Server IP : 66.29.132.122 / Your IP : 3.23.92.71 Web Server : LiteSpeed System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64 User : admazpex ( 531) PHP Version : 7.2.34 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON | Sudo : OFF | Pkexec : OFF Directory : /proc/self/root/proc/thread-self/root/proc/thread-self/root/lib/python2.7/site-packages/pycriu/images/ |
Upload File : |
from google.protobuf.descriptor import FieldDescriptor as FD import opts_pb2 from ipaddress import IPv4Address, ip_address from ipaddress import IPv6Address import socket import collections import os import base64 import quopri if "encodebytes" not in dir(base64): base64.encodebytes = base64.encodestring base64.decodebytes = base64.decodestring # pb2dict and dict2pb are methods to convert pb to/from dict. # Inspired by: # protobuf-to-dict - https://github.com/benhodgson/protobuf-to-dict # protobuf-json - https://code.google.com/p/protobuf-json/ # protobuf source - https://code.google.com/p/protobuf/ # Both protobuf-to-dict/json do not fit here because of several reasons, # here are some of them: # - both have a common bug in treating optional field with empty # repeated inside. # - protobuf-to-json is not avalible in pip or in any other python # repo, so it is hard to distribute and we can't rely on it. # - both do not treat enums in a way we would like to. They convert # protobuf enum to int, but we need a string here, because it is # much more informative. BTW, protobuf text_format converts pb # enums to string value too. (i.e. "march : x86_64" is better then # "march : 1"). _basic_cast = { FD.TYPE_FIXED64: int, FD.TYPE_FIXED32: int, FD.TYPE_SFIXED64: int, FD.TYPE_SFIXED32: int, FD.TYPE_INT64: int, FD.TYPE_UINT64: int, FD.TYPE_SINT64: int, FD.TYPE_INT32: int, FD.TYPE_UINT32: int, FD.TYPE_SINT32: int, FD.TYPE_BOOL: bool, FD.TYPE_STRING: str } def _marked_as_hex(field): return field.GetOptions().Extensions[opts_pb2.criu].hex def _marked_as_ip(field): return field.GetOptions().Extensions[opts_pb2.criu].ipadd def _marked_as_flags(field): return field.GetOptions().Extensions[opts_pb2.criu].flags def _marked_as_dev(field): return field.GetOptions().Extensions[opts_pb2.criu].dev def _marked_as_odev(field): return field.GetOptions().Extensions[opts_pb2.criu].odev def _marked_as_dict(field): return field.GetOptions().Extensions[opts_pb2.criu].dict def _custom_conv(field): return field.GetOptions().Extensions[opts_pb2.criu].conv mmap_prot_map = [ ('PROT_READ', 0x1), ('PROT_WRITE', 0x2), ('PROT_EXEC', 0x4), ] mmap_flags_map = [ ('MAP_SHARED', 0x1), ('MAP_PRIVATE', 0x2), ('MAP_ANON', 0x20), ('MAP_GROWSDOWN', 0x0100), ] mmap_status_map = [ ('VMA_AREA_NONE', 0 << 0), ('VMA_AREA_REGULAR', 1 << 0), ('VMA_AREA_STACK', 1 << 1), ('VMA_AREA_VSYSCALL', 1 << 2), ('VMA_AREA_VDSO', 1 << 3), ('VMA_AREA_HEAP', 1 << 5), ('VMA_FILE_PRIVATE', 1 << 6), ('VMA_FILE_SHARED', 1 << 7), ('VMA_ANON_SHARED', 1 << 8), ('VMA_ANON_PRIVATE', 1 << 9), ('VMA_AREA_SYSVIPC', 1 << 10), ('VMA_AREA_SOCKET', 1 << 11), ('VMA_AREA_VVAR', 1 << 12), ('VMA_AREA_AIORING', 1 << 13), ('VMA_UNSUPP', 1 << 31), ] rfile_flags_map = [ ('O_WRONLY', 0o1), ('O_RDWR', 0o2), ('O_APPEND', 0o2000), ('O_DIRECT', 0o40000), ('O_LARGEFILE', 0o100000), ] pmap_flags_map = [ ('PE_PARENT', 1 << 0), ('PE_LAZY', 1 << 1), ('PE_PRESENT', 1 << 2), ] flags_maps = { 'mmap.prot': mmap_prot_map, 'mmap.flags': mmap_flags_map, 'mmap.status': mmap_status_map, 'rfile.flags': rfile_flags_map, 'pmap.flags': pmap_flags_map, } gen_maps = { 'task_state': { 1: 'Alive', 3: 'Zombie', 6: 'Stopped' }, } sk_maps = { 'family': { 1: 'UNIX', 2: 'INET', 10: 'INET6', 16: 'NETLINK', 17: 'PACKET' }, 'type': { 1: 'STREAM', 2: 'DGRAM', 3: 'RAW', 5: 'SEQPACKET', 10: 'PACKET' }, 'state': { 1: 'ESTABLISHED', 2: 'SYN_SENT', 3: 'SYN_RECV', 4: 'FIN_WAIT1', 5: 'FIN_WAIT2', 6: 'TIME_WAIT', 7: 'CLOSE', 8: 'CLOSE_WAIT', 9: 'LAST_ACK', 10: 'LISTEN' }, 'proto': { 0: 'IP', 6: 'TCP', 17: 'UDP', 136: 'UDPLITE' }, } gen_rmaps = { k: {v2: k2 for k2, v2 in list(v.items())} for k, v in list(gen_maps.items()) } sk_rmaps = { k: {v2: k2 for k2, v2 in list(v.items())} for k, v in list(sk_maps.items()) } dict_maps = { 'gen': (gen_maps, gen_rmaps), 'sk': (sk_maps, sk_rmaps), } def map_flags(value, flags_map): bs = [x[0] for x in [x for x in flags_map if value & x[1]]] value &= ~sum([x[1] for x in flags_map]) if value: bs.append("0x%x" % value) return " | ".join(bs) def unmap_flags(value, flags_map): if value == '': return 0 bd = dict(flags_map) return sum([ int(str(bd.get(x, x)), 0) for x in [x.strip() for x in value.split('|')] ]) kern_minorbits = 20 # This is how kernel encodes dev_t in new format def decode_dev(field, value): if _marked_as_odev(field): return "%d:%d" % (os.major(value), os.minor(value)) else: return "%d:%d" % (value >> kern_minorbits, value & ((1 << kern_minorbits) - 1)) def encode_dev(field, value): dev = [int(x) for x in value.split(':')] if _marked_as_odev(field): return os.makedev(dev[0], dev[1]) else: return dev[0] << kern_minorbits | dev[1] def encode_base64(value): return base64.encodebytes(value) def decode_base64(value): return base64.decodebytes(value) def encode_unix(value): return quopri.encodestring(value) def decode_unix(value): return quopri.decodestring(value) encode = {'unix_name': encode_unix} decode = {'unix_name': decode_unix} def get_bytes_enc(field): c = _custom_conv(field) if c: return encode[c] else: return encode_base64 def get_bytes_dec(field): c = _custom_conv(field) if c: return decode[c] else: return decode_base64 def is_string(value): # Python 3 compatibility if "basestring" in __builtins__: string_types = basestring # noqa: F821 else: string_types = (str, bytes) return isinstance(value, string_types) def _pb2dict_cast(field, value, pretty=False, is_hex=False): if not is_hex: is_hex = _marked_as_hex(field) if field.type == FD.TYPE_MESSAGE: return pb2dict(value, pretty, is_hex) elif field.type == FD.TYPE_BYTES: return get_bytes_enc(field)(value) elif field.type == FD.TYPE_ENUM: return field.enum_type.values_by_number.get(value, None).name elif field.type in _basic_cast: cast = _basic_cast[field.type] if pretty and (cast == int): if is_hex: # Fields that have (criu).hex = true option set # should be stored in hex string format. return "0x%x" % value if _marked_as_dev(field): return decode_dev(field, value) flags = _marked_as_flags(field) if flags: try: flags_map = flags_maps[flags] except Exception: return "0x%x" % value # flags are better seen as hex anyway else: return map_flags(value, flags_map) dct = _marked_as_dict(field) if dct: return dict_maps[dct][0][field.name].get(value, cast(value)) return cast(value) else: raise Exception("Field(%s) has unsupported type %d" % (field.name, field.type)) def pb2dict(pb, pretty=False, is_hex=False): """ Convert protobuf msg to dictionary. Takes a protobuf message and returns a dict. """ d = collections.OrderedDict() if pretty else {} for field, value in pb.ListFields(): if field.label == FD.LABEL_REPEATED: d_val = [] if pretty and _marked_as_ip(field): if len(value) == 1: v = socket.ntohl(value[0]) addr = IPv4Address(v) else: v = 0 + (socket.ntohl(value[0]) << (32 * 3)) + \ (socket.ntohl(value[1]) << (32 * 2)) + \ (socket.ntohl(value[2]) << (32 * 1)) + \ (socket.ntohl(value[3])) addr = IPv6Address(v) d_val.append(addr.compressed) else: for v in value: d_val.append(_pb2dict_cast(field, v, pretty, is_hex)) else: d_val = _pb2dict_cast(field, value, pretty, is_hex) d[field.name] = d_val return d def _dict2pb_cast(field, value): # Not considering TYPE_MESSAGE here, as repeated # and non-repeated messages need special treatment # in this case, and are hadled separately. if field.type == FD.TYPE_BYTES: return get_bytes_dec(field)(value) elif field.type == FD.TYPE_ENUM: return field.enum_type.values_by_name.get(value, None).number elif field.type in _basic_cast: cast = _basic_cast[field.type] if (cast == int) and is_string(value): if _marked_as_dev(field): return encode_dev(field, value) flags = _marked_as_flags(field) if flags: try: flags_map = flags_maps[flags] except Exception: pass # Try to use plain string cast else: return unmap_flags(value, flags_map) dct = _marked_as_dict(field) if dct: ret = dict_maps[dct][1][field.name].get(value, None) if ret is None: ret = cast(value, 0) return ret # Some int or long fields might be stored as hex # strings. See _pb2dict_cast. return cast(value, 0) else: return cast(value) else: raise Exception("Field(%s) has unsupported type %d" % (field.name, field.type)) def dict2pb(d, pb): """ Convert dictionary to protobuf msg. Takes dict and protobuf message to be merged into. """ for field in pb.DESCRIPTOR.fields: if field.name not in d: continue value = d[field.name] if field.label == FD.LABEL_REPEATED: pb_val = getattr(pb, field.name, None) if is_string(value[0]) and _marked_as_ip(field): val = ip_address(value[0]) if val.version == 4: pb_val.append(socket.htonl(int(val))) elif val.version == 6: ival = int(val) pb_val.append(socket.htonl((ival >> (32 * 3)) & 0xFFFFFFFF)) pb_val.append(socket.htonl((ival >> (32 * 2)) & 0xFFFFFFFF)) pb_val.append(socket.htonl((ival >> (32 * 1)) & 0xFFFFFFFF)) pb_val.append(socket.htonl((ival >> (32 * 0)) & 0xFFFFFFFF)) else: raise Exception("Unknown IP address version %d" % val.version) continue for v in value: if field.type == FD.TYPE_MESSAGE: dict2pb(v, pb_val.add()) else: pb_val.append(_dict2pb_cast(field, v)) else: if field.type == FD.TYPE_MESSAGE: # SetInParent method acts just like has_* = true in C, # and helps to properly treat cases when we have optional # field with empty repeated inside. getattr(pb, field.name).SetInParent() dict2pb(value, getattr(pb, field.name, None)) else: setattr(pb, field.name, _dict2pb_cast(field, value)) return pb