + 4], "little")
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device_word = oocd.read_32(address + i)
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if device_word != 0xFFFFFFFF and device_word != file_word:
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self.logger.error(
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f"OTP memory at {address + i:08X} is not empty: {device_word:08X}"
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)
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raise Exception("OTP memory is not empty")
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if device_word != file_word:
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already_written = False
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if already_written:
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self.logger.info(f"OTP memory is already written with the given data")
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return True
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self.reset(self.RunMode.Stop)
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stm32.clear_flash_errors(oocd)
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# Write OTP memory by 8 bytes
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for i in range(0, data_size, 8):
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word_1 = int.from_bytes(data[i : i + 4], "little")
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word_2 = int.from_bytes(data[i + 4 : i + 8], "little")
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self.logger.debug(
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f"Writing {word_1:08X} {word_2:08X} to {address + i:08X}"
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)
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stm32.write_flash_64(oocd, address + i, word_1, word_2)
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# Validate OTP memory
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validation_result = True
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for i in range(0, data_size, 4):
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file_word = int.from_bytes(data[i : i + 4], "little")
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device_word = oocd.read_32(address + i)
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if file_word != device_word:
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self.logger.error(
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f"Validation failed: {file_word:08X} != {device_word:08X} at {address + i:08X}"
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)
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validation_result = False
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finally:
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# Stop OpenOCD
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stm32.reset(oocd, stm32.RunMode.Run)
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oocd.stop()
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return validation_result
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