Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 18.226.34.148
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /lib64/python3.6/site-packages/cffi/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /lib64/python3.6/site-packages/cffi/model.py
import types
import weakref

from .lock import allocate_lock
from .error import CDefError, VerificationError, VerificationMissing

# type qualifiers
Q_CONST    = 0x01
Q_RESTRICT = 0x02
Q_VOLATILE = 0x04

def qualify(quals, replace_with):
    if quals & Q_CONST:
        replace_with = ' const ' + replace_with.lstrip()
    if quals & Q_VOLATILE:
        replace_with = ' volatile ' + replace_with.lstrip()
    if quals & Q_RESTRICT:
        # It seems that __restrict is supported by gcc and msvc.
        # If you hit some different compiler, add a #define in
        # _cffi_include.h for it (and in its copies, documented there)
        replace_with = ' __restrict ' + replace_with.lstrip()
    return replace_with


class BaseTypeByIdentity(object):
    is_array_type = False
    is_raw_function = False

    def get_c_name(self, replace_with='', context='a C file', quals=0):
        result = self.c_name_with_marker
        assert result.count('&') == 1
        # some logic duplication with ffi.getctype()... :-(
        replace_with = replace_with.strip()
        if replace_with:
            if replace_with.startswith('*') and '&[' in result:
                replace_with = '(%s)' % replace_with
            elif not replace_with[0] in '[(':
                replace_with = ' ' + replace_with
        replace_with = qualify(quals, replace_with)
        result = result.replace('&', replace_with)
        if '$' in result:
            raise VerificationError(
                "cannot generate '%s' in %s: unknown type name"
                % (self._get_c_name(), context))
        return result

    def _get_c_name(self):
        return self.c_name_with_marker.replace('&', '')

    def has_c_name(self):
        return '$' not in self._get_c_name()

    def is_integer_type(self):
        return False

    def get_cached_btype(self, ffi, finishlist, can_delay=False):
        try:
            BType = ffi._cached_btypes[self]
        except KeyError:
            BType = self.build_backend_type(ffi, finishlist)
            BType2 = ffi._cached_btypes.setdefault(self, BType)
            assert BType2 is BType
        return BType

    def __repr__(self):
        return '<%s>' % (self._get_c_name(),)

    def _get_items(self):
        return [(name, getattr(self, name)) for name in self._attrs_]


class BaseType(BaseTypeByIdentity):

    def __eq__(self, other):
        return (self.__class__ == other.__class__ and
                self._get_items() == other._get_items())

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

    def __hash__(self):
        return hash((self.__class__, tuple(self._get_items())))


class VoidType(BaseType):
    _attrs_ = ()

    def __init__(self):
        self.c_name_with_marker = 'void&'

    def build_backend_type(self, ffi, finishlist):
        return global_cache(self, ffi, 'new_void_type')

void_type = VoidType()


class BasePrimitiveType(BaseType):
    def is_complex_type(self):
        return False


class PrimitiveType(BasePrimitiveType):
    _attrs_ = ('name',)

    ALL_PRIMITIVE_TYPES = {
        'char':               'c',
        'short':              'i',
        'int':                'i',
        'long':               'i',
        'long long':          'i',
        'signed char':        'i',
        'unsigned char':      'i',
        'unsigned short':     'i',
        'unsigned int':       'i',
        'unsigned long':      'i',
        'unsigned long long': 'i',
        'float':              'f',
        'double':             'f',
        'long double':        'f',
        'float _Complex':     'j',
        'double _Complex':    'j',
        '_Bool':              'i',
        # the following types are not primitive in the C sense
        'wchar_t':            'c',
        'char16_t':           'c',
        'char32_t':           'c',
        'int8_t':             'i',
        'uint8_t':            'i',
        'int16_t':            'i',
        'uint16_t':           'i',
        'int32_t':            'i',
        'uint32_t':           'i',
        'int64_t':            'i',
        'uint64_t':           'i',
        'int_least8_t':       'i',
        'uint_least8_t':      'i',
        'int_least16_t':      'i',
        'uint_least16_t':     'i',
        'int_least32_t':      'i',
        'uint_least32_t':     'i',
        'int_least64_t':      'i',
        'uint_least64_t':     'i',
        'int_fast8_t':        'i',
        'uint_fast8_t':       'i',
        'int_fast16_t':       'i',
        'uint_fast16_t':      'i',
        'int_fast32_t':       'i',
        'uint_fast32_t':      'i',
        'int_fast64_t':       'i',
        'uint_fast64_t':      'i',
        'intptr_t':           'i',
        'uintptr_t':          'i',
        'intmax_t':           'i',
        'uintmax_t':          'i',
        'ptrdiff_t':          'i',
        'size_t':             'i',
        'ssize_t':            'i',
        }

    def __init__(self, name):
        assert name in self.ALL_PRIMITIVE_TYPES
        self.name = name
        self.c_name_with_marker = name + '&'

    def is_char_type(self):
        return self.ALL_PRIMITIVE_TYPES[self.name] == 'c'
    def is_integer_type(self):
        return self.ALL_PRIMITIVE_TYPES[self.name] == 'i'
    def is_float_type(self):
        return self.ALL_PRIMITIVE_TYPES[self.name] == 'f'
    def is_complex_type(self):
        return self.ALL_PRIMITIVE_TYPES[self.name] == 'j'

    def build_backend_type(self, ffi, finishlist):
        return global_cache(self, ffi, 'new_primitive_type', self.name)


class UnknownIntegerType(BasePrimitiveType):
    _attrs_ = ('name',)

    def __init__(self, name):
        self.name = name
        self.c_name_with_marker = name + '&'

    def is_integer_type(self):
        return True

    def build_backend_type(self, ffi, finishlist):
        raise NotImplementedError("integer type '%s' can only be used after "
                                  "compilation" % self.name)

class UnknownFloatType(BasePrimitiveType):
    _attrs_ = ('name', )

    def __init__(self, name):
        self.name = name
        self.c_name_with_marker = name + '&'

    def build_backend_type(self, ffi, finishlist):
        raise NotImplementedError("float type '%s' can only be used after "
                                  "compilation" % self.name)


class BaseFunctionType(BaseType):
    _attrs_ = ('args', 'result', 'ellipsis', 'abi')

    def __init__(self, args, result, ellipsis, abi=None):
        self.args = args
        self.result = result
        self.ellipsis = ellipsis
        self.abi = abi
        #
        reprargs = [arg._get_c_name() for arg in self.args]
        if self.ellipsis:
            reprargs.append('...')
        reprargs = reprargs or ['void']
        replace_with = self._base_pattern % (', '.join(reprargs),)
        if abi is not None:
            replace_with = replace_with[:1] + abi + ' ' + replace_with[1:]
        self.c_name_with_marker = (
            self.result.c_name_with_marker.replace('&', replace_with))


class RawFunctionType(BaseFunctionType):
    # Corresponds to a C type like 'int(int)', which is the C type of
    # a function, but not a pointer-to-function.  The backend has no
    # notion of such a type; it's used temporarily by parsing.
    _base_pattern = '(&)(%s)'
    is_raw_function = True

    def build_backend_type(self, ffi, finishlist):
        raise CDefError("cannot render the type %r: it is a function "
                        "type, not a pointer-to-function type" % (self,))

    def as_function_pointer(self):
        return FunctionPtrType(self.args, self.result, self.ellipsis, self.abi)


class FunctionPtrType(BaseFunctionType):
    _base_pattern = '(*&)(%s)'

    def build_backend_type(self, ffi, finishlist):
        result = self.result.get_cached_btype(ffi, finishlist)
        args = []
        for tp in self.args:
            args.append(tp.get_cached_btype(ffi, finishlist))
        abi_args = ()
        if self.abi == "__stdcall":
            if not self.ellipsis:    # __stdcall ignored for variadic funcs
                try:
                    abi_args = (ffi._backend.FFI_STDCALL,)
                except AttributeError:
                    pass
        return global_cache(self, ffi, 'new_function_type',
                            tuple(args), result, self.ellipsis, *abi_args)

    def as_raw_function(self):
        return RawFunctionType(self.args, self.result, self.ellipsis, self.abi)


class PointerType(BaseType):
    _attrs_ = ('totype', 'quals')

    def __init__(self, totype, quals=0):
        self.totype = totype
        self.quals = quals
        extra = qualify(quals, " *&")
        if totype.is_array_type:
            extra = "(%s)" % (extra.lstrip(),)
        self.c_name_with_marker = totype.c_name_with_marker.replace('&', extra)

    def build_backend_type(self, ffi, finishlist):
        BItem = self.totype.get_cached_btype(ffi, finishlist, can_delay=True)
        return global_cache(self, ffi, 'new_pointer_type', BItem)

voidp_type = PointerType(void_type)

def ConstPointerType(totype):
    return PointerType(totype, Q_CONST)

const_voidp_type = ConstPointerType(void_type)


class NamedPointerType(PointerType):
    _attrs_ = ('totype', 'name')

    def __init__(self, totype, name, quals=0):
        PointerType.__init__(self, totype, quals)
        self.name = name
        self.c_name_with_marker = name + '&'


class ArrayType(BaseType):
    _attrs_ = ('item', 'length')
    is_array_type = True

    def __init__(self, item, length):
        self.item = item
        self.length = length
        #
        if length is None:
            brackets = '&[]'
        elif length == '...':
            brackets = '&[/*...*/]'
        else:
            brackets = '&[%s]' % length
        self.c_name_with_marker = (
            self.item.c_name_with_marker.replace('&', brackets))

    def resolve_length(self, newlength):
        return ArrayType(self.item, newlength)

    def build_backend_type(self, ffi, finishlist):
        if self.length == '...':
            raise CDefError("cannot render the type %r: unknown length" %
                            (self,))
        self.item.get_cached_btype(ffi, finishlist)   # force the item BType
        BPtrItem = PointerType(self.item).get_cached_btype(ffi, finishlist)
        return global_cache(self, ffi, 'new_array_type', BPtrItem, self.length)

char_array_type = ArrayType(PrimitiveType('char'), None)


class StructOrUnionOrEnum(BaseTypeByIdentity):
    _attrs_ = ('name',)
    forcename = None

    def build_c_name_with_marker(self):
        name = self.forcename or '%s %s' % (self.kind, self.name)
        self.c_name_with_marker = name + '&'

    def force_the_name(self, forcename):
        self.forcename = forcename
        self.build_c_name_with_marker()

    def get_official_name(self):
        assert self.c_name_with_marker.endswith('&')
        return self.c_name_with_marker[:-1]


class StructOrUnion(StructOrUnionOrEnum):
    fixedlayout = None
    completed = 0
    partial = False
    packed = False

    def __init__(self, name, fldnames, fldtypes, fldbitsize, fldquals=None):
        self.name = name
        self.fldnames = fldnames
        self.fldtypes = fldtypes
        self.fldbitsize = fldbitsize
        self.fldquals = fldquals
        self.build_c_name_with_marker()

    def anonymous_struct_fields(self):
        if self.fldtypes is not None:
            for name, type in zip(self.fldnames, self.fldtypes):
                if name == '' and isinstance(type, StructOrUnion):
                    yield type

    def enumfields(self, expand_anonymous_struct_union=True):
        fldquals = self.fldquals
        if fldquals is None:
            fldquals = (0,) * len(self.fldnames)
        for name, type, bitsize, quals in zip(self.fldnames, self.fldtypes,
                                              self.fldbitsize, fldquals):
            if (name == '' and isinstance(type, StructOrUnion)
                    and expand_anonymous_struct_union):
                # nested anonymous struct/union
                for result in type.enumfields():
                    yield result
            else:
                yield (name, type, bitsize, quals)

    def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

    def get_cached_btype(self, ffi, finishlist, can_delay=False):
        BType = StructOrUnionOrEnum.get_cached_btype(self, ffi, finishlist,
                                                     can_delay)
        if not can_delay:
            self.finish_backend_type(ffi, finishlist)
        return BType

    def finish_backend_type(self, ffi, finishlist):
        if self.completed:
            if self.completed != 2:
                raise NotImplementedError("recursive structure declaration "
                                          "for '%s'" % (self.name,))
            return
        BType = ffi._cached_btypes[self]
        #
        self.completed = 1
        #
        if self.fldtypes is None:
            pass    # not completing it: it's an opaque struct
            #
        elif self.fixedlayout is None:
            fldtypes = [tp.get_cached_btype(ffi, finishlist)
                        for tp in self.fldtypes]
            lst = list(zip(self.fldnames, fldtypes, self.fldbitsize))
            sflags = 0
            if self.packed:
                sflags = 8    # SF_PACKED
            ffi._backend.complete_struct_or_union(BType, lst, self,
                                                  -1, -1, sflags)
            #
        else:
            fldtypes = []
            fieldofs, fieldsize, totalsize, totalalignment = self.fixedlayout
            for i in range(len(self.fldnames)):
                fsize = fieldsize[i]
                ftype = self.fldtypes[i]
                #
                if isinstance(ftype, ArrayType) and ftype.length == '...':
                    # fix the length to match the total size
                    BItemType = ftype.item.get_cached_btype(ffi, finishlist)
                    nlen, nrest = divmod(fsize, ffi.sizeof(BItemType))
                    if nrest != 0:
                        self._verification_error(
                            "field '%s.%s' has a bogus size?" % (
                            self.name, self.fldnames[i] or '{}'))
                    ftype = ftype.resolve_length(nlen)
                    self.fldtypes = (self.fldtypes[:i] + (ftype,) +
                                     self.fldtypes[i+1:])
                #
                BFieldType = ftype.get_cached_btype(ffi, finishlist)
                if isinstance(ftype, ArrayType) and ftype.length is None:
                    assert fsize == 0
                else:
                    bitemsize = ffi.sizeof(BFieldType)
                    if bitemsize != fsize:
                        self._verification_error(
                            "field '%s.%s' is declared as %d bytes, but is "
                            "really %d bytes" % (self.name,
                                                 self.fldnames[i] or '{}',
                                                 bitemsize, fsize))
                fldtypes.append(BFieldType)
            #
            lst = list(zip(self.fldnames, fldtypes, self.fldbitsize, fieldofs))
            ffi._backend.complete_struct_or_union(BType, lst, self,
                                                  totalsize, totalalignment)
        self.completed = 2

    def _verification_error(self, msg):
        raise VerificationError(msg)

    def check_not_partial(self):
        if self.partial and self.fixedlayout is None:
            raise VerificationMissing(self._get_c_name())

    def build_backend_type(self, ffi, finishlist):
        self.check_not_partial()
        finishlist.append(self)
        #
        return global_cache(self, ffi, 'new_%s_type' % self.kind,
                            self.get_official_name(), key=self)


class StructType(StructOrUnion):
    kind = 'struct'


class UnionType(StructOrUnion):
    kind = 'union'


class EnumType(StructOrUnionOrEnum):
    kind = 'enum'
    partial = False
    partial_resolved = False

    def __init__(self, name, enumerators, enumvalues, baseinttype=None):
        self.name = name
        self.enumerators = enumerators
        self.enumvalues = enumvalues
        self.baseinttype = baseinttype
        self.build_c_name_with_marker()

    def force_the_name(self, forcename):
        StructOrUnionOrEnum.force_the_name(self, forcename)
        if self.forcename is None:
            name = self.get_official_name()
            self.forcename = '$' + name.replace(' ', '_')

    def check_not_partial(self):
        if self.partial and not self.partial_resolved:
            raise VerificationMissing(self._get_c_name())

    def build_backend_type(self, ffi, finishlist):
        self.check_not_partial()
        base_btype = self.build_baseinttype(ffi, finishlist)
        return global_cache(self, ffi, 'new_enum_type',
                            self.get_official_name(),
                            self.enumerators, self.enumvalues,
                            base_btype, key=self)

    def build_baseinttype(self, ffi, finishlist):
        if self.baseinttype is not None:
            return self.baseinttype.get_cached_btype(ffi, finishlist)
        #
        if self.enumvalues:
            smallest_value = min(self.enumvalues)
            largest_value = max(self.enumvalues)
        else:
            import warnings
            try:
                # XXX!  The goal is to ensure that the warnings.warn()
                # will not suppress the warning.  We want to get it
                # several times if we reach this point several times.
                __warningregistry__.clear()
            except NameError:
                pass
            warnings.warn("%r has no values explicitly defined; "
                          "guessing that it is equivalent to 'unsigned int'"
                          % self._get_c_name())
            smallest_value = largest_value = 0
        if smallest_value < 0:   # needs a signed type
            sign = 1
            candidate1 = PrimitiveType("int")
            candidate2 = PrimitiveType("long")
        else:
            sign = 0
            candidate1 = PrimitiveType("unsigned int")
            candidate2 = PrimitiveType("unsigned long")
        btype1 = candidate1.get_cached_btype(ffi, finishlist)
        btype2 = candidate2.get_cached_btype(ffi, finishlist)
        size1 = ffi.sizeof(btype1)
        size2 = ffi.sizeof(btype2)
        if (smallest_value >= ((-1) << (8*size1-1)) and
            largest_value < (1 << (8*size1-sign))):
            return btype1
        if (smallest_value >= ((-1) << (8*size2-1)) and
            largest_value < (1 << (8*size2-sign))):
            return btype2
        raise CDefError("%s values don't all fit into either 'long' "
                        "or 'unsigned long'" % self._get_c_name())

def unknown_type(name, structname=None):
    if structname is None:
        structname = '$%s' % name
    tp = StructType(structname, None, None, None)
    tp.force_the_name(name)
    tp.origin = "unknown_type"
    return tp

def unknown_ptr_type(name, structname=None):
    if structname is None:
        structname = '$$%s' % name
    tp = StructType(structname, None, None, None)
    return NamedPointerType(tp, name)


global_lock = allocate_lock()
_typecache_cffi_backend = weakref.WeakValueDictionary()

def get_typecache(backend):
    # returns _typecache_cffi_backend if backend is the _cffi_backend
    # module, or type(backend).__typecache if backend is an instance of
    # CTypesBackend (or some FakeBackend class during tests)
    if isinstance(backend, types.ModuleType):
        return _typecache_cffi_backend
    with global_lock:
        if not hasattr(type(backend), '__typecache'):
            type(backend).__typecache = weakref.WeakValueDictionary()
        return type(backend).__typecache

def global_cache(srctype, ffi, funcname, *args, **kwds):
    key = kwds.pop('key', (funcname, args))
    assert not kwds
    try:
        return ffi._typecache[key]
    except KeyError:
        pass
    try:
        res = getattr(ffi._backend, funcname)(*args)
    except NotImplementedError as e:
        raise NotImplementedError("%s: %r: %s" % (funcname, srctype, e))
    # note that setdefault() on WeakValueDictionary is not atomic
    # and contains a rare bug (http://bugs.python.org/issue19542);
    # we have to use a lock and do it ourselves
    cache = ffi._typecache
    with global_lock:
        res1 = cache.get(key)
        if res1 is None:
            cache[key] = res
            return res
        else:
            return res1

def pointer_cache(ffi, BType):
    return global_cache('?', ffi, 'new_pointer_type', BType)

def attach_exception_info(e, name):
    if e.args and type(e.args[0]) is str:
        e.args = ('%s: %s' % (name, e.args[0]),) + e.args[1:]

Youez - 2016 - github.com/yon3zu
LinuXploit