flipperzero-firmware/scripts/flipper/assets/obdata.py

#!/usr/bin/env python3

import logging
import struct

from enum import Enum
from dataclasses import dataclass
from typing import Tuple
from array import array


class OBException(ValueError):
    pass


@dataclass
class OBParams:
    word_idx: int
    bits: Tuple[int, int]
    name: str


_OBS_descr = (
    OBParams(0, (0, 8), "RDP"),
    OBParams(0, (8, 9), "ESE"),
    OBParams(0, (9, 12), "BOR_LEV"),
    OBParams(0, (12, 13), "nRST_STOP"),
    OBParams(0, (13, 14), "nRST_STDBY"),
    OBParams(0, (14, 15), "nRSTSHDW"),
    OBParams(0, (15, 16), "UNUSED1"),
    OBParams(0, (16, 17), "IWDGSW"),
    OBParams(0, (17, 18), "IWDGSTOP"),
    OBParams(0, (18, 19), "IWGDSTDBY"),  #  ST's typo: IWDGSTDBY
    OBParams(0, (18, 19), "IWDGSTDBY"),  #  ST's typo: IWDGSTDBY
    OBParams(0, (19, 20), "WWDGSW"),
    OBParams(0, (20, 23), "UNUSED2"),
    OBParams(0, (23, 24), "nBOOT1"),
    OBParams(0, (24, 25), "SRAM2PE"),
    OBParams(0, (25, 26), "SRAM2RST"),
    OBParams(0, (26, 27), "nSWBOOT0"),
    OBParams(0, (27, 28), "nBOOT0"),
    OBParams(0, (28, 29), "UNUSED3"),
    OBParams(0, (29, 32), "AGC_TRIM"),
    OBParams(1, (0, 9), "PCROP1A_STRT"),
    OBParams(1, (9, 32), "UNUSED"),
    OBParams(2, (0, 9), "PCROP1A_END"),
    OBParams(2, (9, 31), "UNUSED"),
    OBParams(2, (31, 32), "PCROP_RDP"),
    OBParams(3, (0, 8), "WRP1A_STRT"),
    OBParams(3, (8, 16), "UNUSED1"),
    OBParams(3, (16, 24), "WRP1A_END"),
    OBParams(3, (24, 32), "UNUSED2"),
    OBParams(4, (0, 8), "WRP1B_STRT"),
    OBParams(4, (8, 16), "UNUSED1"),
    OBParams(4, (16, 24), "WRP1B_END"),
    OBParams(4, (24, 32), "UNUSED2"),
    OBParams(5, (0, 9), "PCROP1B_STRT"),
    OBParams(5, (9, 32), "UNUSED"),
    OBParams(6, (0, 9), "PCROP1B_END"),
    OBParams(6, (9, 32), "UNUSED"),
    OBParams(13, (0, 14), "IPCCDBA"),
    OBParams(13, (14, 32), "UNUSED"),
    OBParams(14, (0, 8), "SFSA"),
    OBParams(14, (8, 9), "FSD"),
    OBParams(14, (9, 12), "UNUSED1"),
    OBParams(14, (12, 13), "DDS"),
    OBParams(14, (13, 32), "UNUSED2"),
    OBParams(15, (0, 18), "SBRV"),
    OBParams(15, (18, 23), "SBRSA"),
    OBParams(15, (23, 24), "BRSD"),
    OBParams(15, (24, 25), "UNUSED1"),
    OBParams(15, (25, 30), "SNBRSA"),
    OBParams(15, (30, 31), "NBRSD"),
    OBParams(15, (31, 32), "C2OPT"),
)


_OBS = dict((param.name, param) for param in _OBS_descr)


@dataclass
class EncodedOBValue:
    value: int
    mask: int
    params: OBParams


class OptionByte:
    class OBMode(Enum):
        IGNORE = 0
        READ = 1
        READ_WRITE = 2

        @classmethod
        def from_str(cls, value):
            if value == "r":
                return cls.READ
            elif value == "rw":
                return cls.READ_WRITE
            else:
                raise OBException(f"Unknown OB check mode '{value}'")

    def __init__(self, obstr):
        parts = obstr.split(":")
        if len(parts) != 3:
            raise OBException(f"Invalid OB value definition {obstr}")
        self.name = parts[0]
        self.value = int(parts[1], 16)
        self.mode = OptionByte.OBMode.from_str(parts[2].strip())
        self.descr = _OBS.get(self.name, None)
        if self.descr is None:
            raise OBException(f"Missing OB descriptor for {self.name}")

    def encode(self):
        startbit, endbit = self.descr.bits
        value_mask = 2 ** (endbit - startbit) - 1
        value_corrected = self.value & value_mask

        value_shifted = value_corrected << startbit
        value_mask_shifted = value_mask << startbit
        return EncodedOBValue(value_shifted, value_mask_shifted, self)

    def __repr__(self):
        return f"<OB {self.name}, 0x{self.value:x}, {self.mode} at 0x{id(self):X}>"


@dataclass
class ObReferenceValues:
    reference: bytes
    compare_mask: bytes
    write_mask: bytes


class ObReferenceValuesGenerator:
    def __init__(self):
        self.compare_mask = array("I", [0] * 16)
        self.write_mask = array("I", [0] * 16)
        self.ref_values = array("I", [0] * 16)

    def __repr__(self):
        return (
            f"<OBRefs REFS=[{' '.join(hex(v) for v in self.ref_values)}] "
            f"CMPMASK=[{' '.join(hex(v) for v in self.compare_mask)}] "
            f"WRMASK=[{' '.join(hex(v) for v in self.write_mask)}] "
        )

    def export_values(self):
        export_cmpmask = array("I")
        for value in self.compare_mask:
            export_cmpmask.append(value)
            export_cmpmask.append(value)
        export_wrmask = array("I")
        for value in self.write_mask:
            export_wrmask.append(value)
            export_wrmask.append(value)
        export_refvals = array("I")
        for cmpmask, refval in zip(self.compare_mask, self.ref_values):
            export_refvals.append(refval)
            export_refvals.append((refval ^ 0xFFFFFFFF) & cmpmask)
        return export_refvals, export_cmpmask, export_wrmask

    def export(self):
        return ObReferenceValues(*map(lambda a: a.tobytes(), self.export_values()))

    def apply(self, ob):
        ob_params = ob.descr
        encoded_ob = ob.encode()
        self.compare_mask[ob_params.word_idx] |= encoded_ob.mask
        self.ref_values[ob_params.word_idx] |= encoded_ob.value
        if ob.mode == OptionByte.OBMode.READ_WRITE:
            self.write_mask[ob_params.word_idx] |= encoded_ob.mask


class OptionBytesData:
    def __init__(self, obfname):
        self.obs = list()
        with open(obfname, "rt") as obfin:
            self.obs = list(
                OptionByte(line) for line in obfin if not line.startswith("#")
            )

    def gen_values(self):
        obref = ObReferenceValuesGenerator()
        converted_refs = list(obref.apply(ob) for ob in self.obs)
        return obref


def main():
    with open("../../../../logs/obs.bin", "rb") as obsbin:
        ob_sample = obsbin.read(128)
        ob_sample_arr = array("I", ob_sample)
    print(ob_sample_arr)

    obd = OptionBytesData("../../ob.data")
    print(obd.obs)
    # print(obd.gen_values().export())
    ref, mask, wrmask = obd.gen_values().export_values()
    for idx in range(len(ob_sample_arr)):
        real_masked = ob_sample_arr[idx] & mask[idx]
        print(
            f"#{idx}: ref {ref[idx]:08x} real {real_masked:08x} ({ob_sample_arr[idx]:08x} & {mask[idx]:08x}) match {ref[idx]==real_masked}"
        )

    # print(ob_sample)


if __name__ == "__main__":
    main()
[FL-2269] Core2 OTA (#1144) * C2OTA: wip * Update Cube to 1.13.3 * Fixed prio * Functional Core2 updater * Removed hardware CRC usage; code cleanup & linter fixes * Moved hardcoded stack params to copro.mk * Fixing CI bundling of core2 fw * Removed last traces of hardcoded radio stack * OB processing draft * Python scripts cleanup * Support for comments in ob data * Sacrificed SD card icon in favor of faster update. Waiting for Storage fix * Additional handling for OB mismatched values * Description for new furi_hal apis; spelling fixes * Rework of OB write, WIP * Properly restarting OB verification loop * Split update_task_workers.c * Checking OBs after enabling post-update mode * Moved OB verification before flashing * Removed ob.data for custom stacks * Fixed progress calculation for OB * Removed unnecessary OB mask cast Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com> 2022-04-27 15:53:48 +00:00			`#!/usr/bin/env python3`

			`import logging`
			`import struct`

			`from enum import Enum`
			`from dataclasses import dataclass`
			`from typing import Tuple`
			`from array import array`


			`class OBException(ValueError):`
			`pass`


			`@dataclass`
			`class OBParams:`
			`word_idx: int`
			`bits: Tuple[int, int]`
			`name: str`


			`_OBS_descr = (`
			`OBParams(0, (0, 8), "RDP"),`
			`OBParams(0, (8, 9), "ESE"),`
			`OBParams(0, (9, 12), "BOR_LEV"),`
			`OBParams(0, (12, 13), "nRST_STOP"),`
			`OBParams(0, (13, 14), "nRST_STDBY"),`
			`OBParams(0, (14, 15), "nRSTSHDW"),`
			`OBParams(0, (15, 16), "UNUSED1"),`
			`OBParams(0, (16, 17), "IWDGSW"),`
			`OBParams(0, (17, 18), "IWDGSTOP"),`
			`OBParams(0, (18, 19), "IWGDSTDBY"), # ST's typo: IWDGSTDBY`
			`OBParams(0, (18, 19), "IWDGSTDBY"), # ST's typo: IWDGSTDBY`
			`OBParams(0, (19, 20), "WWDGSW"),`
			`OBParams(0, (20, 23), "UNUSED2"),`
			`OBParams(0, (23, 24), "nBOOT1"),`
			`OBParams(0, (24, 25), "SRAM2PE"),`
			`OBParams(0, (25, 26), "SRAM2RST"),`
			`OBParams(0, (26, 27), "nSWBOOT0"),`
			`OBParams(0, (27, 28), "nBOOT0"),`
			`OBParams(0, (28, 29), "UNUSED3"),`
			`OBParams(0, (29, 32), "AGC_TRIM"),`
			`OBParams(1, (0, 9), "PCROP1A_STRT"),`
			`OBParams(1, (9, 32), "UNUSED"),`
			`OBParams(2, (0, 9), "PCROP1A_END"),`
			`OBParams(2, (9, 31), "UNUSED"),`
			`OBParams(2, (31, 32), "PCROP_RDP"),`
			`OBParams(3, (0, 8), "WRP1A_STRT"),`
			`OBParams(3, (8, 16), "UNUSED1"),`
			`OBParams(3, (16, 24), "WRP1A_END"),`
			`OBParams(3, (24, 32), "UNUSED2"),`
			`OBParams(4, (0, 8), "WRP1B_STRT"),`
			`OBParams(4, (8, 16), "UNUSED1"),`
			`OBParams(4, (16, 24), "WRP1B_END"),`
			`OBParams(4, (24, 32), "UNUSED2"),`
			`OBParams(5, (0, 9), "PCROP1B_STRT"),`
			`OBParams(5, (9, 32), "UNUSED"),`
			`OBParams(6, (0, 9), "PCROP1B_END"),`
			`OBParams(6, (9, 32), "UNUSED"),`
			`OBParams(13, (0, 14), "IPCCDBA"),`
			`OBParams(13, (14, 32), "UNUSED"),`
			`OBParams(14, (0, 8), "SFSA"),`
			`OBParams(14, (8, 9), "FSD"),`
			`OBParams(14, (9, 12), "UNUSED1"),`
			`OBParams(14, (12, 13), "DDS"),`
			`OBParams(14, (13, 32), "UNUSED2"),`
			`OBParams(15, (0, 18), "SBRV"),`
			`OBParams(15, (18, 23), "SBRSA"),`
			`OBParams(15, (23, 24), "BRSD"),`
			`OBParams(15, (24, 25), "UNUSED1"),`
			`OBParams(15, (25, 30), "SNBRSA"),`
			`OBParams(15, (30, 31), "NBRSD"),`
			`OBParams(15, (31, 32), "C2OPT"),`
			`)`


			`_OBS = dict((param.name, param) for param in _OBS_descr)`


			`@dataclass`
			`class EncodedOBValue:`
			`value: int`
			`mask: int`
			`params: OBParams`


			`class OptionByte:`
			`class OBMode(Enum):`
			`IGNORE = 0`
			`READ = 1`
			`READ_WRITE = 2`

			`@classmethod`
			`def from_str(cls, value):`
			`if value == "r":`
			`return cls.READ`
			`elif value == "rw":`
			`return cls.READ_WRITE`
			`else:`
			`raise OBException(f"Unknown OB check mode '{value}'")`

			`def __init__(self, obstr):`
			`parts = obstr.split(":")`
			`if len(parts) != 3:`
			`raise OBException(f"Invalid OB value definition {obstr}")`
			`self.name = parts[0]`
			`self.value = int(parts[1], 16)`
			`self.mode = OptionByte.OBMode.from_str(parts[2].strip())`
			`self.descr = _OBS.get(self.name, None)`
			`if self.descr is None:`
			`raise OBException(f"Missing OB descriptor for {self.name}")`

			`def encode(self):`
			`startbit, endbit = self.descr.bits`
			`value_mask = 2 ** (endbit - startbit) - 1`
			`value_corrected = self.value & value_mask`

			`value_shifted = value_corrected << startbit`
			`value_mask_shifted = value_mask << startbit`
			`return EncodedOBValue(value_shifted, value_mask_shifted, self)`

			`def __repr__(self):`
			`return f"<OB {self.name}, 0x{self.value:x}, {self.mode} at 0x{id(self):X}>"`


			`@dataclass`
			`class ObReferenceValues:`
			`reference: bytes`
			`compare_mask: bytes`
			`write_mask: bytes`


			`class ObReferenceValuesGenerator:`
			`def __init__(self):`
			`self.compare_mask = array("I", [0] * 16)`
			`self.write_mask = array("I", [0] * 16)`
			`self.ref_values = array("I", [0] * 16)`

			`def __repr__(self):`
			`return (`
			`f"<OBRefs REFS=[{' '.join(hex(v) for v in self.ref_values)}] "`
			`f"CMPMASK=[{' '.join(hex(v) for v in self.compare_mask)}] "`
			`f"WRMASK=[{' '.join(hex(v) for v in self.write_mask)}] "`
			`)`

			`def export_values(self):`
			`export_cmpmask = array("I")`
			`for value in self.compare_mask:`
			`export_cmpmask.append(value)`
			`export_cmpmask.append(value)`
			`export_wrmask = array("I")`
			`for value in self.write_mask:`
			`export_wrmask.append(value)`
			`export_wrmask.append(value)`
			`export_refvals = array("I")`
			`for cmpmask, refval in zip(self.compare_mask, self.ref_values):`
			`export_refvals.append(refval)`
			`export_refvals.append((refval ^ 0xFFFFFFFF) & cmpmask)`
			`return export_refvals, export_cmpmask, export_wrmask`

			`def export(self):`
			`return ObReferenceValues(*map(lambda a: a.tobytes(), self.export_values()))`

			`def apply(self, ob):`
			`ob_params = ob.descr`
			`encoded_ob = ob.encode()`
			`self.compare_mask[ob_params.word_idx] \|= encoded_ob.mask`
			`self.ref_values[ob_params.word_idx] \|= encoded_ob.value`
			`if ob.mode == OptionByte.OBMode.READ_WRITE:`
			`self.write_mask[ob_params.word_idx] \|= encoded_ob.mask`


			`class OptionBytesData:`
			`def __init__(self, obfname):`
			`self.obs = list()`
			`with open(obfname, "rt") as obfin:`
			`self.obs = list(`
			`OptionByte(line) for line in obfin if not line.startswith("#")`
			`)`

			`def gen_values(self):`
			`obref = ObReferenceValuesGenerator()`
			`converted_refs = list(obref.apply(ob) for ob in self.obs)`
			`return obref`


			`def main():`
			`with open("../../../../logs/obs.bin", "rb") as obsbin:`
			`ob_sample = obsbin.read(128)`
			`ob_sample_arr = array("I", ob_sample)`
			`print(ob_sample_arr)`

			`obd = OptionBytesData("../../ob.data")`
			`print(obd.obs)`
			`# print(obd.gen_values().export())`
			`ref, mask, wrmask = obd.gen_values().export_values()`
			`for idx in range(len(ob_sample_arr)):`
			`real_masked = ob_sample_arr[idx] & mask[idx]`
			`print(`
			`f"#{idx}: ref {ref[idx]:08x} real {real_masked:08x} ({ob_sample_arr[idx]:08x} & {mask[idx]:08x}) match {ref[idx]==real_masked}"`
			`)`

			`# print(ob_sample)`


			`if __name__ == "__main__":`
			`main()`