Пример #1
0
def segment(f, start, end, name, type='DATA', perm=SEGPERM_MAXVAL):

    f.file2base(start, start, end, FILEREG_PATCHABLE)
    flags = 0x0 if name in ['PA1', 'BFA', 'MIRROR'] else ADDSEG_NOAA
    ida.add_segm(0x0, start, end, name, type, flags)

    # Processor Specific Segment Details
    idc.set_segm_addressing(start, 0x1)
    idc.set_segm_alignment(start, saAbs)
    idc.set_segm_combination(start, scPriv)
    idc.set_segm_attr(start, SEGATTR_PERM, perm)
Пример #2
0
def append_segment(segment_name):
    """ Add a new segment to the IDB file and return its starting address.
    Information about function arguments will be stored here. Only works if the
    segment name is not used yet. This does not affect the original binary.

    Arguments:
    segment_name -- the name of the segment to be added
    """
    for segment in idautils.Segments():
        if idc.get_segm_name(segment) == segment_name:
            g_logger.warning('Segment ' + segment_name + ' already exists')
            return idc.get_segm_start(segment)

    new_segment_start = get_end_of_last_segment()
    g_logger.debug('Adding new segment at 0x%08x' % new_segment_start)
    if not idc.AddSeg(new_segment_start,
                      (new_segment_start + NEW_SEGMENT_SIZE), 0, 1, 0,
                      idaapi.scPub) == 1:
        raise FailedToAppendSegmentException('Could not add segment')
    # set new segment's attributes
    if not idc.set_segm_name(new_segment_start, segment_name):
        raise FailedToAppendSegmentException('Could not rename segment')
    if not idc.set_segm_class(new_segment_start, 'DATA'):
        raise FailedToAppendSegmentException('Could not set segment class')
    if not idc.set_segm_alignment(new_segment_start, idc.saRelPara):
        raise FailedToAppendSegmentException('Could not align segment')
    if not idc.set_segm_addressing(new_segment_start, 1):  # 1 -- 32 bit
        raise FailedToAppendSegmentException(
            'Could not set segment addressing')
    return new_segment_start
Пример #3
0
def load_file(f, neflags, format):
    
    print('# PS3 Syscon Loader')
    
    # PS3 Syscon Processor and Library
    processor('arm', 'gnulnx_arm')
    
    print('# Creating ROM Segment...')
    address = 0x0
    end = address + f.size()
    
    f.file2base(address, address, end, FILEREG_PATCHABLE)
    idaapi.add_segm(0x0, address, end, 'ROM', 'CODE', 0x0)
    
    # Processor Specific Segment Details
    idc.set_segm_addressing(address, 0x1)
    idc.set_segm_alignment(address, saAbs)
    idc.set_segm_combination(address, scPriv)
    idc.set_segm_attr(address, SEGATTR_PERM, SEGPERM_MAXVAL)
    idc.set_default_sreg_value(address, 'T', 0x0)
    idc.set_default_sreg_value(address, 'DS', 0x1)
    
    print('# Waiting for the AutoAnalyzer to Complete...')
    idaapi.auto_wait()
    
    # Create some missing functions...
    while address < end:
        address = idaapi.find_binary(address, end, '?? B5', 0x10, SEARCH_DOWN)
        
        idaapi.create_insn(address)
        
        # Pablo escobar
        if idc.print_insn_mnem(address + 2) in ['LDR', 'MOVS', 'SUB']:
            idc.add_func(address)
        else:
            idaapi.do_unknown(address)
        
        address += 4
    
    print('# Done!')
    return 1

# PROGRAM END
Пример #4
0
def load_file(f, neflags, format):

    print('# PS4 Module Loader')
    ps = Binary(f)

    # PS4 Processor, Compiler, Library
    bitness = ps.procomp('metapc', CM_N64 | CM_M_NN | CM_CC_FASTCALL,
                         'gnulnx_x64')

    # Load Aerolib...
    nids = load_nids(idc.idadir() + '/loaders/aerolib.csv')

    # Segment Loading...
    for segm in ps.E_SEGMENTS:

        # Process Loadable Segments...
        if segm.name() in [
                'CODE', 'DATA', 'SCE_RELRO', 'DYNAMIC', 'GNU_EH_FRAME',
                'SCE_DYNLIBDATA'
        ]:

            address = segm.MEM_ADDR if segm.name() not in [
                'DYNAMIC', 'SCE_DYNLIBDATA'
            ] else segm.OFFSET + 0x1000000
            size = segm.MEM_SIZE if segm.name() not in [
                'DYNAMIC', 'SCE_DYNLIBDATA'
            ] else segm.FILE_SIZE

            print('# Processing %s Segment...' % segm.name())
            f.file2base(segm.OFFSET, address, address + segm.FILE_SIZE,
                        FILEREG_PATCHABLE)

            if segm.name() not in ['DYNAMIC', 'GNU_EH_FRAME']:

                idaapi.add_segm(0, address, address + size, segm.name(),
                                segm.type(), ADDSEG_NOTRUNC | ADDSEG_FILLGAP)

                # Processor Specific Segment Details
                idc.set_segm_addressing(address, bitness)
                idc.set_segm_alignment(address, segm.alignment())
                idc.set_segm_attr(address, SEGATTR_PERM, segm.flags())

            # Process Dynamic Segment....
            elif segm.name() == 'DYNAMIC':

                stubs = {}
                modules = {}
                libraries = {}
                f.seek(segm.OFFSET)

                offset = segm.OFFSET
                dynamic = address
                dynamicsize = size

                for entry in xrange(size / 0x10):
                    idc.set_cmt(address + (entry * 0x10),
                                Dynamic(f).process(stubs, modules, libraries),
                                False)
            '''
            # Process Exception Handling Segment...
            elif segm.name() == 'GNU_EH_FRAME':
                
                # Exception Handling Frame Header Structure
                members = [('version', 'Version', 0x1),
                           ('eh_frame_ptr_enc', 'Encoding of Exception Handling Frame Pointer', 0x1),
                           ('fde_count_enc', 'Encoding of Frame Description Entry Count', 0x1),
                           ('table_enc', 'Encoding of Table Entries', 0x1)]
                struct = segm.struct('EHFrame', members)
                
                idaapi.create_struct(address, 0x4, struct)
                
                # Exception Handling Structure
                members = [('exception', 'value', 0x8)]
                struct = segm.struct('Exception', members)
                
                for entry in xrange(size / 0x8):
                    idaapi.create_struct(address + (entry * 0x8), 0x8, struct)
            '''

        # Process SCE 'Special' Shared Object Segment...
        if segm.name() == 'SCE_DYNLIBDATA':

            # SCE Fingerprint
            idc.make_array(address, 0x14)
            idc.set_name(address, 'SCE_FINGERPRINT',
                         SN_NOCHECK | SN_NOWARN | SN_FORCE)
            idc.set_cmt(
                address, ' '.join(
                    x.encode('hex')
                    for x in idc.get_bytes(address, 0x14)).upper(), False)

            # Dynamic Symbol Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Dynamic Symbol Entry Structure
                members = [('name', 'Name (String Index)', 0x4),
                           ('info', 'Info (Binding : Type)', 0x1),
                           ('other', 'Other', 0x1),
                           ('shtndx', 'Section Index', 0x2),
                           ('value', 'Value', 0x8), ('size', 'Size', 0x8)]
                struct = segm.struct('Symbol', members)

                # Dynamic Symbol Table
                location = address + Dynamic.SYMTAB
                f.seek(segm.OFFSET + Dynamic.SYMTAB)
                symbols = {}

                for entry in xrange(Dynamic.SYMTABSZ / 0x18):
                    idaapi.create_struct(location + (entry * 0x18), 0x18,
                                         struct)
                    idc.set_cmt(location + (entry * 0x18),
                                Symbol(f).process(symbols), False)

            except:
                pass

            # Dynamic String Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Dynamic String Table
                location = address + Dynamic.STRTAB
                f.seek(segm.OFFSET + Dynamic.STRTAB)

                # Stubs
                for key in stubs:
                    idc.create_strlit(location + key, BADADDR)
                    stubs[key] = idc.get_strlit_contents(
                        location + key, BADADDR)
                    idc.set_cmt(location + key, 'Stub', False)

                #print('Stubs: %s' % stubs)

                # Modules
                for key in modules:
                    idc.create_strlit(location + key, BADADDR)
                    modules[key] = idc.get_strlit_contents(
                        location + key, BADADDR)
                    idc.set_cmt(location + key, 'Module', False)

                #print('Modules: %s' % modules)

                # Libraries and LIDs
                lids = {}
                for key, value in libraries.iteritems():
                    idc.create_strlit(location + key, BADADDR)
                    lids[value] = idc.get_strlit_contents(
                        location + key, BADADDR)
                    libraries[key] = idc.get_strlit_contents(
                        location + key, BADADDR)
                    idc.set_cmt(location + key, 'Library', False)

                #print('LIDs: %s' % lids)

                # Symbols
                for key in symbols:
                    idc.create_strlit(location + key, BADADDR)
                    symbols[key] = idc.get_strlit_contents(
                        location + key, BADADDR)
                    idc.set_cmt(location + key, 'Symbol', False)

                #print('Symbols: %s' % symbols)

            except:
                pass

            # Resolve Export Symbols
            try:
                symbols = sorted(symbols.iteritems())
                location = address + Dynamic.SYMTAB + 0x30
                f.seek(segm.OFFSET + Dynamic.SYMTAB + 0x30)

                for entry in xrange((Dynamic.SYMTABSZ - 0x30) / 0x18):
                    Symbol(f).resolve(location + (entry * 0x18), nids,
                                      symbols[entry][1])

            except:
                pass

            # Jump Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Jump Entry Structure
                members = [('offset', 'Offset (String Index)', 0x8),
                           ('info', 'Info (Symbol Index : Relocation Code)',
                            0x8), ('addend', 'AddEnd', 0x8)]
                struct = segm.struct('Jump', members)

                # PS4 Base64 Alphabet
                base64 = list(
                    'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+-'
                )
                alphabet = {
                    character: index
                    for index, character in enumerate(base64)
                }
                #print('Base64 Table: %s' % alphabet)

                # Jump Table
                location = address + Dynamic.JMPTAB
                f.seek(segm.OFFSET + Dynamic.JMPTAB)

                for entry in xrange(Dynamic.JMPTABSZ / 0x18):
                    idaapi.create_struct(location + (entry * 0x18), 0x18,
                                         struct)
                    idc.set_cmt(
                        location + (entry * 0x18),
                        Relocation(f).resolve(alphabet, nids, symbols, lids),
                        False)

            except:
                pass

            # Relocation Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Relocation Entry Structure (with specific addends)
                members = [('offset', 'Offset (String Index)', 0x8),
                           ('info', 'Info (Symbol Index : Relocation Code)',
                            0x8), ('addend', 'AddEnd', 0x8)]
                struct = segm.struct('Relocation', members)

                # Relocation Table (with specific addends)
                location = address + Dynamic.RELATAB
                f.seek(segm.OFFSET + Dynamic.RELATAB)

                for entry in xrange(Dynamic.RELATABSZ / 0x18):
                    idaapi.create_struct(location + (entry * 0x18), 0x18,
                                         struct)
                    idc.set_cmt(location + (entry * 0x18),
                                Relocation(f).process(nids, symbols), False)

            except:
                pass

            # Hash Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Hash Entry Structure
                members = [('bucket', 'Bucket', 0x2), ('chain', 'Chain', 0x2),
                           ('buckets', 'Buckets', 0x2),
                           ('chains', 'Chains', 0x2)]
                struct = segm.struct('Hash', members)

                # Hash Table
                location = address + Dynamic.HASHTAB
                f.seek(segm.OFFSET + Dynamic.HASHTAB)

                for entry in xrange(Dynamic.HASHTABSZ / 0x8):
                    idaapi.create_struct(location + (entry * 0x8), 0x8, struct)

            except:
                pass

            # Dynamic Tag Table
            try:
                # --------------------------------------------------------------------------------------------------------
                # Dynamic Tag Entry Structure
                members = [('tag', 'Tag', 0x8), ('value', 'Value', 0x8)]
                struct = segm.struct('Tag', members)

                f.seek(offset)

                for entry in xrange(dynamicsize / 0x10):
                    idaapi.create_struct(dynamic + (entry * 0x10), 0x10,
                                         struct)
                    idc.set_cmt(
                        dynamic + (entry * 0x10),
                        Dynamic(f).comment(address, stubs, modules, libraries),
                        False)

            except:
                pass

    # Start Function
    idc.add_entry(ps.E_START_ADDR, ps.E_START_ADDR, 'start', True)

    print('# Waiting for the AutoAnalyzer to Complete...')
    idaapi.auto_wait()

    # Set No Return for __stack_chk_fail...
    try:
        function = idc.get_name_ea_simple('__stack_chk_fail')
        function = idaapi.get_func(function)
        function.flags |= FUNC_NORET
        idaapi.update_func(function)

    except:
        pass

    # Missed Function Creation...
    try:
        code = idaapi.get_segm_by_name('CODE')

        address = code.start_ea
        end = code.end_ea

        # Final Pass
        print('# Performing Final Pass...')
        while address < end:
            address = idaapi.find_not_func(address, SEARCH_DOWN)

            if idaapi.is_unknown(idaapi.get_flags(address)):
                idaapi.create_insn(address)
            else:
                idc.add_func(address)

            address += 4

    except:
        pass

    print('# Done!')
    return 1
Пример #5
0
def load_file(f, neflags, format):
    
    print('# PS4 Kernel Loader')
    ps = Binary(f)
    
    # PS4 Processor, Compiler, Library
    bitness = ps.procomp('metapc', CM_N64 | CM_M_NN | CM_CC_FASTCALL, 'gnulnx_x64')
    
    # Segment Loading...
    for segm in ps.E_SEGMENTS:
        if segm.name() == 'PHDR':
            kASLR = False if segm.FILE_SIZE == 0x118 else True
        
        # Process Loadable Segments...
        if segm.name() in ['CODE', 'DATA', 'SCE_RELRO']:
            address = segm.MEM_ADDR
            size = segm.MEM_SIZE
            
            # Dumped Kernel Fix-ups
            if segm.name() in ['DATA', 'SCE_RELRO'] and (idaapi.get_segm_by_name('CODE').start_ea != 0xFFFFFFFF82200000 or not kASLR):
                offset = address - idaapi.get_segm_by_name('CODE').start_ea
                dumped = segm.MEM_SIZE
            else:
                offset = segm.OFFSET
                dumped = segm.FILE_SIZE
            
            print('# Creating %s Segment...' % segm.name())
            f.file2base(offset, address, address + dumped, FILEREG_PATCHABLE)
            
            idaapi.add_segm(0, address, address + size, segm.name(), segm.type(), ADDSEG_NOTRUNC | ADDSEG_FILLGAP)
            
            # Processor Specific Segment Details
            idc.set_segm_addressing(address, bitness)
            idc.set_segm_alignment(address, segm.alignment())
            idc.set_segm_attr(address, SEGATTR_PERM, segm.flags())
        
        # Process Dynamic Segment...
        elif segm.name() == 'DYNAMIC':
            code = idaapi.get_segm_by_name('CODE')
            data = idaapi.get_segm_by_name('DATA')
            relro = idaapi.get_segm_by_name('SCE_RELRO')
            
            # ------------------------------------------------------------------------------------------------------------
            # Dynamic Tag Entry Structure
            members = [('tag', 'Tag', 0x8),
                       ('value', 'Value', 0x8)]
            struct = segm.struct('Tag', members)
            
            # Dynamic Tag Table
            stubs = {}
            modules = {}
            location = segm.MEM_ADDR
            
            # Dumps are offset by a small amount
            if code.start_ea != 0xFFFFFFFF82200000:
                dumped = code.start_ea - 0xFFFFFFFF82200000
            else:
                dumped = 0
            
            f.seek(location - code.start_ea)
            for entry in xrange(segm.MEM_SIZE / 0x10):
                idaapi.create_struct(location + (entry * 0x10), 0x10, struct)
                idc.set_cmt(location + (entry * 0x10), Dynamic(f).process(dumped, stubs, modules), False)
            
            # ------------------------------------------------------------------------------------------------------------
            # Hash Entry Structure
            members = [('bucket', 'Bucket', 0x2),
                       ('chain', 'Chain', 0x2),
                       ('buckets', 'Buckets', 0x2),
                       ('chains', 'Chains', 0x2)]
            struct = segm.struct('Hash', members)
            
            # Hash Table
            try:
                location = Dynamic.HASHTAB
                size = Dynamic.HASHTABSZ
            
            except:
                location = Dynamic.HASH
                size = Dynamic.SYMTAB - location
            
            f.seek(location - code.start_ea)
            for entry in xrange(size / 0x8):
                idaapi.create_struct(location + (entry * 0x8), 0x8, struct)
            
            if kASLR:
                # --------------------------------------------------------------------------------------------------------
                # Relocation Entry Structure (with specific addends)
                members = [('offset', 'Offset (String Index)', 0x8),
                           ('info', 'Info (Symbol Index : Relocation Code)', 0x8),
                           ('addend', 'AddEnd', 0x8)]
                struct = segm.struct('Relocation', members)
                
                # Relocation Table (with specific addends)
                location = Dynamic.RELATAB
                
                f.seek(location - code.start_ea)
                for entry in xrange(Dynamic.RELATABSZ / 0x18):
                    idaapi.create_struct(location + (entry * 0x18), 0x18, struct)
                    idc.set_cmt(location + (entry * 0x18), Relocation(f).process(dumped, code.end_ea), False)
                
                # Initialization Function
                idc.add_entry(Dynamic.INIT, Dynamic.INIT, '.init', True)
            
            else:
                # --------------------------------------------------------------------------------------------------------
                # Symbol Entry Structure
                members = [('name', 'Name (String Index)', 0x4),
                           ('info', 'Info (Binding : Type)', 0x1),
                           ('other', 'Other', 0x1),
                           ('shtndx', 'Section Index', 0x2),
                           ('offset', 'Value', 0x8),
                           ('size', 'Size', 0x8)]
                struct = segm.struct('Symbol', members)
                
                # Symbol Table
                location = Dynamic.SYMTAB
                f.seek(location - code.start_ea)
                functions = {}
                
                # .symtab
                idc.add_entry(location, location, '.symtab', False)
                
                for entry in xrange((Dynamic.STRTAB - location) / 0x18):
                    idaapi.create_struct(location + (entry * 0x18), 0x18, struct)
                    idc.set_cmt(location + (entry * 0x18), Symbol(f).process(functions), False)
                
                # --------------------------------------------------------------------------------------------------------
                # Dynamic String Table
                location = Dynamic.STRTAB
                
                # .strtab
                idc.add_entry(location, location, '.strtab', False)
                
                # Functions
                for key in functions:
                    idc.create_strlit(location + key, BADADDR)
                    functions[key] = idc.get_strlit_contents(location + key, BADADDR)
                    idc.set_cmt(location + key, 'Function', False)
                
                functions = sorted(functions.iteritems(), key = operator.itemgetter(0))
                #print('Functions: %s' % functions)
                
                # Resolve Functions
                location = Dynamic.SYMTAB
                f.seek(location - code.start_ea + 0x18)
                
                for entry in xrange((Dynamic.STRTAB - location - 0x18) / 0x18):
                    Symbol(f).resolve(functions[entry][1])
    
    # Fix-up
    if kASLR:
        address = relro.start_ea
        del_items(address, DELIT_SIMPLE, relro.end_ea - address)
        
        while address < relro.end_ea:
            create_data(address, FF_QWORD, 0x8, BADNODE)
            address += 0x8
    
    address = code.start_ea
    
    # ELF Header Structure
    members = [('File format', 0x4),
               ('File class', 0x1),
               ('Data encoding', 0x1),
               ('File version', 0x1),
               ('OS/ABI', 0x1),
               ('ABI version', 0x1),
               ('Padding', 0x7),
               ('File type', 0x2),
               ('Machine', 0x2),
               ('File version', 0x4),
               ('Entry point', 0x8),
               ('PHT file offset', 0x8),
               ('SHT file offset', 0x8),
               ('Processor-specific flags', 0x4),
               ('ELF header size', 0x2),
               ('PHT entry size', 0x2),
               ('Number of entries in PHT', 0x2),
               ('SHT entry size', 0x2),
               ('Number of entries in SHT', 0x2),
               ('SHT entry index for string table\n', 0x2)]
    
    for (comment, size) in members:
        flags = idaapi.get_flags_by_size(size)
        idc.create_data(address, flags if flags != 0 else FF_STRLIT, size, BADNODE)
        idc.set_cmt(address, comment, False)
        address += size
    
    for index, entry in enumerate(ps.E_SEGMENTS):
        # ELF Program Header Structure
        members = [('Type: %s' % entry.name(), 0x4),
                   ('Flags', 0x4),
                   ('File offset', 0x8),
                   ('Virtual address', 0x8),
                   ('Physical address', 0x8),
                   ('Size in file image', 0x8),
                   ('Size in memory image', 0x8),
                   ('Alignment\n', 0x8)]
        
        for (comment, size) in members:
            flags = idaapi.get_flags_by_size(size)
            
            idc.create_data(address, flags if flags != 0 else FF_STRLIT, size, BADNODE)
            idc.set_cmt(address, comment, False)
            address += size
    
    # Wait for the AutoAnalyzer to Complete...
    print('# Waiting for the AutoAnalyzer to Complete...')
    idaapi.auto_wait()
    
    if kASLR:
        # Start Function
        idc.add_entry(ps.E_START_ADDR, ps.E_START_ADDR, 'start', True)
        
        # Xfast_syscall
        address = idaapi.find_binary(code.start_ea, code.end_ea, '0F 01 F8 65 48 89 24 25 A8 02 00 00 65 48 8B 24', 0x10, SEARCH_DOWN)
        idaapi.do_unknown(address, 0)
        idaapi.create_insn(address)
        idaapi.add_func(address, BADADDR)
        idaapi.set_name(address, 'Xfast_syscall', SN_NOCHECK | SN_NOWARN)
        
        # --------------------------------------------------------------------------------------------------------
        # Znullptr's syscalls
        print('# Processing Znullptr\'s Syscalls...')
        
        # Syscall Entry Structure
        members = [('narg', 'Number of Arguments', 0x4),
                   ('_pad', 'Padding', 0x4),
                   ('function', 'Function', 0x8),
                   ('auevent', 'Augmented Event?', 0x2),
                   ('_pad1', 'Padding', 0x2),
                   ('_pad2', 'Padding', 0x4),
                   ('trace_args_func', 'Trace Arguments Function', 0x8),
                   ('entry', 'Entry', 0x4),
                   ('return', 'Return', 0x4),
                   ('flags', 'Flags', 0x4),
                   ('thrcnt', 'Thread Count?', 0x4)]
        struct = segm.struct('Syscall', members)
        
        znullptr(code.start_ea, code.end_ea, '4F 52 42 49 53 20 6B 65 72 6E 65 6C 20 53 45 4C 46', struct)
        
        # --------------------------------------------------------------------------------------------------------
        # Chendo's cdevsw con-struct-or
        print('# Processing Chendo\'s cdevsw structs...')
        
        # cdevsw Entry Structure
        members = [('d_version', 'Version', 0x4),
                   ('d_flags', 'Flags', 0x4),
                   ('d_name', 'Name', 0x8),
                   ('d_open', 'Open', 0x8),
                   ('d_fdopen', 'File Descriptor Open', 0x8),
                   ('d_close', 'Close', 0x8),
                   ('d_read', 'Read', 0x8),
                   ('d_write', 'Write', 0x8),
                   ('d_ioctl', 'Input/Ouput Control', 0x8),
                   ('d_poll', 'Poll', 0x8),
                   ('d_mmap', 'Memory Mapping', 0x8),
                   ('d_strategy', 'Strategy', 0x8),
                   ('d_dump', 'Dump', 0x8),
                   ('d_kqfilter', 'KQFilter', 0x8),
                   ('d_purge', 'Purge', 0x8),
                   ('d_mmap_single', 'Single Memory Mapping', 0x8),
                   ('d_spare0', 'Spare0', 0x8),
                   ('d_spare1', 'Spare1', 0x8),
                   ('d_spare2', 'Spare2', 0x8),
                   ('d_spare3', 'Spare3', 0x8),
                   ('d_spare4', 'Spare4', 0x8),
                   ('d_spare5', 'Spare5', 0x8),
                   ('d_spare6', 'Spare6', 0x4),
                   ('d_spare7', 'Spare7', 0x4)]
        struct = segm.struct('cdevsw', members)
        
        chendo(data.start_ea, data.end_ea, '09 20 12 17', struct)
    
    # --------------------------------------------------------------------------------------------------------
    # Pablo's IDC
    try:
        print('# Processing Pablo\'s Push IDC...')
        
        # Script 1) Push it real good...
        pablo(code.start_ea, code.end_ea, 'C5 FA 5A C0 C5 F2 5A C9 C5 EA 5A D2 C5 FB 59 C1')
        pablo(code.start_ea, code.end_ea, 'C5 F9 7E C0 31 C9')
        pablo(code.start_ea, code.end_ea, '48 89 E0 55 53')
        pablo(code.start_ea, code.end_ea, 'B8 2D 00 00 00 C3')
        pablo(code.start_ea, code.end_ea, '31 C0 C3')
        pablo(code.start_ea, code.end_ea, '55 48 89')
        pablo(code.start_ea, code.end_ea, '48 81 EC A0 00 00 00 C7')
        pablo(code.start_ea, code.end_ea, '48 81 EC A8 00 00 00')
        
        # Script 2) Fix-up Dumped Data Pointers...
        if dumped or not kASLR:
            print('# Processing Pablo\'s Dumped Data Pointers IDC...')
            pablo(data.start_ea, data.end_ea, '?? FF FF FF FF')
    
    except:
        pass
    
    # --------------------------------------------------------------------------------------------------------
    # Kiwidog's __stack_chk_fail
    if kASLR:
        print('# Processing Kiwidog\'s Stack Functions...')
        
        kiwidog(code.start_ea, code.end_ea, '73 74 61 63 6B 20 6F 76 65 72 66 6C 6F 77 20 64 65 74 65 63 74 65 64 3B')
    
    # --------------------------------------------------------------------------------------------------------
    # Final Pass
    print('# Performing Final Pass...')
    address = code.start_ea
    while address < code.end_ea:
        address = idaapi.find_not_func(address, SEARCH_DOWN)
        
        if idaapi.isUnknown(idaapi.getFlags(address)):
            idaapi.create_insn(address)
        else:
            idc.add_func(address)
        
        address += 4
    
    print('# Done!')
    return 1
Пример #6
0
def load_file(f, neflags, format):

    print('# PS4 Kernel Loader')
    ps4 = Binary(f)

    # PS4 Processor, Compiler, Library
    bitness = ps4.procomp('metapc', CM_N64 | CM_M_NN | CM_CC_FASTCALL,
                          'gnulnx_x64')

    # Segment Loading...
    for segm in ps4.E_SEGMENTS:

        # Process Loadable Segments...
        if segm.name() in ['CODE', 'DATA', 'SCE_RELRO']:
            address = segm.MEM_ADDR
            size = segm.MEM_SIZE

            # Dumped Kernel Fix-ups
            if segm.name() in ['DATA', 'SCE_RELRO'
                               ] and idaapi.get_segm_by_name(
                                   'CODE').start_ea != 0xFFFFFFFF82200000:
                offset = address - idaapi.get_segm_by_name('CODE').start_ea
                dumped = segm.MEM_SIZE
            else:
                offset = segm.OFFSET
                dumped = segm.FILE_SIZE

            print('# Creating %s Segment...' % segm.name())
            f.file2base(offset, address, address + dumped, FILEREG_PATCHABLE)

            idaapi.add_segm(0, address, address + size, segm.name(),
                            segm.type(), ADDSEG_NOTRUNC | ADDSEG_FILLGAP)

            # Processor Specific Segment Details
            idc.set_segm_addressing(address, bitness)
            idc.set_segm_alignment(address, segm.alignment())
            idc.set_segm_attr(address, SEGATTR_PERM, segm.flags())

        # Process Dynamic Segment...
        elif segm.name() == 'DYNAMIC':
            code = idaapi.get_segm_by_name('CODE')
            data = idaapi.get_segm_by_name('DATA')
            relro = idaapi.get_segm_by_name('SCE_RELRO')

            # ------------------------------------------------------------------------------------------------------------
            # Dynamic Tag Entry Structure
            members = [('tag', 'Tag', 0x8), ('value', 'Value', 0x8)]
            struct = segm.struct('Tag', members)

            # Dynamic Tag Table
            stubs = {}
            modules = {}
            location = segm.MEM_ADDR

            # Dumps are offset by a small amount
            if code.start_ea != 0xFFFFFFFF82200000:
                dumped = code.start_ea - 0xFFFFFFFF82200000
            else:
                dumped = 0

            f.seek(location - code.start_ea)
            for entry in xrange(segm.MEM_SIZE / 0x10):
                idaapi.create_struct(location + (entry * 0x10), 0x10, struct)
                idc.set_cmt(location + (entry * 0x10),
                            Dynamic(f).process(dumped, stubs, modules), False)

            # ------------------------------------------------------------------------------------------------------------
            # Hash Entry Structure
            members = [('bucket', 'Bucket', 0x2), ('chain', 'Chain', 0x2),
                       ('buckets', 'Buckets', 0x2), ('chains', 'Chains', 0x2)]
            struct = segm.struct('Hash', members)

            # Hash Table
            try:
                location = Dynamic.HASHTAB
                size = Dynamic.HASHTABSZ

            except:
                location = Dynamic.HASH
                size = Dynamic.SYMTAB - location

            f.seek(location - code.start_ea)
            for entry in xrange(size / 0x8):
                idaapi.create_struct(location + (entry * 0x8), 0x8, struct)

            # --------------------------------------------------------------------------------------------------------
            # Relocation Entry Structure (with specific addends)
            members = [('offset', 'Offset (String Index)', 0x8),
                       ('info', 'Info (Symbol Index : Relocation Code)', 0x8),
                       ('addend', 'AddEnd', 0x8)]
            struct = segm.struct('Relocation', members)

            # Relocation Table (with specific addends)
            location = Dynamic.RELATAB

            f.seek(location - code.start_ea)
            for entry in xrange(Dynamic.RELATABSZ / 0x18):
                idaapi.create_struct(location + (entry * 0x18), 0x18, struct)
                idc.set_cmt(location + (entry * 0x18),
                            Relocation(f).process(dumped, code.end_ea), False)

            # Initialization Function
            idc.add_entry(Dynamic.INIT, Dynamic.INIT, '.init', True)

    address = code.start_ea

    # ELF Header Structure
    members = [('File format', 0x4), ('File class', 0x1),
               ('Data encoding', 0x1), ('File version', 0x1), ('OS/ABI', 0x1),
               ('ABI version', 0x1), ('Padding', 0x7), ('File type', 0x2),
               ('Machine', 0x2), ('File version', 0x4), ('Entry point', 0x8),
               ('PHT file offset', 0x8), ('SHT file offset', 0x8),
               ('Processor-specific flags', 0x4), ('ELF header size', 0x2),
               ('PHT entry size', 0x2), ('Number of entries in PHT', 0x2),
               ('SHT entry size', 0x2), ('Number of entries in SHT', 0x2),
               ('SHT entry index for string table\n', 0x2)]

    for (comment, size) in members:
        flags = idaapi.get_flags_by_size(size)
        idc.create_data(address, flags if flags != 0 else FF_STRLIT, size,
                        BADNODE)
        idc.set_cmt(address, comment, False)
        address += size

    for index, entry in enumerate(ps4.E_SEGMENTS):
        # ELF Program Header Structure
        members = [('Type: %s' % entry.name(), 0x4), ('Flags', 0x4),
                   ('File offset', 0x8), ('Virtual address', 0x8),
                   ('Physical address', 0x8), ('Size in file image', 0x8),
                   ('Size in memory image', 0x8), ('Alignment\n', 0x8)]

        for (comment, size) in members:
            flags = idaapi.get_flags_by_size(size)

            idc.create_data(address, flags if flags != 0 else FF_STRLIT, size,
                            BADNODE)
            idc.set_cmt(address, comment, False)
            address += size

    # Start Function
    idc.add_entry(ps4.E_START_ADDR, ps4.E_START_ADDR, 'start', True)

    # Xfast_syscall
    address = idaapi.find_binary(
        code.start_ea, code.end_ea,
        '0F 01 F8 65 48 89 24 25 A8 02 00 00 65 48 8B 24', 0x10, SEARCH_DOWN)
    idaapi.do_unknown(address, 0)
    idaapi.create_insn(address)
    idaapi.add_func(address, BADADDR)
    idaapi.set_name(address, 'Xfast_syscall',
                    SN_NOCHECK | SN_NOWARN | SN_FORCE)

    # --------------------------------------------------------------------------------------------------------
    # Znullptr's syscalls
    print('# Processing Znullptr\'s Syscalls...')

    # Syscall Entry Structure
    members = [('narg', 'Number of Arguments', 0x4), ('_pad', 'Padding', 0x4),
               ('function', 'Function', 0x8),
               ('auevent', 'Augmented Event?', 0x2), ('_pad1', 'Padding', 0x2),
               ('_pad2', 'Padding', 0x4),
               ('trace_args_func', 'Trace Arguments Function', 0x8),
               ('entry', 'Entry', 0x4), ('return', 'Return', 0x4),
               ('flags', 'Flags', 0x4), ('thrcnt', 'Thread Count?', 0x4)]
    struct = segm.struct('Syscall', members)

    znullptr(code.start_ea, code.end_ea,
             '4F 52 42 49 53 20 6B 65 72 6E 65 6C 20 53 45 4C 46', struct)

    # --------------------------------------------------------------------------------------------------------
    # Chendo's cdevsw con-struct-or
    print('# Processing Chendo\'s Structures...')

    # cdevsw Entry Structure
    members = [('d_version', 'Version', 0x4), ('d_flags', 'Flags', 0x4),
               ('d_name', 'Name', 0x8), ('d_open', 'Open', 0x8),
               ('d_fdopen', 'File Descriptor Open', 0x8),
               ('d_close', 'Close', 0x8), ('d_read', 'Read', 0x8),
               ('d_write', 'Write', 0x8),
               ('d_ioctl', 'Input/Ouput Control', 0x8),
               ('d_poll', 'Poll', 0x8), ('d_mmap', 'Memory Mapping', 0x8),
               ('d_strategy', 'Strategy', 0x8), ('d_dump', 'Dump', 0x8),
               ('d_kqfilter', 'KQFilter', 0x8), ('d_purge', 'Purge', 0x8),
               ('d_mmap_single', 'Single Memory Mapping', 0x8),
               ('d_spare0', 'Spare0', 0x8), ('d_spare1', 'Spare1', 0x8),
               ('d_spare2', 'Spare2', 0x8), ('d_spare3', 'Spare3', 0x8),
               ('d_spare4', 'Spare4', 0x8), ('d_spare5', 'Spare5', 0x8),
               ('d_spare6', 'Spare6', 0x4), ('d_spare7', 'Spare7', 0x4)]
    struct = segm.struct('cdevsw', members)

    chendo(data.start_ea, data.end_ea, '09 20 12 17', struct)

    # --------------------------------------------------------------------------------------------------------
    # Pablo's IDC
    try:
        print('# Processing Pablo\'s Push IDC...')

        # Script 1) Push it real good...
        # Default patterns set
        pablo(0, code.start_ea, 0x10, '55 48 89')
        pablo(2, code.start_ea, code.end_ea, '90 90 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, 'C3 90 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, '66 90 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, 'C9 C3 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, '0F 0B 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, 'EB ?? 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, '5D C3 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, '5B C3 55 48 ??')
        pablo(2, code.start_ea, code.end_ea, '90 90 55 41 ?? 41 ??')
        pablo(2, code.start_ea, code.end_ea, '66 90 48 81 EC ?? 00 00 00')
        pablo(2, code.start_ea, code.end_ea,
              '0F 0B 48 89 9D ?? ?? FF FF 49 89')
        pablo(2, code.start_ea, code.end_ea, '90 90 53 4C 8B 54 24 20')
        pablo(2, code.start_ea, code.end_ea, '90 90 55 41 56 53')
        pablo(2, code.start_ea, code.end_ea, '90 90 53 48 89')
        pablo(2, code.start_ea, code.end_ea, '90 90 41 ?? 41 ??')
        pablo(3, code.start_ea, code.end_ea, '0F 0B 90 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, 'EB ?? 90 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '41 5F C3 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '41 5C C3 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '31 C0 C3 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '41 5D C3 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '41 5E C3 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '66 66 90 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '0F 1F 00 55 48 ??')
        pablo(3, code.start_ea, code.end_ea, '41 ?? C3 53 48')
        pablo(3, code.start_ea, code.end_ea, '0F 1F 00 48 81 EC ?? 00 00 00')
        pablo(4, code.start_ea, code.end_ea, '0F 1F 40 00 55 48 ??')
        pablo(4, code.start_ea, code.end_ea,
              '0F 1F 40 00 48 81 EC ?? 00 00 00')
        pablo(5, code.start_ea, code.end_ea, 'E9 ?? ?? ?? ?? 55 48 ??')
        pablo(5, code.start_ea, code.end_ea, 'E8 ?? ?? ?? ?? 55 48 ??')
        pablo(5, code.start_ea, code.end_ea, '48 83 C4 ?? C3 55 48 ??')
        pablo(5, code.start_ea, code.end_ea, '0F 1F 44 00 00 55 48 ??')
        pablo(5, code.start_ea, code.end_ea,
              '0F 1F 44 00 00 48 81 EC ?? 00 00 00')
        pablo(6, code.start_ea, code.end_ea, 'E9 ?? ?? ?? ?? 90 55 48 ??')
        pablo(6, code.start_ea, code.end_ea, 'E8 ?? ?? ?? ?? 90 55 48 ??')
        pablo(6, code.start_ea, code.end_ea, '66 0F 1F 44 00 00 55 48 ??')
        pablo(7, code.start_ea, code.end_ea, '0F 1F 80 00 00 00 00 55 48 ??')
        pablo(8, code.start_ea, code.end_ea,
              '0F 1F 84 00 00 00 00 00 55 48 ??')
        pablo(8, code.start_ea, code.end_ea, 'C3 0F 1F 80 00 00 00 00 48')
        pablo(8, code.start_ea, code.end_ea,
              '0F 1F 84 00 00 00 00 00 53 48 83 EC')

        # Special cases patterns set
        pablo(13, code.start_ea, code.end_ea,
              'C3 90 90 90 90 90 90 90 90 90 90 90 90 48')
        pablo(13, code.start_ea, code.end_ea,
              'C3 90 90 90 90 90 90 90 90 90 90 90 90 55')
        pablo(17, code.start_ea, code.end_ea,
              'E9 ?? ?? ?? ?? 90 90 90 90 90 90 90 90 90 90 90 90 48')
        pablo(19, code.start_ea, code.end_ea,
              'E9 ?? ?? ?? ?? 90 90 90 90 90 90 90 90 90 90 90 90 90 90 48')
        pablo(19, code.start_ea, code.end_ea,
              'E8 ?? ?? ?? ?? 90 90 90 90 90 90 90 90 90 90 90 90 90 90 48')
        pablo(
            20, code.start_ea, code.end_ea,
            'E9 ?? ?? ?? ?? 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 48')
        pablo(
            20, code.start_ea, code.end_ea,
            'E9 ?? ?? ?? ?? 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 48')

        # Script 2) Fix-up Dumped Data Pointers...
        if dumped:
            print('# Processing Pablo\'s Dumped Data Pointers IDC...')
            pablo(0, data.start_ea, data.end_ea, '?? FF FF FF FF')

    except:
        pass

    # --------------------------------------------------------------------------------------------------------
    # Kiwidog's __stack_chk_fail
    print('# Processing Kiwidog\'s Stack Functions...')

    kiwidog(
        code.start_ea, code.end_ea,
        '73 74 61 63 6B 20 6F 76 65 72 66 6C 6F 77 20 64 65 74 65 63 74 65 64 3B'
    )

    print('# Done!')
    return 1