Example #1
0
 def test_parse_nested(self):
     struct = BitStruct("foo", BitField("a", 3), Flag("b"), Padding(3),
                        Nibble("c"), Struct(
                            "bar",
                            Nibble("d"),
                            Bit("e"),
                        ))
     self.assertEqual(
         struct.parse(b"\xe1\x1f"),
         Container(a=7, b=False, bar=Container(d=15, e=1), c=8))
Example #2
0
 def test_parse(self):
     struct = BitStruct("foo",
         BitField("a", 3),
         Flag("b"),
         Padding(3),
         Nibble("c"),
         BitField("d", 5),
     )
     self.assertEqual(struct.parse(six.b("\xe1\x1f")),
         Container(a=7, b=False, c=8, d=31))
Example #3
0
 def test_parse_nested(self):
     struct = BitStruct("foo",
         BitField("a", 3),
         Flag("b"),
         Padding(3),
         Nibble("c"),
         Struct("bar",
             Nibble("d"),
             Bit("e"),
         )
     )
     self.assertEqual(struct.parse(six.b("\xe1\x1f")),
         Container(a=7, b=False, bar=Container(d=15, e=1), c=8))
Example #4
0
 def test(self):
     struct = BitStruct(
         "bitstruct",
         BitField("a", 3),
         Flag("b"),
         Padding(3),
         Nibble("c"),
         BitField("d", 5),
     )
     self.assertEqual(struct.parse(b"\xe1\x1f"),
                      Container(a=7)(b=False)(c=8)(d=31))
     self.assertEqual(struct.build(Container(a=7)(b=False)(c=8)(d=31)),
                      b"\xe1\x1f")
Example #5
0
 def test_nested(self):
     struct = BitStruct("bitstruct", BitField("a", 3), Flag("b"),
                        Padding(3), Nibble("c"),
                        Struct(
                            "sub",
                            Nibble("d"),
                            Bit("e"),
                        ))
     self.assertEqual(
         struct.parse(b"\xe1\x1f"),
         Container(a=7)(b=False)(c=8)(sub=Container(d=15)(e=1)))
     self.assertEqual(
         struct.build(
             Container(a=7)(b=False)(c=8)(sub=Container(d=15)(e=1))),
         b"\xe1\x1f")
Example #6
0
 def create_xrf_struct(self, control_record):
     shift = control_record.shift
     Int32s, BitStructWrapper = {
         "big": (Int32sb, lambda x: x),
         "little": (Int32sl, ByteSwapped),
     }[self.endianness]
     return FocusedSeq(
         "data",
         "data" / DictSegSeq(
             idx_field=Int32s,
             subcon=BitStructWrapper(
                 BitStruct(
                     "block" /
                     Default(BitsInteger(21 + shift, signed=True), 0),
                     "is_new" / Default(Flag, False),
                     "is_updated" / Default(Flag, False),
                     "offset" / Default(
                         ExprAdapter(
                             BitsInteger(9 - shift),
                             lambda obj, context: obj << shift,
                             lambda obj, context: obj >> shift,
                         ), 0),
                 )),
             block_size=127,  # Not counting the index field
             empty_item={},
             check_nonempty=lambda item: any([
                 item.block,
                 item.offset,
                 item.is_new,
                 item.is_updated,
             ]),
         ),
         Terminated,
     )
Example #7
0
 def _Status(self):
     return BitStruct(
         'CameraRunning' / Flag,
         'MainImuCalibRunning' / Flag,
         'AuxiliaryImuCalibRunning' / Flag,
         'AuxiliaryConnected' / Flag,
         'GpsRunning' / Flag,
         'RemoteGpsRunning' / Flag,
         'CamNumber01Error' / Flag,
         'CamNumber02Error' / Flag,
         'CamNumber03Error' / Flag,
         'CamNumber04Error' / Flag,
         'CamNumber05Error' / Flag,
         'CamNumber06Error' / Flag,
         'CamNumber07Error' / Flag,
         'CamNumber08Error' / Flag,
         'CamNumber09Error' / Flag,
         'CamNumber10Error' / Flag,
         'CamNumber11Error' / Flag,
         'CamNumber12Error' / Flag,
         'CamNumber13Error' / Flag,
         'CamNumber14Error' / Flag,
         'CamNumber15Error' / Flag,
         'CamNumber16Error' / Flag,
         # If new flags are defined, the padding should be adjusted.
         Padding(10),
     )
Example #8
0
def perf_event_header():
    return Embedded(Struct(None,
                           Enum(UNInt32("type"),
                                MMAP            = 1,
                                LOST            = 2,
                                COMM            = 3,
                                EXIT            = 4,
                                THROTTLE        = 5,
                                UNTHROTTLE      = 6,
                                FORK            = 7,
                                READ            = 8,
                                SAMPLE          = 9,
                                MMAP2           = 10,
                                RECORD_AUX      = 11,
                                ITRACE_START    = 12,
                                LOST_SAMPLES    = 13,
                                SWITCH          = 14,
                                SWITCH_CPU_WIDE = 15,
                                NAMESPACES      = 16,
                                KSYMBOL         = 17,
                                BPF_EVENT       = 18,
                                CGROUP          = 19,
                                HEADER_ATTR     = 64,
                                HEADER_EVENT_TYPE = 65,
                                TRACING_DATA    = 66,
                                HEADER_BUILD_ID = 67,
                                FINISHED_ROUND  = 68,
                                ID_INDEX        = 69,
                                AUXTRACE_INFO   = 70,
                                AUXTRACE        = 71,
                                AUXTRACE_ERROR  = 72,
                                THREAD_MAP      = 73,
                                CPU_MAP         = 74,
                                STAT_CONFIG     = 75,
                                STAT            = 76,
                                STAT_ROUND      = 77,
                                EVENT_UPDATE    = 78,
                                TIME_CONV       = 79,
                                HEADER_FEATURE  = 80,
                                COMPRESSED      = 81),
                           Embedded(BitStruct(None,
                                              Padding(1),
                                              Enum(BitField("cpumode", 7),
                                                   UNKNOWN = 0,
                                                   KERNEL = 1,
                                                   USER = 2,
                                                   HYPERVISOR = 3,
                                                   GUEST_KERNEL = 4,
                                                   GUEST_USER = 5),

                                              Flag("ext_reserved"),
                                              Flag("exact_ip"),
                                              Flag("mmap_data"),
                                              Padding(5))),
                           UNInt16("size"),
                           If(has_sample_id_all,
                                 Pointer(lambda ctx: ctx.start + ctx.size - 8,
                                   UNInt64("end_id"))),
                           Value("attr", lookup_event_attr)))
Example #9
0
def get_packet_header():

    return Struct(
        "sig_1" / Byte, "sig_2" / Byte, "sig_3" / Byte, "flag" /
        BitStruct("battery_h" / Byte, "battery_l" / Byte, "rr_error" / Byte,
                  "dummy_4" / Byte, "dummy_3" / Byte, "dummy_2" / Byte,
                  "dummy_1" / Byte, "rr_in_packet" / Byte),
        "packet_number" / Int32ul)
def EmbeddedBitStruct(name, *args, reversed=False):
    """
    Emulates BitStruct embedding:
        - for parsing, adds Computed accessor fields to the parent construct,
        - for building, Rebuild the bit struct using keys passed to the parent

    NOTE: This is a hack. Do not use unless you absolutely have to.
    """
    bit_struct = BitStruct(*args)

    if reversed:
        bit_struct = Reversed(bit_struct)

    bit_struct.__construct_doc__ = Embedded(Struct(*args))

    return (name / Rebuild(bit_struct, dict), ) + \
        tuple(i.name / Computed(this[name][i.name]) for i in args if i.name is not None)
 def generate_register_ctrl_meas(mode_enum: Bme280SensorMode, temperature_oversampling: int, # noqa: MC0001
                                 pressure_oversampling: int) -> None:
     # Set temperature oversampling
     if temperature_oversampling == 16:
         osrs_t = 0b101
     elif temperature_oversampling == 8:
         osrs_t = 0b100
     elif temperature_oversampling == 4:
         osrs_t = 0b011
     elif temperature_oversampling == 2:
         osrs_t = 0b010
     elif temperature_oversampling == 1:
         osrs_t = 0b001
     elif temperature_oversampling == 0:
         osrs_t = 0b000
     else:
         raise ConfigurationError(f"Pressure oversampling value {temperature_oversampling} is invalid!")
     # Set pressure oversampling
     if pressure_oversampling == 16:
         osrs_p = 0b101
     elif pressure_oversampling == 8:
         osrs_p = 0b100
     elif pressure_oversampling == 4:
         osrs_p = 0b011
     elif pressure_oversampling == 2:
         osrs_p = 0b010
     elif pressure_oversampling == 1:
         osrs_p = 0b001
     elif pressure_oversampling == 0:
         osrs_p = 0b000
     else:
         raise ConfigurationError(f"Pressure oversampling value {pressure_oversampling} is invalid!")
     # Determine operation mode
     if mode_enum is Bme280SensorMode.NORMAL:
         mode = 0b11
     elif mode_enum is Bme280SensorMode.FORCED:
         mode = 0b01
     elif mode_enum is Bme280SensorMode.SLEEP:
         mode = 0b00
     else:
         raise ConfigurationError(f"Measurement mode {mode_enum.name} is undefined!")
     # Concatenate bit sequences
     ctrl_meas_struct = BitStruct("osrs_t" / BitsInteger(3), "osrs_p" / BitsInteger(3), "mode" / BitsInteger(2))
     ctrl_meas_byte = ctrl_meas_struct.build({"osrs_t": osrs_t, "osrs_p": osrs_p, "mode": mode})
     return int.from_bytes(ctrl_meas_byte, endianness)
Example #12
0
def get_user_definition(settings):
    if (
        settings.system_options.user_code_length_6
        or settings.system_options.user_code_length_flexible
    ):
        code = ExprAdapter(
            Bytes(3),
            lambda obj, path: binascii.hexlify(obj)
            .decode()
            .rstrip("0")
            .replace("a", "0")
            or None,
            lambda obj, path: binascii.unhexlify(obj.replace("0", "a")),
        )
    else:
        code = ExprAdapter(
            Bytes(3),
            lambda obj, path: binascii.hexlify(obj)
            .decode()
            .rstrip("0")
            .replace("a", "0")[:4]
            or None,
            lambda obj, path: binascii.unhexlify((obj + obj[:2]).replace("0", "a")),
        )

    return Struct(
        "code" / code,
        "options"
        / BitsSwapped(
            BitStruct(
                "type" / Enum(BitsInteger(2), FullMaster=0x3, Master=0x2, Regular=0x0),
                "duress" / Flag,
                "bypass" / Flag,
                "arm_only" / Flag,
                "stay_instant_arming" / Flag,
                "force_arming" / Flag,
                "all_subsystems" / Flag,
            )
        ),
        "partitions" / BitsSwapped(Bitwise(StatusFlags(8))),
        "access" / BitStruct("level" / Nibble, "schedule" / Nibble),
        "access_options" / Bytes(1),
        "card_serial_number" / Bytes(3),
    )
 def generate_register_config(standby_time: float, irr_filter_coefficient: int) -> int:
     # Set the standby time
     if standby_time == 1000:
         t_sb = 0b101
     elif standby_time == 500:
         t_sb = 0b100
     elif standby_time == 250:
         t_sb = 0b011
     elif standby_time == 125:
         t_sb = 0b010
     elif standby_time == 62.5:
         t_sb = 0b001
     elif standby_time == 20:
         t_sb = 0b111
     elif standby_time == 10:
         t_sb = 0b110
     elif standby_time == 0.5:
         t_sb = 0b000
     else:
         raise ConfigurationError(f"Standby time value {standby_time} is invalid!")
     # Set irr filter coefficient
     if irr_filter_coefficient == 16:
         irr_filter = 0b100
     elif irr_filter_coefficient == 8:
         irr_filter = 0b011
     elif irr_filter_coefficient == 4:
         irr_filter = 0b010
     elif irr_filter_coefficient == 2:
         irr_filter = 0b001
     elif irr_filter_coefficient == 0:
         irr_filter = 0b000
     else:
         raise ConfigurationError(f"IRR filter coefficient value {irr_filter_coefficient} is invalid!")
     # Disable SPI Interface
     spi3wire_enable = 0
     # Concatenate bit sequences
     config_byte_struct = BitStruct("t_sb" / BitsInteger(3),
                                    "irr_filter" / BitsInteger(3),
                                    "spi3wire_enable" / BitsInteger(2))
     config_byte = config_byte_struct.build({"t_sb": t_sb,
                                             "irr_filter": irr_filter,
                                             "spi3wire_enable": spi3wire_enable})
     return int.from_bytes(config_byte, endianness)
Example #14
0
def ZoneFlags(count, start_index_from=1):
    return DictArray(count, start_index_from, BitStruct(
        "_index" / Computed(this._index + start_index_from),
        "generated_alarm" / Default(Flag, False),
        "presently_in_alarm" / Default(Flag, False),
        "activated_entry_delay" / Default(Flag, False),
        "activated_intellizone_delay" / Default(Flag, False),
        "bypassed" / Default(Flag, False),
        "shutted_down" / Default(Flag, False),
        "tx_delay" / Default(Flag, False),
        "supervision_trouble" / Default(Flag, False),
    ))
Example #15
0
    def _parse_symbol_section(self, section):
        sh_link = section.sh_link
        if self.b64:
            pass
        else:
            pass
        Symbol = Struct(
            "st_name" / self.Word,
            "st_value" / self.Addr,
            "st_size" / self.Word,
            "st_info" / BitStruct(
                "st_bind" / BitsInteger(4),
                "st_type" / BitsInteger(4),
            ),
            "st_other" / Int8ul,
            "symbol_name" / Computed(lambda ctx: self.get_string(sh_link, ctx.st_name)),
            "st_shndx" / self.Half,
            "section_name" / Computed(lambda ctx: defs.section_name(ctx.st_shndx)),
             "hidden" / Computed(lambda ctx: ctx.st_other in
                 (defs.SymbolVisibility.STV_HIDDEN, defs.SymbolVisibility.STV_INTERNAL)),
        )
        """
        typedef struct {
            Elf32_Word  st_name;
            Elf32_Addr  st_value;
            Elf32_Word  st_size;
            unsigned char   st_info;
            unsigned char   st_other;
            Elf32_Half  st_shndx;
        } Elf32_Sym;

        typedef struct {
            Elf64_Word  st_name;
            unsigned char   st_info;
            unsigned char   st_other;
            Elf64_Half  st_shndx;
            Elf64_Addr  st_value;
            Elf64_Xword st_size;
        } Elf64_Sym;
        """
        num_symbols = len(section.image) // Symbol.sizeof()
        for offset in range(0, len(section.image), Symbol.sizeof()):
            sym = Symbol.parse(section.image[offset : offset + Symbol.sizeof()])
            db_sym = Elf_Symbol(st_name = sym.st_name, st_value = sym.st_value, st_size = sym.st_size,
                st_bind = sym.st_info.st_bind, st_type = sym.st_info.st_type, st_other = sym.st_other,
                st_shndx = sym.st_shndx, symbol_name = sym.symbol_name, section_name = sym.section_name,
                hidden = sym.hidden)
            self.session.add(db_sym)
        #print(db_sym)
        self.session.commit()
        query = self.session.query(Elf_Symbol)
        aaa = query.filter(Elf_Symbol.section_name == "SHN_ABS").all()
        print("SECTIONS",  [a.symbol_name for a in aaa])
Example #16
0
 def _to_pixels(self):
     pixel_bytes = self.bits.value
     if self.depth == 32:
         for i in range(0, len(pixel_bytes), 4):
             (a, r, g, b) = (ord(x) for x in pixel_bytes[i:i+4])
             if a == 0 and (r > 0 or g > 0 or b > 0):
                 a = 255
             yield array("B", (r, g, b, a))
     
     elif self.depth == 16:
         raise NotImplementedError # TODO: depth 16
     
     elif self.depth <= 8:
         if self.colors:
             colors = [color.to_rgba_array() for color in self.colors]
         else:
             colors = default_colormap()
         length = len(pixel_bytes) * 8 / self.depth
         repeater = MetaRepeater(length, Bits("pixels", self.depth))
         pixels_construct = BitStruct("", repeater)
         for pixel in pixels_construct.parse(pixel_bytes).pixels:
             yield colors[pixel]
Example #17
0
def DirEntry(name):
    return Struct(
        name,
        Bytes("name", 8),
        Bytes("extension", 3),
        BitStruct("attributes", Flag("unused"), Flag("device"),
                  Flag("archive"), Flag("subDirectory"), Flag("volumeLabel"),
                  Flag("system"), Flag("hidden"), Flag("readonly")),
        # reserved
        Padding(10),
        ULInt16("timeRecorded"),
        ULInt16("dateRecorded"),
        ULInt16("firstCluster"),
        ULInt32("fileSize"))
Example #18
0
def LittleEndianBitStruct(*args):
    """Construct's bit structs read a byte at a time in the order they appear,
    reading each bit from most to least significant.  Alas, this doesn't work
    at all for a 32-bit bit field, because the bytes are 'backwards' in
    little-endian files.

    So this acts as a bit struct, but reverses the order of bytes before
    reading/writing, so ALL the bits are read from most to least significant.
    """
    return Buffered(
        BitStruct(*args),
        encoder=lambda s: s[::-1],
        decoder=lambda s: s[::-1],
        resizer=lambda _: _,
    )
Example #19
0
def ModuleTroubles(count, start_index_from=1):
    return DictArray(
        count=count,
        first_index=start_index_from,
        subcon=BitStruct(
            "_index" / Computed(this._index + start_index_from),
            "aux_trouble" / Flag,
            "battery_fail" / Flag,
            "ac_trouble" / Flag,
            "printer_trouble" / Flag,
            "fail_to_comm" / Flag,
            "tlm_trouble" / Flag,
            "rom_error" / Flag,
            "tamper" / Flag,
        ),
    )
Example #20
0
 def _parse_symbol_section(self, section):
     sh_link = section.sh_link
     symbols = []
     Symbol = Struct(
         "st_name" / self.Word,
         "st_value" / self.Addr,
         "st_size" / self.Word,
         "st_info" / BitStruct(
             "st_bind" / BitsInteger(4),
             "st_type" / BitsInteger(4),
         ),
         "st_other" / Int8ul,
         "symbol_name" /
         Computed(lambda ctx: self.get_string(sh_link, ctx.st_name)),
         "st_shndx" / self.Half,
     )
     symbol_cache = {}
     num_symbols = len(section.image) // Symbol.sizeof()
     for offset in range(0, len(section.image), Symbol.sizeof()):
         sym = Symbol.parse(section.image[offset:offset + Symbol.sizeof()])
         section_header = None
         if sym.st_shndx in defs.SpecialSections:
             section_name = defs.special_section_name(sym.st_shndx)
         else:
             if not sym.st_shndx in symbol_cache:
                 section_header = self.session.query(model.Elf_Section).\
                     filter(model.Elf_Section.index == sym.st_shndx).first()
                 if section_header:
                     section_name = section_header.section_name
                 else:
                     section_name = str(sym.st_shndx)
         db_sym = model.Elf_Symbol(
             st_name=sym.st_name,
             st_value=sym.st_value,
             st_size=sym.st_size,
             st_bind=sym.st_info.st_bind,
             st_type=sym.st_info.st_type,
             st_other=sym.st_other,
             st_shndx=sym.st_shndx,
             symbol_name=sym.symbol_name,
             section_name=section_name,
             access=section_header.sh_flags if section_header else 0)
         symbols.append(db_sym)
     self.session.bulk_save_objects(symbols)
     self.session.commit()
Example #21
0
class USBTokenPacket(USBPacket):
    """ Class representing a token packet. """

    FIELDS = {'crc5', 'crc_valid'}

    DATA_FORMAT = BitsSwapped(
        BitStruct(
            "device_address" / BitsInteger(7),
            "endpoint_number" / BitsInteger(4),
            "crc5" / BitsInteger(5),
        ))

    def validate(self):
        #parsed = self.parse_data()
        # TODO: validate crc5
        pass

    def generate_summary(self):
        return "{} token".format(self.pid.summarize())

    def summarize_data(self, summary_length_bytes=8):
        # NOTE: summary_length_bytes is ignored for a token packet.
        return "address={}, endpoint=0x{:02x}, direction={}".format(
            self.device_address, self.endpoint_number, self.direction)

    def get_detail_fields(self):

        fields = {
            'Length': '{} bytes'.format(len(self.get_raw_data())),
            'PID': '{} (0x{:02x})'.format(self.pid.name, self.pid.value),
            'Device': '0x{:02x}'.format(self.device_address),
            'Endpoint': '0x{:02x}'.format(self.endpoint_number),
            'CRC5': '0x{:02x}'.format(self.crc5)
        }

        return [(self.generate_summary(), fields)]

    def get_raw_data(self):
        # device_address, endpoint, and crc5 are included in self.data.
        return b''.join([bytes([self.pid]), self.data])
Example #22
0
class USBStartOfFrame(USBPacket):
    """ Class representing a USB start-of-frame (pseudo) packet. """

    FIELDS = {'frame_number', 'crc5', 'crc_valid'}

    DATA_FORMAT = BitsSwapped(
        BitStruct(
            "frame_number" / BitsInteger(11),
            "crc5" / BitsInteger(5),
        ))

    def validate(self):
        #parsed = self.parse_data()
        # TODO: validate crc5
        pass

    def generate_summary(self):
        return "{}".format(self.pid.summarize())

    def summarize_data(self, summary_length_bytes=8):
        # NOTE: summary_length_bytes is ignored for a token packet.
        return "frame={}".format(self.frame_number)

    def get_detail_fields(self):

        fields = {
            'Length': '{} bytes'.format(len(self.get_raw_data())),
            'PID': '{} (0x{:02x})'.format(self.pid.name, self.pid.value),
            'Frame Number': '{:0d}'.format(self.frame_number),
            'CRC5': '0x{:02x}'.format(self.crc5)
        }

        return [(self.generate_summary(), fields)]

    def get_raw_data(self):
        # frame number, and crc5 are included in self.data.
        return b''.join([bytes([self.pid]), self.data])
Example #23
0
def create_entry_chunk():
    a = Struct(
        DATEPACKED / BitStruct(
            "Isfut" / BitsInteger(length=1),
            "Reserved" / BitsInteger(length=5),
            "MicroSec" / BitsInteger(length=10),
            "MilliSec" / BitsInteger(length=10),
            "Second" / BitsInteger(length=6),
            "Minute" / BitsInteger(length=6),
            "Hour" / BitsInteger(length=5),
            DAY / RevBitsInteger(length=5),
            MONTH / RevBitsInteger(length=4),
            YEAR / RevBitsInteger(length=12),  # 64bit
        ),
        CLOSE / RevFormatField("<", "f"),
        OPEN / RevFormatField("<", "f"),
        HIGH / RevFormatField("<", "f"),
        LOW / RevFormatField("<", "f"),
        VOLUME / RevFormatField("<", "f"),  # 160
        "AUX1" / RevFormatField("<", "f"),
        "AUX2" / RevFormatField("<", "f"),
        "TERMINATOR" / RevFormatField("<", "f"),
    )
    return a
Example #24
0
def perf_event_header():
    return Embedded(
        Struct(
            None,
            Enum(UNInt32("type"),
                 MMAP=1,
                 LOST=2,
                 COMM=3,
                 EXIT=4,
                 THROTTLE=5,
                 UNTHROTTLE=6,
                 FORK=7,
                 READ=8,
                 SAMPLE=9,
                 MMAP2=10,
                 TRACING_DATA=66,
                 FINISHED_ROUND=68,
                 ID_INDEX=69,
                 AUXTRACE_INFO=70,
                 AUXTRACE=71,
                 AUXTRACE_ERROR=72),
            Embedded(
                BitStruct(
                    None, Padding(1),
                    Enum(BitField("cpumode", 7),
                         UNKNOWN=0,
                         KERNEL=1,
                         USER=2,
                         HYPERVISOR=3,
                         GUEST_KERNEL=4,
                         GUEST_USER=5), Flag("ext_reserved"), Flag("exact_ip"),
                    Flag("mmap_data"), Padding(5))), UNInt16("size"),
            If(
                has_sample_id_all,
                Pointer(lambda ctx: ctx.start + ctx.size - 8,
                        UNInt64("end_id"))), Value("attr", lookup_event_attr)))
 def parse_calibration_bytes(calibration_segment1: bytes, calibration_segment2: bytes) -> Bme280CalibrationData:
     # Parse bytes to container
     calibration_segment1_container = Bme280Reader.STRUCT_CALIBRATION1.parse(calibration_segment1)
     calibration_segment2_container = Bme280Reader.STRUCT_CALIBRATION2.parse(calibration_segment2)
     # Bit order from the sensor does not allow for parsing dig_H4 and dig_h5 inside of a BitStruct with BitsInteger
     # Required order is 0xE4,0xE5[right 4 Bits],0xE6,0xE5[left 4 Bits]
     reorder_struct = BitStruct("byte_0xE4" / BitsInteger(8), "bits_0xE5_right" / BitsInteger(4),
                                "byte_OxE6" / BitsInteger(8), "bits_0xE5_left" / BitsInteger(4))
     reorder_bitsegments = calibration_segment2_container.pop("misaligned_bitsegment")
     reorder_bitsegments.pop("_io")
     # Recreate bytes with correct order
     reordered_bytes = reorder_struct.build(reorder_bitsegments)
     # Parse the reordered bytes with a Bitstruct
     humidity_struct = BitStruct("dig_H4" / BitsInteger(12), "dig_H5" / BitsInteger(12))
     # Parse bytes to container
     humidity_container = humidity_struct.parse(reordered_bytes)
     # Unpack containers into dataclass
     calibration_dict = {**calibration_segment1_container, **calibration_segment2_container, **humidity_container}
     # Remove construct container _io object
     calibration_dict.pop("_io", None)
     return Bme280CalibrationData(**calibration_dict)
Example #26
0
INDEX_FIELD_ORDER_TYPE_STRUCT = Enum(ULInt16('field_order_type'),
                                     ASCENDING=0,
                                     DESCENDING=1,
                                     _default_='DESCENDING')

TABLE_DEFINITION_INDEX_STRUCT = Struct(
    'record_table_definition_index',
    # May be external_filename
    # if external_filename == 0, no external file index
    CString('external_filename'),
    If(lambda x: len(x['external_filename']) == 0,
       Const(Byte('index_mark'), 1)),
    CString('name'),
    Embed(
        BitStruct('flags', Padding(1), INDEX_TYPE_STRUCT, Padding(2),
                  Flag('NOCASE'), Flag('OPT'), Flag('DUP'))),
    ULInt16('field_count'),
    Array(
        lambda x: x['field_count'],
        Struct('index_field_propertly', ULInt16('field_number'),
               INDEX_FIELD_ORDER_TYPE_STRUCT)),
)

MEMO_TYPE_STRUCT = Enum(Flag('memo_type'), MEMO=0, BLOB=1)

TABLE_DEFINITION_MEMO_STRUCT = Struct(
    'record_table_definition_memo',
    # May be external_filename
    # if external_filename == 0, no external file index
    CString('external_filename'),
    If(lambda x: len(x['external_filename']) == 0, Const(Byte('memo_mark'),
Example #27
0
    )
)

ArapContentGet = Struct(
    "page" / Int8ul
)

ArapContent = Struct(
    "current_page" / Int8ul,
    "last_page" / Int8ul,
    "nodes" / DictAdapter(
        GreedyRange(
            ByteSwapped(
                BitStruct(
                    "sequence" / Bytewise(Int24ub),
                    "ivi" / BitsInteger(1),
                    "address" / BitsInteger(15),
                )
            )
        ),
        key=this.address,
        value=[this.ivi, this.sequence]
    )
)

DebugPayload = Struct(
    "subopcode" / EnumAdapter(Int8ul, DebugSubOpcode),
    "data" / Default(Switch(
        this.subopcode,
        {
            DebugSubOpcode.RSSI_THRESHOLD_SET: RssiThreshold,
Example #28
0
class Color(FixedObject):
    """A 32-bit RGB color value.
    Each component r, g, b has a value between 0 and 1023.

    However, Colors are considered equal if they have the same 8-bit value.
    """
    classID = 30
    _construct = BitStruct(
        "value",
        Padding(2),
        Bits("r", 10),
        Bits("g", 10),
        Bits("b", 10),
    )

    _construct_32_rgba = Struct(
        "",
        UBInt8("r"),
        UBInt8("g"),
        UBInt8("b"),
        UBInt8("alpha"),
    )

    def __init__(self, value):
        self.value = value

    def __eq__(self, other):
        return (isinstance(other, Color) and self.to_8bit() == other.to_8bit())

    def __ne__(self, other):
        return not self == other

    @classmethod
    def from_value(cls, value):
        return cls((value.r, value.g, value.b))

    def to_value(self):
        (r, g, b) = self.value
        return Container(r=r, g=g, b=b)

    @classmethod
    def from_8bit(self, r, g=None, b=None):
        if g is None and b is None:
            rgb = r
        else:
            rgb = (r, g, b)

        return Color((x << 2 for x in rgb))

    def to_8bit(self):
        """Returns value with components between 0-255."""
        return tuple(x >> 2 for x in self.value)

    def __repr__(self):
        return "%s(%s)" % (
            self.__class__.__name__,
            repr(self.value).strip("()"),
        )

    def to_rgba_array(self):
        (r, g, b) = self.to_8bit()
        return array('B', (r, g, b, 255))

    def to_argb_array(self):
        (r, g, b) = self.to_8bit()
        return bytearray((255, r, g, b))
Example #29
0
#!/usr/bin/env python

from construct import BitStruct, BitsInteger, Padding, Enum, Flag

SCB_ICSR = 0xe000ed04
scb_icsr = BitStruct(
                     "NMIPENDSET" / Flag,
                     Padding(2),
                     "PENDSVSET" / Flag,
                     "PENDSVCLR" / Flag,
                     "PENDSTSET" / Flag,
                     "PENDSTCLR" / Flag,
                     Padding(1),
                     "DEBUG" / Flag,
                     "ISRPENDING" / Flag,
                     "VECTPENDING" / BitsInteger(10),
                     "RETOBASE" / Flag,
                     Padding(2),
                     "VECTACTIVE" / BitsInteger(9)
                     )

SCB_SHCSR = 0xe000ed24
scb_shcsr = BitStruct(
                     Padding(13),
                      "USGFAULTENA" / Flag,
                      "BUSFAULTENA" / Flag,
                      "MEMFAULTENA" / Flag,
                      "SVCALLPENDED"/ Flag,
                      "BUSFAULTPENDED" / Flag,
                      "MEMFAULTPENDED" / Flag,
                      "USGFAULTPENDED" / Flag,
Example #30
0
                UBInt8("op"))

HELLO = Struct("hello",
               UBInt32("padding"))

CAPS_C = Struct("cells",
                UBInt16("pci"),
                UBInt32("cap"),
                UBInt16("DL_earfcn"),
                UBInt8("DL_prbs"),
                UBInt16("UL_earfcn"),
                UBInt8("UL_prbs"))

CAPS_RESPONSE = Struct("caps_response",
                       BitStruct("flags", Padding(30),
                                 Bit("ue_measure"),
                                 Bit("ue_report")),
                       UBInt32("nof_cells"),
                       Array(lambda ctx: ctx.nof_cells, CAPS_C))

UE_R = Struct("ues",
              UBInt16("pci"),
              Bytes("plmn_id", 4),
              UBInt16("rnti"),
              UBInt64("imsi"))

UE_REPORT_RESPONSE = Struct("ue_report_response",
                            UBInt32("nof_ues"),
                            Array(lambda ctx: ctx.nof_ues, UE_R))

CAPS_REQUEST = Struct("caps_request",
Example #31
0
    ERR=0xfe,
    EV=0xfd,
    SERV=0xfc,
))

DAQ = Struct(
    "odt" / Byte,
    "daq" / Byte,
    "data" / GreedyBytes,
)

ResourceType = BitStruct(
    Padding(2),
    "dbg" / Flag,
    "pgm" / Flag,
    "stim" / Flag,
    "daq" / Flag,
    Padding(1),
    "calpag" / Flag,
)

AddressGranularity = Enum(BitsInteger(2),
                          BYTE=0b00,
                          WORD=0b01,
                          DWORD=0b10,
                          RESERVED=0b11)

ByteOrder = Enum(BitsInteger(1), INTEL=0, MOTOROLA=1)

# byte-order dependent types
Int16u = IfThenElse(this._.byteOrder == ByteOrder.INTEL, Int16ul, Int16ub)
ConfigurationSet = Select(
    static=ConfigurationSetWithOptionalDhcpDisabled,
    dns=ConfigurationSetWithOptionalDhcpEnabledWithStaticDns,
    minimal=ConfigurationSetWithoutOptionalAutoDhcpEnabled,
)

ConfigurationStatus = Struct(
    "chip_revision_id" / Int8ul,
    Embedded(ConfigurationSetWithOptionalDhcpDisabled),
    "flags" / EnumAdapter(Int8ul, DhcpFlag),
    "status_code" / EnumAdapter(Int8ul, StatusCode),
)

ConnectionState = BitStruct(
    "conn_state" / EnumAdapter(BitsInteger(3), ConnState),
    "link_status" / EnumAdapter(BitsInteger(1), LinkStatus),
    "last_error" / EnumAdapter(BitsInteger(4), LastError))

# GATEWAY PACKETS MSG
PacketsStatus = Struct(
    "total_eth_rx_errors" / Int16ul,
    "total_eth_tx_errors" / Int16ul,
    "bandwidth" / Int16ul,
    "connection_state" / ConnectionState,
)

GatewayConfigParams = SwitchStruct(
    "subopcode" / EnumAdapter(Int8ul, GatewayConfigServerSubOpcode),
    "payload" / Switch(
        this.subopcode,
        {