Esempio n. 1
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def convert_vtable_to_offsets(vtable, length=None):
    """Convert a vtable into a sequence of offsets.

    Arguments:
        vtable: The address of the virtual method table.

    Options:
        length: The length of the vtable, if known.

    Returns:
        True if the data was successfully converted into offsets.
    """
    if length is None:
        length = vtable_length(vtable)
    if not length:
        _log(0, 'Address {:#x} is not a vtable', vtable)
        return False
    successful = True
    for address in idau.Addresses(vtable, length=length, step=idau.WORD_SIZE):
        # Handle addresses that are part of ALIGN directives
        if idaapi.is_align_insn(address) != 0:
            head = idaapi.get_item_head(address)
            idaapi.del_items(head)
        if not idc.op_plain_offset(address, 0, 0):
            _log(0, 'Could not change address {:#x} into an offset', address)
            successful = False
    return successful
Esempio n. 2
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def define_ke_task_desc(ea, task_desc_name):

    print "{}: 0x{:X}".format(task_desc_name, ea)

    sid = idaapi.get_struc_id("ke_task_desc")
    struct_size = idaapi.get_struc_size(sid)

    # undefined addr and define struct
    idaapi.del_items(ea, struct_size, idaapi.DELIT_DELNAMES)
    idaapi.create_struct(ea, struct_size, sid)
    idaapi.set_name(ea, task_desc_name, idaapi.SN_FORCE)
Esempio n. 3
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 def visit_expr(self, e):
     if e.op == idaapi.cot_call and \
         e.x.op == idaapi.cot_obj and \
         e.x.obj_ea == self.ea:
         arg = e.a[0]
         # print(f"arg={arg}, arg.op={arg.op}")
         t = idaapi.tinfo_t.get_stock(idaapi.STI_PCHAR)
         if arg.op == idaapi.cot_obj:
             prefix = idaapi.get_bytes(arg.obj_ea, 2)
             # print(prefix)
             if prefix[0] == 1:
                 log_level = chr(prefix[1])
                 idaapi.del_items(arg.obj_ea)
                 arg.obj_ea += 2
             idc.create_strlit(arg.obj_ea, idaapi.BADADDR)
             arg.type = t
             arg.exflags = idaapi.EXFL_CSTR
     return 0
Esempio n. 4
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def define_ke_state_handler(ea):
    # undefined addr and define struct
    sid = idaapi.get_struc_id("ke_state_handler")
    struct_size = idaapi.get_struc_size(sid)
    idaapi.del_items(ea, struct_size, idaapi.DELIT_DELNAMES)
    idaapi.create_struct(ea, struct_size, sid)

    msg_table = idaapi.get_dword(ea)
    msg_cnt = idaapi.get_word(ea + 4)

    print "msg_table: 0x{:X}, msg_cnt: {}".format(msg_table, msg_cnt)

    sid = idaapi.get_struc_id("ke_msg_handler")
    struct_size = idaapi.get_struc_size(sid)
    idaapi.del_items(msg_table, struct_size, idaapi.DELIT_DELNAMES)
    idaapi.create_struct(msg_table, struct_size, sid)

    idc.make_array(msg_table, msg_cnt)

    for i in range(msg_cnt):
        define_func(idaapi.get_dword(msg_table + 4 + i * 8))
Esempio n. 5
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 def __init__(self, ea):
     name = ea + get_member_by_name(get_struc(self.tid), "name").soff
     strlen = u.get_strlen(name)
     if strlen is None:
         # not a real vtable
         return
     self.size = self.size + strlen
     mangled = get_strlit_contents(name, strlen, 0)
     if mangled is None:
         # not a real function name
         return
     print("Mangled: " + mangled)
     demangled = demangle_name('??_R0' + mangled[1:], 0)
     if demangled:
         del_items(ea, self.size, DELIT_DELNAMES)
         if create_struct(ea, self.size, self.tid):
             print("  Made td at 0x%x: %s" % (ea, demangled))
             self.class_name = demangled
             return
     print("  FAIL :(")
     return
Esempio n. 6
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def rename(beg, ptr, make_funcs=True):
    base = beg
    pos = beg + 8  #skip header
    size = ptr.ptr(pos)
    pos += ptr.size
    end = pos + (size * ptr.size * 2)
    print("%x" % end)
    while pos < end:
        offset = ptr.ptr(pos + ptr.size)
        ptr.maker(pos)  #in order to get xrefs
        ptr.maker(pos + ptr.size)
        pos += ptr.size * 2
        ptr.maker(base + offset)
        func_addr = ptr.ptr(base + offset)
        if make_funcs == True:
            idaapi.del_items(func_addr, 1, idaapi.DELIT_SIMPLE)
            idaapi.add_func(func_addr)
        name_offset = idc.get_wide_dword(base + offset + ptr.size)
        name = idc.get_strlit_contents(base + name_offset)
        name = Utils.relaxName(name)
        Utils.rename(func_addr, name)
Esempio n. 7
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 def __init__(self, ea, vtable):
     del_items(ea, self.size, DELIT_DELNAMES)
     if create_struct(ea, self.size, self.tid):
         # Get adress of type descriptor from CompleteLocator
         print("Complete Object Locator at: 0x%x" % ea)
         offset = get_member_by_name(self.struc, "pTypeDescriptor").soff
         typeDescriptor = get_32bit(ea + offset) + u.x64_imagebase()
         print("Looking for type Descriptor at: 0x%x" % typeDescriptor)
         rtd = RTTITypeDescriptor(typeDescriptor)
         if rtd.class_name:
             print("Type Descriptor at: 0x%x" % typeDescriptor)
             offset = get_member_by_name(self.struc,
                                         "pClassDescriptor").soff
             classHierarchyDes = get_32bit(ea + offset) + u.x64_imagebase()
             rchd = RTTIClassHierarchyDescriptor(classHierarchyDes)
             # filter out None entries
             rchd.bases = filter(lambda x: x, rchd.bases)
             classes[strip(rtd.class_name)] = [strip(b) for b in rchd.bases]
             MakeNameEx(vtable, "vtable__" + strip(rtd.class_name),
                        SN_NOWARN)
         else:
             # if the RTTITypeDescriptor doesn't have a valid name for us to
             # read, then this wasn't a valid RTTICompleteObjectLocator
             MakeUnknown(ea, self.size, DOUNK_SIMPLE)
Esempio n. 8
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 def __init__(self, ea):
     print("Processing Class Hierarchy Descriptor at 0x%x" % ea)
     del_items(ea, get_struc_size(self.tid), DELIT_DELNAMES)
     if create_struct(ea, get_struc_size(self.tid), self.tid):
         baseClasses = get_32bit(
             ea + get_member_by_name(get_struc(
                 self.tid), "pBaseClassArray").soff) + u.x64_imagebase()
         nb_classes = get_32bit(
             ea +
             get_member_by_name(get_struc(self.tid), "numBaseClasses").soff)
         print("Baseclasses array at 0x%x" % baseClasses)
         # Skip the first base class as it is itself (could check)
         self.bases = []
         for i in range(1, nb_classes):
             baseClass = get_32bit(baseClasses + i * 4) + u.x64_imagebase()
             print("base class 0x%x" % baseClass)
             create_dword(baseClasses + i * 4, 4)
             op_offset(baseClasses + i * 4, -1, u.REF_OFF | REFINFO_RVA, -1,
                       0, 0)
             create_struct(baseClass, RTTIBaseClassDescriptor.size,
                           RTTIBaseClassDescriptor.tid)
             typeDescriptor = get_32bit(baseClass) + u.x64_imagebase()
             self.bases.append(
                 RTTITypeDescriptor(typeDescriptor).class_name)
Esempio n. 9
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def undefine(start, end):
    idaapi.del_items(start, idaapi.DELIT_SIMPLE, end - start)
Esempio n. 10
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 def make_arr(self, addr, arr_size, struc_size, type):
     res = idc.make_array(addr, arr_size)
     if res == False:
         idaapi.del_items(addr, arr_size*struc_size, idaapi.DELIT_SIMPLE)
         idc.SetType(addr, type)
         idc.make_array(addr, arr_size)
Esempio n. 11
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def load_file(f, neflags, format):

    print('# PS Vita Syscon Loader')

    # PS Vita Syscon Processor
    processor('rl78')

    # 0x0 - 0x80
    print('# Creating Vector Table Area 0')
    segment(f, 0x0, 0x80, 'VTA0', 'CODE', SEGPERM_READ | SEGPERM_EXEC)

    # 0x80 - 0xC0
    print('# Creating CALLT Table Area 0')
    segment(f, 0x80, 0xC0, 'CALLTTA0')

    for callt in xrange(0x20):
        address = 0x80 + (callt * 2)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)

    # 0xC0 - 0xC4
    print('# Creating Option Byte Area 0')
    segment(f, 0xC0, 0xC4, 'OBA0')

    ida.create_data(0xC0, FF_BYTE, 0x4, BADNODE)

    # 0xC4 - 0xCE
    print('# Creating On-chip Debug Security 0')
    segment(f, 0xC4, 0xCE, 'ODS0')

    ida.create_data(0xC4, FF_BYTE, 0xA, BADNODE)

    # 0xCE - 0x1000
    print('# Creating Program Area 0')
    segment(f, 0xCE, 0x1000, 'PA0', 'CODE', SEGPERM_READ | SEGPERM_EXEC)

    # 0x1000 - 0x1080
    print('# Creating Vector Table Area 1')
    segment(f, 0x1000, 0x1080, 'VTA1')

    # 0x1080 - 0x10C0
    print('# Creating CALLT Table Area 1')
    segment(f, 0x1080, 0x10C0, 'CALLTTA1')

    for callt in xrange(0x20):
        address = 0x1080 + (callt * 2)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)

    # 0x10C0 - 0x10C4
    print('# Creating Option Byte Area 1')
    segment(f, 0x10C0, 0x10C4, 'OBA1')

    ida.create_data(0x10C0, FF_BYTE, 0x4, BADNODE)

    # 0x10C4 - 0x10CE
    print('# Creating On-chip Debug Security 1')
    segment(f, 0x10C4, 0x10CE, 'ODS1')

    ida.create_data(0x10C4, FF_BYTE, 0xA, BADNODE)

    # 0x10CE - 0x60000
    print('# Creating Program Area 1')
    segment(f, 0x10CE, 0x60000, 'PA1', 'CODE', SEGPERM_READ | SEGPERM_EXEC)

    VTA = [
        'RST',
        'INTDBG',
        'INTWDTI',
        'INTLVI',
        'INTP0',
        'INTP1',
        'INTP2',
        'INTP3',
        'INTP4',
        'INTP5',
        'INTST2',
        'INTSR2',
        'INTSRE2',
        'INTDMA0',
        'INTDMA1',
        'INTST0',
        'INTSR0',
        'INTSRE0',
        'INTST1',
        'INTSR1',
        'INTSRE1',
        'INTIICA0',
        'INTTM00',
        'INTTM01',
        'INTTM02',
        'INTTM03',
        'INTAD',
        'INTRTC',
        'INTIT',
        'INTKR',
        'INTST3',
        'INTSR3',
        'INTTM13',
        'INTTM04',
        'INTTM05',
        'INTTM06',
        'INTTM07',
        'INTP6',
        'INTP7',
        'INTP8',
        'INTP9',
        'INTP10',
        'INTP11',
        'INTTM10',
        'INTTM11',
        'INTTM12',
        'INTSRE3',
        'INTMD',
        'INTIICA1',
        'INTFL',
        'INTDMA2',
        'INTDMA3',
        'INTTM14',
        'INTTM15',
        'INTTM16',
        'INTTM17',
        '',  # 0x70
        '',  # 0x72
        '',  # 0x74
        '',  # 0x76
        '',  # 0x78
        '',  # 0x7A
        '',  # 0x7C
        'BRK_I',
    ]

    # Create Additional Functions from VTA0
    address = 0x0
    for vec in VTA:
        function = ida.get_word(address)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)

        if vec != '':
            ida.set_name(address, vec, SN_NOCHECK | SN_NOWARN | SN_FORCE)

        if function:
            ida.create_insn(function)
            ida.add_func(function, BADADDR)
            ida.op_plain_offset(address, 0, 0)

        address += 2

    # Create Additional Functions from VTA1
    address = 0x1000
    for vec in VTA:
        function = ida.get_word(address)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)

        if vec != '':
            ida.set_name(address, vec, SN_NOCHECK | SN_NOWARN | SN_FORCE)

        if function:
            ida.create_insn(function)
            ida.add_func(function, BADADDR)
            ida.op_plain_offset(address, 0, 0)

        address += 2
    '''
    # 0x60000 - 0xEF000
    print('# Creating Guarded')
    segment(f, 0x60000, 0xEF000, 'GUARD')
    
    # Compress the segment
    ida.create_data(0x60000, FF_BYTE, 0x8F000, BADNODE)
    '''

    # 0xEF000 - 0xF0000
    print('# Creating Bootloader Flash Area')
    segment(f, 0xEF000, 0xF0000, 'BFA', 'CODE', SEGPERM_READ | SEGPERM_EXEC)

    # Bootloader/Flash Programming Areas
    for entry in xrange(0xEFFF0, 0xF0000, 0x4):
        ida.create_insn(entry)
        ida.add_func(entry, BADADDR)
        if entry == 0xEFFF8:
            ida.set_name(entry, 'FalshFirm', SN_NOCHECK | SN_NOWARN | SN_FORCE)

    # 0xF0000 - 0xF0800
    print('# Creating Special Function Registers 2')
    segment(f, 0xF0000, 0xF0800, 'SFR2')

    SFR2 = [
        (0xF0001, 0x1, 'ADM2', 'A/D converter mode register 2'),
        (0xF0011, 0x1, 'ADUL',
         'Conversion result comparison upper limit setting register'),
        (0xF0012, 0x1, 'ADLL',
         'Conversion result comparison lower limit setting register'),
        (0xF0013, 0x1, 'ADTES', 'A/D test register'),
        (0xF0030, 0x1, 'PU0', 'Pull-up resistor option register 0'),
        (0xF0031, 0x1, 'PU1', 'Pull-up resistor option register 1'),
        (0xF0033, 0x1, 'PU3', 'Pull-up resistor option register 3'),
        (0xF0034, 0x1, 'PU4', 'Pull-up resistor option register 4'),
        (0xF0035, 0x1, 'PU5', 'Pull-up resistor option register 5'),
        (0xF0036, 0x1, 'PU6', 'Pull-up resistor option register 6'),
        (0xF0037, 0x1, 'PU7', 'Pull-up resistor option register 7'),
        (0xF0038, 0x1, 'PU8', 'Pull-up resistor option register 8'),
        (0xF0039, 0x1, 'PU9', 'Pull-up resistor option register 9'),
        (0xF003A, 0x1, 'PU10', 'Pull-up resistor option register 10'),
        (0xF003B, 0x1, 'PU11', 'Pull-up resistor option register 11'),
        (0xF003C, 0x1, 'PU12', 'Pull-up resistor option register 12'),
        (0xF003E, 0x1, 'PU14', 'Pull-up resistor option register 14'),
        (0xF0040, 0x1, 'PIM0', 'Port input mode register 0'),
        (0xF0041, 0x1, 'PIM1', 'Port input mode register 1'),
        (0xF0044, 0x1, 'PIM4', 'Port input mode register 4'),
        (0xF0045, 0x1, 'PIM5', 'Port input mode register 5'),
        (0xF0048, 0x1, 'PIM8', 'Port input mode register 8'),
        (0xF004E, 0x1, 'PIM14', 'Port input mode register 14'),
        (0xF0050, 0x1, 'POM0', 'Port output mode register 0'),
        (0xF0051, 0x1, 'POM1', 'Port output mode register 1'),
        (0xF0054, 0x1, 'POM4', 'Port output mode register 4'),
        (0xF0055, 0x1, 'POM5', 'Port output mode register 5'),
        (0xF0057, 0x1, 'POM7', 'Port output mode register 7'),
        (0xF0058, 0x1, 'POM8', 'Port output mode register 8'),
        (0xF0059, 0x1, 'POM9', 'Port output mode register 9'),
        (0xF005E, 0x1, 'POM14', 'Port output mode register 14'),
        (0xF0060, 0x1, 'PMC0', 'Port mode control register 0'),
        (0xF0063, 0x1, 'PMC3', 'Port mode control register 3'),
        (0xF006A, 0x1, 'PMC10', 'Port mode control register 10'),
        (0xF006B, 0x1, 'PMC11', 'Port mode control register 11'),
        (0xF006C, 0x1, 'PMC12', 'Port mode control register 12'),
        (0xF006E, 0x1, 'PMC14', 'Port mode control register 14'),
        (0xF0070, 0x1, 'NFEN0', 'Noise filter enable register 0'),
        (0xF0071, 0x1, 'NFEN1', 'Noise filter enable register 1'),
        (0xF0072, 0x1, 'NFEN2', 'Noise filter enable register 2'),
        (0xF0073, 0x1, 'ISC', 'Input switch control register'),
    ]

    for (address, size, name, comment) in SFR2:
        flags = ida.get_flags_by_size(size)
        ida.create_data(address, flags, size, BADNODE)
        ida.set_name(address, name, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.set_cmt(address, comment, False)

    # 0xF0800 - 0xF1000
    print('# Creating Bootloader RAM')
    segment(f, 0xF0800, 0xF1000, 'BRAM')

    # 0xF1000 - 0xF3000
    print('# Creating Data Flash Memory')
    segment(f, 0xF1000, 0xF3000, 'EEPROM')

    # 0xF3000 - 0xF9F00
    print('# Creating Mirror')
    segment(f, 0xF3000, 0xF9F00, 'MIRROR', 'CODE', SEGPERM_READ | SEGPERM_EXEC)

    # 0xF9F00 - 0xFFEE0
    print('# Creating RAM')
    segment(f, 0xF9F00, 0xFFEE0, 'RAM')

    # 0xFFEE0 - 0xFFF00
    print('# Creating General-purpose Registers')
    segment(f, 0xFFEE0, 0xFFF00, 'GPR')

    GPR = ['X', 'A', 'C', 'B', 'E', 'D', 'L', 'H']
    address = 0xFFEE0

    for gpr in xrange(0x4):
        for entry in GPR:
            ida.create_data(address, FF_BYTE, 0x1, BADNODE)
            ida.set_name(address, 'RB%i%s' % (gpr, entry),
                         SN_NOCHECK | SN_NOWARN | SN_FORCE)
            address += 1

    # 0xFFF00 - 0xFFFFF
    print('# Creating Special Function Registers')
    segment(f, 0xFFF00, 0xFFFFF, 'SFR')

    SFR = [
        (0xFFF00, 0x1, 'P0', 'Port register 0'),
        (0xFFF01, 0x1, 'P1', 'Port register 1'),
        (0xFFF02, 0x1, 'P2', 'Port register 2'),
        (0xFFF03, 0x1, 'P3', 'Port register 3'),
        (0xFFF04, 0x1, 'P4', 'Port register 4'),
        (0xFFF05, 0x1, 'P5', 'Port register 5'),
        (0xFFF06, 0x1, 'P6', 'Port register 6'),
        (0xFFF07, 0x1, 'P7', 'Port register 7'),
        (0xFFF08, 0x1, 'P8', 'Port register 8'),
        (0xFFF09, 0x1, 'P9', 'Port register 9'),
        (0xFFF0A, 0x1, 'P10', 'Port register 10'),
        (0xFFF0B, 0x1, 'P11', 'Port register 11'),
        (0xFFF0C, 0x1, 'P12', 'Port register 12'),
        (0xFFF0D, 0x1, 'P13', 'Port register 13'),
        (0xFFF0E, 0x1, 'P14', 'Port register 14'),
        (0xFFF0F, 0x1, 'P15', 'Port register 15'),
        (0xFFF10, 0x2, 'SDR00', 'Serial data register 00'),
        (0xFFF12, 0x2, 'SDR01', 'Serial data register 01'),
        (0xFFF14, 0x2, 'SDR12', 'Serial data register 12'),
        (0xFFF16, 0x2, 'SDR13', 'Serial data register 13'),
        (0xFFF18, 0x2, 'TDR00', 'Timer data register 00'),
        (0xFFF1A, 0x2, 'TDR01', 'Timer data register 01'),
        (0xFFF1E, 0x2, 'ADCR', '10-bit A/D conversion result register'),
        (0xFFF20, 0x1, 'PM0', 'Port mode register 0'),
        (0xFFF21, 0x1, 'PM1', 'Port mode register 1'),
        (0xFFF22, 0x1, 'PM2', 'Port mode register 2'),
        (0xFFF23, 0x1, 'PM3', 'Port mode register 3'),
        (0xFFF24, 0x1, 'PM4', 'Port mode register 4'),
        (0xFFF25, 0x1, 'PM5', 'Port mode register 5'),
        (0xFFF26, 0x1, 'PM6', 'Port mode register 6'),
        (0xFFF27, 0x1, 'PM7', 'Port mode register 7'),
        (0xFFF28, 0x1, 'PM8', 'Port mode register 8'),
        (0xFFF29, 0x1, 'PM9', 'Port mode register 9'),
        (0xFFF2A, 0x1, 'PM10', 'Port mode register 10'),
        (0xFFF2B, 0x1, 'PM11', 'Port mode register 11'),
        (0xFFF2C, 0x1, 'PM12', 'Port mode register 12'),
        (0xFFF2E, 0x1, 'PM14', 'Port mode register 14'),
        (0xFFF2F, 0x1, 'PM15', 'Port mode register 15'),
        (0xFFF30, 0x1, 'ADM0', 'A/D converter mode register 0'),
        (0xFFF31, 0x1, 'ADS', 'Analog input channel specification register'),
        (0xFFF32, 0x1, 'ADM1', 'A/D converter mode register 1'),
        (0xFFF37, 0x1, 'KRM', 'Key return mode register'),
        (0xFFF38, 0x1, 'EGP0',
         'External interrupt rising edge enable register 0'),
        (0xFFF39, 0x1, 'EGN0',
         'External interrupt falling edge enable register 0'),
        (0xFFF3A, 0x1, 'EGP1',
         'External interrupt rising edge enable register 1'),
        (0xFFF3B, 0x1, 'EGN1',
         'External interrupt falling edge enable register 1'),
        (0xFFF44, 0x2, 'SDR02', 'Serial data register 02'),
        (0xFFF46, 0x2, 'SDR03', 'Serial data register 03'),
        (0xFFF48, 0x2, 'SDR10', 'Serial data register 10'),
        (0xFFF4A, 0x2, 'SDR11', 'Serial data register 11'),
        (0xFFF50, 0x1, 'IICA0', 'IICA shift register 0'),
        (0xFFF51, 0x1, 'IICS0', 'IICA status register 0'),
        (0xFFF52, 0x1, 'IICF0', 'IICA flag register 0'),
        (0xFFF54, 0x1, 'IICA1', 'IICA shift register 1'),
        (0xFFF55, 0x1, 'IICS1', 'IICA status register 1'),
        (0xFFF56, 0x1, 'IICF1', 'IICA flag register 1'),
        (0xFFF64, 0x2, 'TDR02', 'Timer data register 02'),
        (0xFFF66, 0x2, 'TDR03', 'Timer data register 03'),
        (0xFFF68, 0x2, 'TDR04', 'Timer data register 04'),
        (0xFFF6A, 0x2, 'TDR05', 'Timer data register 05'),
        (0xFFF6C, 0x2, 'TDR06', 'Timer data register 06'),
        (0xFFF6E, 0x2, 'TDR07', 'Timer data register 07'),
        (0xFFF70, 0x2, 'TDR10', 'Timer data register 10'),
        (0xFFF72, 0x2, 'TDR11', 'Timer data register 11'),
        (0xFFF74, 0x2, 'TDR12', 'Timer data register 12'),
        (0xFFF76, 0x2, 'TDR13', 'Timer data register 13'),
        (0xFFF78, 0x2, 'TDR14', 'Timer data register 14'),
        (0xFFF7A, 0x2, 'TDR15', 'Timer data register 15'),
        (0xFFF7C, 0x2, 'TDR16', 'Timer data register 16'),
        (0xFFF7E, 0x2, 'TDR17', 'Timer data register 17'),
        (0xFFF90, 0x2, 'ITMC', 'Interval timer control register'),
        (0xFFF92, 0x1, 'SEC', 'Second count register'),
        (0xFFF93, 0x1, 'MIN', 'Minute count register'),
        (0xFFF94, 0x1, 'HOUR', 'Hour count register'),
        (0xFFF95, 0x1, 'WEEK', 'Week count register'),
        (0xFFF96, 0x1, 'DAY', 'Day count register'),
        (0xFFF97, 0x1, 'MONTH', 'Month count register'),
        (0xFFF98, 0x1, 'YEAR', 'Year count register'),
        (0xFFF99, 0x1, 'SUBCUD', 'Watch error correction register'),
        (0xFFF9A, 0x1, 'ALARMWM', 'Alarm minute register'),
        (0xFFF9B, 0x1, 'ALARMWH', 'Alarm hour register'),
        (0xFFF9C, 0x1, 'ALARMWW', 'Alarm week register'),
        (0xFFF9D, 0x1, 'RTCC0', 'Real-time clock control register 0'),
        (0xFFF9E, 0x1, 'RTCC1', 'Real-time clock control register 1'),
        (0xFFFA0, 0x1, 'CMC', 'Clock operation mode control register'),
        (0xFFFA1, 0x1, 'CSC', 'Clock operation status control register'),
        (0xFFFA2, 0x1, 'OSTC',
         'Oscillation stabilization time counter status register'),
        (0xFFFA3, 0x1, 'OSTS',
         'Oscillation stabilization time select register'),
        (0xFFFA4, 0x1, 'CKC', 'System clock control register'),
        (0xFFFA5, 0x1, 'CKS0', 'Clock output select register 0'),
        (0xFFFA6, 0x1, 'CKS1', 'Clock output select register 1'),
        (0xFFFA8, 0x1, 'RESF', 'Reset control flag register'),
        (0xFFFA9, 0x1, 'LVIM', 'Voltage detection register'),
        (0xFFFAA, 0x1, 'LVIS', 'Voltage detection level register'),
        (0xFFFAB, 0x1, 'WDTE', 'Watchdog timer enable register'),
        (0xFFFAC, 0x1, 'CRCIN', 'CRC input register'),
        (0xFFFB0, 0x1, 'DSA0', 'DMA SFR address register 0'),
        (0xFFFB1, 0x1, 'DSA1', 'DMA SFR address register 1'),
        (0xFFFB2, 0x2, 'DRA0', 'DMA RAM address register 0'),
        (0xFFFB4, 0x2, 'DRA1', 'DMA RAM address register 1'),
        (0xFFFB6, 0x2, 'DBC0', 'DMA byte count register 0'),
        (0xFFFB8, 0x2, 'DBC1', 'DMA byte count register 1'),
        (0xFFFBA, 0x1, 'DMC0', 'DMA mode control register 0'),
        (0xFFFBB, 0x1, 'DMC1', 'DMA mode control register 1'),
        (0xFFFBC, 0x1, 'DRC0', 'DMA operation control register 0'),
        (0xFFFBD, 0x1, 'DRC1', 'DMA operation control register 1'),
        (0xFFFD0, 0x2, 'IF2', 'Interrupt request flag register 2'),
        (0xFFFD2, 0x2, 'IF3', 'Interrupt request flag register 3'),
        (0xFFFD4, 0x2, 'MK2', 'Interrupt mask flag register 2'),
        (0xFFFD6, 0x2, 'MK3', 'Interrupt mask flag register 3'),
        (0xFFFD8, 0x2, 'PR02', 'Priority specification flag register 02'),
        (0xFFFDA, 0x2, 'PR03', 'Priority specification flag register 03'),
        (0xFFFDC, 0x2, 'PR12', 'Priority specification flag register 12'),
        (0xFFFDE, 0x2, 'PR13', 'Priority specification flag register 13'),
        (0xFFFE0, 0x2, 'IF0', 'Interrupt request flag register 0'),
        (0xFFFE2, 0x2, 'IF1', 'Interrupt request flag register 1'),
        (0xFFFE4, 0x2, 'MK0', 'Interrupt mask flag register 0'),
        (0xFFFE6, 0x2, 'MK1', 'Interrupt mask flag register 1'),
        (0xFFFE8, 0x2, 'PR00', 'Priority specification flag register 00'),
        (0xFFFEA, 0x2, 'PR01', 'Priority specification flag register 01'),
        (0xFFFEC, 0x2, 'PR10', 'Priority specification flag register 10'),
        (0xFFFEE, 0x2, 'PR11', 'Priority specification flag register 11'),
        (0xFFFF0, 0x2, 'MDAL', 'Multiplication/division data register A (L)'),
        (0xFFFF2, 0x2, 'MDAH', 'Multiplication/division data register A (H)'),
        (0xFFFF4, 0x2, 'MDBH', 'Multiplication/division data register B (H)'),
        (0xFFFF6, 0x2, 'MDBL', 'Multiplication/division data register B (L)'),
        (0xFFFFE, 0x1, 'PMC', 'Processor mode control register'),
    ]

    for (address, size, name, comment) in SFR:
        flags = ida.get_flags_by_size(size)
        ida.create_data(address, flags, size, BADNODE)
        ida.set_name(address, name, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.set_cmt(address, comment, False)

    # --------------------------------------------------------------------------------------------------------
    # Common

    pa1 = ida.get_segm_by_name('PA1')
    bfa = ida.get_segm_by_name('BFA')
    mirror = ida.get_segm_by_name('MIRROR')

    # --------------------------------------------------------------------------------------------------------
    # sc_cmd_entry - Find Command Table

    COMMANDS = {
        0x05: 'Get_Hardware_Info',
        0xD2: 'SNVS_Read_Write',
        0x1082: 'NVS_Read',
    }

    entry = idc.add_struc(BADADDR, 'sc_cmd_entry', False)
    idc.add_struc_member(entry, 'cmd', 0x0, 0x10000400, BADADDR, 0x2)
    idc.add_struc_member(entry, 'flag', 0x2, 0x10000400, BADADDR, 0x2)
    idc.add_struc_member(entry, 'func', 0x4, 0x20500400, 0x0, 0x4, BADADDR,
                         0x0, 0x2)

    # --------------------------------------------------------------------------------------------------------
    # PA1 sc_cmd_entry
    # USS1001 - 0x26BE
    # USS1002 - 0x3096

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '00 00 00 00 ?? ?? 03 00 01 00', 0x10,
                              SEARCH_DOWN)
    #print('address: 0x%X' % address)

    while True:
        command = ida.get_word(address)
        flags = ida.get_word(address + 0x2)
        function = ida.get_dword(address + 0x4)

        command = COMMANDS.get(command,
                               'cmd_0x%X_flags_0x%X' % (command, flags))
        ida.set_name(function, command, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_struct(address, 0x8, entry)
        if ida.get_word(address) == 0x2085:
            break
        address += 0x8

    # --------------------------------------------------------------------------------------------------------
    # Mirror sc_cmd_entry
    # USS1001 - None
    # USS1002 - 0xF3096

    address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                              '00 00 00 00 ?? ?? 03 00 01 00', 0x10,
                              SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:
        while True:
            ida.create_struct(address, 0x8, entry)
            if ida.get_word(address) == 0x2085:
                break
            address += 0x8

    # --------------------------------------------------------------------------------------------------------
    # sc_ext_cmd_entry - Find External Command Table

    entry = idc.add_struc(BADADDR, 'sc_ext_cmd_entry', False)
    idc.add_struc_member(entry, 'id', 0x0, 0x10000400, BADADDR, 0x2)
    idc.add_struc_member(entry, 'func', 0x2, 0x20500400, 0x0, 0x4, BADADDR,
                         0x0, 0x2)
    idc.add_struc_member(entry, 'flags', 0x6, 0x10000400, BADADDR, 0x2)

    # --------------------------------------------------------------------------------------------------------
    # PA1 sc_ext_cmd_entry
    # USS1001 - 0x2D02
    # USS1002 - 0x3922

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '00 01 ?? ?? 00 00 00 00 01 01', 0x10,
                              SEARCH_DOWN)
    #print('address: 0x%X' % address)

    while True:
        command = ida.get_word(address)
        function = ida.get_dword(address + 0x2)
        flags = ida.get_word(address + 0x6)

        ida.set_name(function, 'ext_cmd_0x%X_flags_0x%X' % (command, flags),
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_struct(address, 0x8, entry)
        if ida.get_word(address) == 0x301:
            break
        address += 0x8

    # -------------------------------------------------------------------------------------------------------
    # Mirror sc_ext_cmd_entry
    # USS1001 - None
    # USS1002 - 0xF3922

    address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                              '00 01 ?? ?? 00 00 00 00 01 01', 0x10,
                              SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:
        while True:
            ida.create_struct(address, 0x8, entry)
            if ida.get_word(address) == 0x301:
                break
            address += 0x8

    # --------------------------------------------------------------------------------------------------------
    # sc_ext_cmd_entry - Find External Command Table 2
    # USS1001 - 0xF99C
    # USS1002 - 0x10424

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '97 D5 00 01 ?? ?? 01 00 00 00 01 01', 0x10,
                              SEARCH_DOWN) + 0x2
    #print('address: 0x%X' % address)

    while True:
        command = ida.get_word(address)
        function = ida.get_dword(address + 0x2)
        flags = ida.get_word(address + 0x6)

        if flags == 0x161:
            break
        ida.set_name(function, 'ext_cmd_0x%X_flags_0x%X' % (command, flags),
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_struct(address, 0x8, entry)
        address += 0x8

    # --------------------------------------------------------------------------------------------------------
    # sc_ext_cmd_entry - Find External Command Table 3
    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '00 00 ?? ?? 01 00 00 00 01 00', 0x10,
                              SEARCH_DOWN)
    # USS1001 - 0xF49E
    # USS1001 - 0xF60E
    # USS1002 - 0x1000E
    # USS1002 - 0x1019E

    if address != BADADDR:
        while True:
            command = ida.get_word(address)
            function = ida.get_dword(address + 0x2)
            flags = ida.get_word(address + 0x6)

            if command == 0x5224 or flags == 0x181:
                break
            ida.set_name(function,
                         'ext_cmd_0x%X_flags_0x%X' % (command, flags),
                         SN_NOCHECK | SN_NOWARN | SN_FORCE)
            ida.create_struct(address, 0x8, entry)
            address += 0x8

    # --------------------------------------------------------------------------------------------------------
    # renesas_cmd_entry - Find Renesas Command Table

    COMMANDS = {
        0x00: 'Reset',
        0x13: 'Verify',
        0x14: 'OCD_Related',
        0x20: 'Chip_Erase',
        0x22: 'Block_Erase',
        0x32: 'Block_Blank_Check',
        0x40: 'Programming',
        0x9A: 'Baud_Rate_Set',
        0xA0: 'Security_Set',
        0xA1: 'Security_Get',
        0xA2: 'Security_Release',
        0xB0: 'Checksum',
        0xC0: 'Silicon_Signature',
        0xC5: 'Version_Get',
    }

    entry = idc.add_struc(BADADDR, 'renesas_cmd_entry', False)
    idc.add_struc_member(entry, 'version', 0x0, 0x10000400, BADADDR, 0x2)
    idc.add_struc_member(entry, 'ext_function_address', 0x2, 0x10000400,
                         BADADDR, 0x32)
    idc.add_struc_member(entry, 'ext_function_code', 0x34, 0x400, BADADDR, 0xC)
    idc.add_struc_member(entry, 'unknown', 0x40, 0x400, BADADDR, 0x20)
    idc.add_struc_member(entry, 'int_function_address', 0x60, 0x10000400,
                         BADADDR, 0x10)
    idc.add_struc_member(entry, 'int_function_code', 0x70, 0x400, BADADDR, 0x8)
    idc.add_struc_member(entry, 'unknown2', 0x78, 0x400, BADADDR, 0x1A)

    address = ida.find_binary(bfa.start_ea, bfa.end_ea, '03 03', 0x10,
                              SEARCH_DOWN) + 0x2
    #print('0x%X' % address)

    ida.create_struct(address - 0x2, 0x92, entry)

    # --------------------------------------------------------------------------------------------------------
    # External Functions

    ext_functions = []
    while ida.get_word(address) != 0x1300:
        ext_function = ida.get_word(address) + 0xE0000
        #print('ext_function: 0x%X' % ext_function)

        ida.create_insn(ext_function)
        if ida.print_insn_mnem(ext_function) != 'nop':
            ida.add_func(ext_function, BADADDR)
        '''
        print(ida.print_insn_mnem(ext_function + 0x3))
        if ida.print_insn_mnem(ext_function + 0x3) == 'br':
            ida.add_func(ext_function, ext_function + 0x5)
        else:
            ida.add_func(ext_function, BADADDR)
        '''

        ext_functions.append(ext_function)

        address += 2

    # --------------------------------------------------------------------------------------------------------
    # External Commands

    while ida.get_byte(address) != 0x3:
        command = ida.get_byte(address)
        #print('ext_function: 0x%X' % ext_functions[0])

        command = COMMANDS.get(command, 'renesas_ext_cmd_0x%X' % command)
        ida.set_name(ext_functions[0], command,
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)

        ext_functions.pop(0)

        address += 0x1

    address += 0x20
    #print('int_function_start: 0x%X' % address)

    # --------------------------------------------------------------------------------------------------------
    # Internal Functions

    int_functions = []
    while ida.get_word(address) != 0xCD0E:
        int_function = ida.get_word(address) + 0xE0000
        #print('int_function: 0x%X' % int_function)

        ida.create_insn(int_function)
        if ida.print_insn_mnem(int_function) != 'nop':
            ida.add_func(int_function, BADADDR)

        int_functions.append(int_function)

        address += 2

    # --------------------------------------------------------------------------------------------------------
    # Internal Commands

    while ida.get_byte(address) != 0x87:
        command = ida.get_byte(address)
        #print('int_function: 0x%X' % int_functions[0])

        command = COMMANDS.get(command, 'renesas_int_cmd_0x%X' % command)
        ida.set_name(int_functions[0], command,
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)

        int_functions.pop(0)

        address += 0x1

    # --------------------------------------------------------------------------------------------------------
    # Signature Data

    entry = idc.add_struc(BADADDR, 'signature_data', False)
    idc.add_struc_member(entry, 'device_code', 0x0, 0x400, BADADDR, 0x3)
    idc.add_struc_member(entry, 'device_name', 0x3, 0x5000c400, 0, 0xA)
    idc.add_struc_member(entry, 'code_flash_mem_area_last_address', 0xD,
                         0x9400, BADADDR, 0x3)
    idc.add_struc_member(entry, 'data_flash_mem_area_last_address', 0x10,
                         0x400, BADADDR, 0x3)
    idc.add_struc_member(entry, 'firmware_version', 0x13, 0x400, BADADDR, 0x3)

    address = ida.find_binary(bfa.start_ea, bfa.end_ea, '10 00 06', 0x10,
                              SEARCH_DOWN)
    #print('address: 0x%X' % address)

    ida.create_struct(address, 0x16, entry)

    # --------------------------------------------------------------------------------------------------------
    # SP1 Command Keys

    KEYS = [
        'SharedData_B',
        'SharedKey_B_A',
        'SharedKey_B_B',
        'SharedData_F_A',
        'SharedData_F_B',
        'SharedKey_F_A',
        'SharedKey_F_B',
        'SharedKey_F_C',
    ]

    entry = idc.add_struc(BADADDR, 'key', False)
    idc.add_struc_member(entry, 'key', 0, 0x400, BADADDR, 0x10)

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              'CF 2E 93 E9 F9 4E 28 CC', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # SP1 Command Keys 2

    address = ida.find_binary(address, pa1.end_ea, 'CF 2E 93 E9 F9 4E 28 CC',
                              0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:
        ida.del_items(address, 0, size)

        for key in KEYS:
            ida.create_data(address, FF_BYTE, 0x10, BADNODE)
            ida.create_struct(address, 0x10, entry)
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # SP1 Unknown Command Keys

    KEYS = [
        'SharedData_0',
        'SharedKey_0_A',
        'SharedKey_0_B',
        'SharedData_1',
        'SharedKey_1_A',
        'SharedKey_1_B',
        'SharedData_E',
        'SharedKey_E_A',
        'SharedKey_E_B',
    ]

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '80 99 6F BB C8 B4 EB A3', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    #print('address: 0x%X' % address)

    # --------------------------------------------------------------------------------------------------------
    # SP1 Unknown Command Keys 2

    set2 = ida.find_binary(address, pa1.end_ea, '80 99 6F BB C8 B4 EB A3',
                           0x10, SEARCH_DOWN)
    print('address: 0x%X' % set2)

    if set2 != BADADDR:
        ida.del_items(set2, 0, size)

        for key in KEYS:
            ida.create_data(set2, FF_BYTE, 0x10, BADNODE)
            ida.create_struct(set2, 0x10, entry)
            ida.set_name(set2, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            set2 += 0x10

    # --------------------------------------------------------------------------------------------------------
    # SP1 g_debug_challenge_key

    ida.del_items(address, 0, 0x20)
    ida.create_data(address, FF_BYTE, 0x20, BADNODE)
    ida.set_name(address, 'g_debug_challenge_key',
                 SN_NOCHECK | SN_NOWARN | SN_FORCE)
    address += 0x20

    # --------------------------------------------------------------------------------------------------------
    # SP1 g_debug_challenge_key 2

    set2 = ida.find_binary(address, pa1.end_ea, 'F4 77 16 E6 C5 64 9F D6',
                           0x10, SEARCH_DOWN)

    if set2 != BADADDR:
        ida.del_items(set2, 0, 0x20)
        ida.create_data(set2, FF_BYTE, 0x20, BADNODE)
        ida.set_name(set2, 'g_debug_challenge_key_0',
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)
        set2 += 0x20

    # --------------------------------------------------------------------------------------------------------
    # SP1 jigkick_expansion

    KEYS = [
        'jigkick_expansion_0',
        'jigkick_expansion_1',
        'jigkick_expansion_2',
        'jigkick_expansion_3',
        'jigkick_expansion_4',
        'jigkick_expansion_5',
        'jigkick_expansion_6',
        'jigkick_expansion_7',
        'jigkick_expansion_8',
        'jigkick_expansion_9',
        'jigkick_expansion_A',
        'jigkick_expansion_B',
        'jigkick_expansion_C',
    ]

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # SP1 jigkick_expansion 2

    if set2 != BADADDR:
        ida.del_items(set2, 0, size)

        for key in KEYS:
            ida.create_data(set2, FF_BYTE, 0x10, BADNODE)
            ida.create_struct(set2, 0x10, entry)
            ida.set_name(set2, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            set2 += 0x10

    # --------------------------------------------------------------------------------------------------------
    # SP1 Unknown Shared Keys

    KEYS = [
        'SharedKey_0',
        'SharedKey_1',
        'SharedKey_E',
    ]

    address = ida.find_binary(pa1.start_ea, pa1.end_ea, '55 55 55 00', 0x10,
                              SEARCH_DOWN) + 0x4
    #print('address: 0x%X' % address)

    size = len(KEYS) * 0xE
    ida.del_items(address, 0, size)

    for count, key in enumerate(KEYS):
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)
        ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

        address += 0xE

    ida.del_items(address, 0, size)

    for count, key in enumerate(KEYS):
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)
        ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

        address += 0xE

    # --------------------------------------------------------------------------------------------------------
    # SP1 Shared Keys

    KEYS = [
        'SharedKey_B',
        'SharedKey_F',
    ]

    extra = len(KEYS) * 0x16
    ida.del_items(address, 0, extra)

    for count, key in enumerate(KEYS):
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)
        ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0xE, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0x12, FF_DWORD, 0x4, BADNODE)

        address += 0x16

    ida.del_items(address, 0, size)

    for count, key in enumerate(KEYS):
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        ida.create_data(address, FF_WORD, 0x2, BADNODE)
        ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
        ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

        address += 0xE

    # --------------------------------------------------------------------------------------------------------
    # SP1 MISC Keys/Data

    KEYS = [
        'AES_KEY',
        'AES_IV',
        'XOR_KEY',
    ]

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              'DB D9 45 0A CC A8 54 48', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # PA1 SERVICE_0x900_DATA

    address = ida.find_binary(pa1.start_ea, pa1.end_ea,
                              '93 CE 8E BE DF 7F 69 A9', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    ida.del_items(address, 0, 0x10)
    ida.create_data(address, FF_BYTE, 0x10, BADNODE)
    ida.create_struct(address, 0x10, entry)
    ida.set_name(address, 'SERVICE_0x900_DATA',
                 SN_NOCHECK | SN_NOWARN | SN_FORCE)
    address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # PA1 SERVICE_0x900_DATA 2

    address = ida.find_binary(address, pa1.end_ea, '93 CE 8E BE DF 7F 69 A9',
                              0x10, SEARCH_DOWN)
    #print('key address: 0x%X' % address)

    ida.del_items(address, 0, 0x10)
    ida.create_data(address, FF_BYTE, 0x10, BADNODE)
    ida.create_struct(address, 0x10, entry)
    ida.set_name(address, 'SERVICE_0x900_DATA',
                 SN_NOCHECK | SN_NOWARN | SN_FORCE)

    # --------------------------------------------------------------------------------------------------------
    # Mirror Command Keys

    KEYS = [
        '_SharedData_B',
        '_SharedKey_B_A',
        '_SharedKey_B_B',
        '_SharedData_F_A',
        '_SharedData_F_B',
        '_SharedKey_F_A',
        '_SharedKey_F_B',
        '_SharedKey_F_C',
    ]

    address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                              'CF 2E 93 E9 F9 4E 28 CC', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:

        size = len(KEYS) * 0x10
        ida.del_items(address, 0, size)

        for key in KEYS:
            ida.create_data(address, FF_BYTE, 0x10, BADNODE)
            ida.create_struct(address, 0x10, entry)
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # Mirror Unknown Command Keys

    KEYS = [
        '_SharedData_0',
        '_SharedKey_0_A',
        '_SharedKey_0_B',
        '_SharedData_1',
        '_SharedKey_1_A',
        '_SharedKey_1_B',
        '_SharedData_E',
        '_SharedKey_E_A',
        '_SharedKey_E_B',
    ]

    address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                              '80 99 6F BB C8 B4 EB A3', 0x10, SEARCH_DOWN)

    if address == BADADDR:
        del KEYS[:6]
        address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                                  'AD 2F 32 2F 42 56 C4 9D', 0x10, SEARCH_DOWN)

    #print('address: 0x%X' % address)

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # Mirror g_debug_challenge_key

    #print('address: 0x%X' % address)

    ida.del_items(address, 0, 0x20)
    ida.create_data(address, FF_BYTE, 0x20, BADNODE)
    ida.set_name(address, '_g_debug_challenge_key',
                 SN_NOCHECK | SN_NOWARN | SN_FORCE)
    address += 0x20

    # --------------------------------------------------------------------------------------------------------
    # Mirror jigkick_expansion

    KEYS = [
        '_jigkick_expansion_0',
        '_jigkick_expansion_1',
        '_jigkick_expansion_2',
        '_jigkick_expansion_3',
        '_jigkick_expansion_4',
        '_jigkick_expansion_5',
        '_jigkick_expansion_6',
        '_jigkick_expansion_7',
        '_jigkick_expansion_8',
        '_jigkick_expansion_9',
        '_jigkick_expansion_A',
        '_jigkick_expansion_B',
        '_jigkick_expansion_C',
    ]

    #print('address: 0x%X' % address)

    size = len(KEYS) * 0x10
    ida.del_items(address, 0, size)

    for key in KEYS:
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
        address += 0x10

    # --------------------------------------------------------------------------------------------------------
    # Mirror Unknown Shared Keys

    KEYS = [
        '_SharedKey_0',
        '_SharedKey_1',
        '_SharedKey_E',
    ]

    address = ida.find_binary(mirror.start_ea, mirror.end_ea, '55 55 55 00',
                              0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:
        address += 0x4

        size = len(KEYS) * 0xE
        ida.del_items(address, 0, size)

        for count, key in enumerate(KEYS):
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            ida.create_data(address, FF_WORD, 0x2, BADNODE)
            ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

            address += 0xE

        ida.del_items(address, 0, size)

        for count, key in enumerate(KEYS):
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            ida.create_data(address, FF_WORD, 0x2, BADNODE)
            ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

            address += 0xE

        # --------------------------------------------------------------------------------------------------------
        # Mirror Shared Keys

        KEYS = [
            '_SharedKey_B',
            '_SharedKey_F',
        ]

        extra = len(KEYS) * 0x16
        ida.del_items(address, 0, extra)

        for count, key in enumerate(KEYS):
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            ida.create_data(address, FF_WORD, 0x2, BADNODE)
            ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0xE, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0x12, FF_DWORD, 0x4, BADNODE)

            address += 0x16

        ida.del_items(address, 0, size)

        for count, key in enumerate(KEYS):
            ida.set_name(address, key, SN_NOCHECK | SN_NOWARN | SN_FORCE)
            ida.create_data(address, FF_WORD, 0x2, BADNODE)
            ida.create_data(address + 0x2, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0x6, FF_DWORD, 0x4, BADNODE)
            ida.create_data(address + 0xA, FF_DWORD, 0x4, BADNODE)

            address += 0xE

    # --------------------------------------------------------------------------------------------------------
    # Mirror SERVICE_0x900_DATA

    address = ida.find_binary(mirror.start_ea, mirror.end_ea,
                              '93 CE 8E BE DF 7F 69 A9', 0x10, SEARCH_DOWN)
    #print('address: 0x%X' % address)

    if address != BADADDR:
        ida.del_items(address, 0, 0x10)
        ida.create_data(address, FF_BYTE, 0x10, BADNODE)
        ida.create_struct(address, 0x10, entry)
        ida.set_name(address, '_SERVICE_0x900_DATA',
                     SN_NOCHECK | SN_NOWARN | SN_FORCE)

    # --------------------------------------------------------------------------------------------------------

    print('# Finding Additional Functions...')
    function_search(1, 'D7 61 DD')
    function_search(1, 'FF C3 31 17')
    function_search(1, 'FB C3 31 17')
    function_search(1, 'FF 61 DD 8E FA')
    function_search(1, 'FF 61 DD C7')
    function_search(0, '61 DD C7')
    function_search(1, 'D7 C7 C3 C1')
    function_search(1, 'D7 C7 16')
    function_search(1, 'D7 30 02 00 C1')
    function_search(1, 'D7 C7 C1')
    function_search(1, 'D7 C7 88')
    function_search(1, 'D7 C7 20')
    function_search(1, 'D7 C7 41')
    function_search(1, 'D7 C7 36')
    function_search(1, '00 C7 C3 C1 FB')
    function_search(1, 'FF C7 57')
    function_search(2, '00 00 C7 C5 C1')

    # --------------------------------------------------------------------------------------------------------

    print('# Done!')
    return 1


# PROGRAM END