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Scapy GTP Layer
#! /usr/bin/env python
## Copyright (C) 2014 Guillaume Valadon <[email protected]>
## 2014 Alexis Sultan <[email protected]>
## 2012 ffranz <[email protected]>
##
## This program is published under a GPLv2 license
# scapy.contrib.description = GTP
# scapy.contrib.status = loads
import time
import logging
from scapy.packet import *
from scapy.fields import *
from scapy.layers.inet import IP, UDP
# GTP Data types
GTPmessageType = { 1: "echo_request",
2: "echo_response",
16: "create_pdp_context_req",
17: "create_pdp_context_res",
20: "delete_pdp_context_req",
21: "delete_pdp_context_res",
26: "error_indication",
27: "pdu_notification_req",
255: "gtp_u_header" }
IEType = { 1: "Cause",
2: "IMSI",
3: "RAI",
4: "TLLI",
5: "P_TMSI",
14: "Recovery",
15: "SelectionMode",
16: "TEIDI",
17: "TEICP",
19: "TeardownInd",
20: "NSAPI",
26: "ChargingChrt",
27: "TraceReference",
28: "TraceType",
128: "EndUserAddress",
131: "AccessPointName",
132: "ProtocolConfigurationOptions",
133: "GSNAddress",
134: "MSInternationalNumber",
135: "QoS",
148: "CommonFlags",
151: "RatType",
152: "UserLocationInformation",
153: "MSTimeZone",
154: "IMEI" }
CauseValues = { 0: "Request IMSI",
1: "Request IMEI",
2: "Request IMSI and IMEI",
3: "No identity needed",
4: "MS Refuses",
5: "MS is not GPRS Responding",
128: "Request accepted",
129: "New PDP type due to network preference",
130: "New PDP type due to single address bearer only",
192: "Non-existent",
193: "Invalid message format",
194: "IMSI not known",
195: "MS is GPRS Detached",
196: "MS is not GPRS Responding",
197: "MS Refuses",
198: "Version not supported",
199: "No resources available",
200: "Service not supported",
201: "Mandatory IE incorrect",
202: "Mandatory IE missing",
203: "Optional IE incorrect",
204: "System failure",
205: "Roaming restriction",
206: "P-TMSI Signature mismatch",
207: "GPRS connection suspended",
208: "Authentication failure",
209: "User authentication failed",
210: "Context not found",
211: "All dynamic PDP addresses are occupied",
212: "No memory is available",
213: "Reallocation failure",
214: "Unknown mandatory extension header",
215: "Semantic error in the TFT operation",
216: "Syntactic error in TFT operation",
217: "Semantic errors in packet filter(s)",
218: "Syntactic errors in packet filter(s)",
219: "Missing or unknown APN",
220: "Unknown PDP address or PDP type",
221: "PDP context without TFT already activated",
222: "APN access denied : no subscription",
223: "APN Restriction type incompatibility with currently active PDP Contexts",
224: "MS MBMS Capabilities Insufficient",
225: "Invalid Correlation : ID",
226: "MBMS Bearer Context Superseded",
227: "Bearer Control Mode violation",
228: "Collision with network initiated request" }
Selection_Mode = { 11111100: "MS or APN",
11111101: "MS",
11111110: "NET",
11111111: "FutureUse" }
TeardownInd_value = { 254: "False",
255: "True" }
class TBCDByteField(StrFixedLenField):
def i2h(self, pkt, val):
ret = []
for i in range(len(val)):
byte = ord(val[i])
left = byte >> 4
right = byte & 0xF
if left == 0xF:
ret += [ "%d" % right ]
else:
ret += [ "%d" % right, "%d" % left ]
return "".join(ret)
def i2repr(self, pkt, x):
return repr(self.i2h(pkt,x))
def i2m(self, pkt, val):
ret_string = ""
for i in range(0, len(val), 2):
tmp = val[i:i+2]
if len(tmp) == 2:
ret_string += chr(int(tmp[1] + tmp[0], 16))
else:
ret_string += chr(int("F" + tmp[0], 16))
return ret_string
class GTPHeader(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Header"
fields_desc=[ BitField("version", 1, 3),
BitField("PT", 1, 1),
BitField("reserved", 0, 1),
BitField("E", 0, 1),
BitField("S", 1, 1),
BitField("PN", 0, 1),
ByteEnumField("gtp_type", None, GTPmessageType),
ShortField("length", None),
IntField("teid", 0) ]
def post_build(self, p, pay):
p += pay
if self.length is None:
l = len(p)-8
p = p[:2] + struct.pack("!H", l)+ p[4:]
return p
def hashret(self):
return struct.pack("B", self.version) + self.payload.hashret()
def answers(self, other):
return (isinstance(other, GTPHeader) and
self.version == other.version and
self.payload.answers(other.payload))
class GTPEchoRequest(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Echo Request"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex", 0),]
def hashret(self):
return struct.pack("H", self.seq)
class IE_Cause(Packet):
name = "Cause"
fields_desc = [ ByteEnumField("ietype", 1, IEType),
BitField("Response", None, 1),
BitField("Rejection", None, 1),
BitEnumField("CauseValue", None, 6, CauseValues) ]
def extract_padding(self, pkt):
return "",pkt
class IE_IMSI(Packet):
name = "IMSI - Subscriber identity of the MS"
fields_desc = [ ByteEnumField("ietype", 2, IEType),
TBCDByteField("imsi", str(RandNum(0, 999999999999999)), 8) ]
def extract_padding(self, pkt):
return "",pkt
class IE_Routing(Packet):
name = "Routing Area Identity"
fields_desc = [ ByteEnumField("ietype", 3, IEType),
TBCDByteField("MCC", "", 2),
# MNC: if the third digit of MCC is 0xf, then the length of MNC is 1 byte
TBCDByteField("MNC", "", 1),
ShortField("LAC", None),
ByteField("RAC", None) ]
def extract_padding(self, pkt):
return "",pkt
class IE_Recovery(Packet):
name = "Recovery"
fields_desc = [ ByteEnumField("ietype", 14, IEType),
ByteField("res-counter", 24) ]
def extract_padding(self, pkt):
return "",pkt
class IE_SelectionMode(Packet):
# Indicates the origin of the APN in the message
name = "Selection Mode"
fields_desc = [ ByteEnumField("ietype", 15, IEType),
BitEnumField("SelectionMode", "MS or APN", 8, Selection_Mode) ]
def extract_padding(self, pkt):
return "",pkt
class IE_TEIDI(Packet):
name = "Tunnel Endpoint Identifier Data"
fields_desc = [ ByteEnumField("ietype", 16, IEType),
XIntField("TEIDI", RandInt()) ]
def extract_padding(self, pkt):
return "",pkt
class IE_TEICP(Packet):
name = "Tunnel Endpoint Identifier Control Plane"
fields_desc = [ ByteEnumField("ietype", 17, IEType),
XIntField("TEICI", RandInt())]
def extract_padding(self, pkt):
return "",pkt
class IE_Teardown(Packet):
name = "Teardown Indicator"
fields_desc = [ ByteEnumField("ietype", 19, IEType),
ByteEnumField("indicator", "True", TeardownInd_value) ]
def extract_padding(self, pkt):
return "",pkt
class IE_NSAPI(Packet):
# Identifies a PDP context in a mobility management context specified by TEICP
name = "NSAPI"
fields_desc = [ ByteEnumField("ietype", 20, IEType),
XBitField("sparebits", 0x0000, 4),
XBitField("NSAPI", RandNum(0, 15), 4) ]
def extract_padding(self, pkt):
return "",pkt
class IE_ChargingCharacteristics(Packet):
# Way of informing both the SGSN and GGSN of the rules for
name = "Charging Characteristics"
fields_desc = [ ByteEnumField("ietype", 26, IEType),
# producing charging information based on operator configured triggers.
# 0000 .... .... .... : spare
# .... 1... .... .... : normal charging
# .... .0.. .... .... : prepaid charging
# .... ..0. .... .... : flat rate charging
# .... ...0 .... .... : hot billing charging
# .... .... 0000 0000 : reserved
XBitField("Ch_ChSpare", None, 4),
XBitField("normal_charging", None, 1),
XBitField("prepaid_charging", None, 1),
XBitField("flat_rate_charging", None, 1),
XBitField("hot_billing_charging", None, 1),
XBitField("Ch_ChReserved", 0, 8) ]
def extract_padding(self, pkt):
return "",pkt
class IE_TraceReference(Packet):
# Identifies a record or a collection of records for a particular trace.
name = "Trace Reference"
fields_desc = [ ByteEnumField("ietype", 27, IEType),
XBitField("Trace_reference", None, 16) ]
def extract_padding(self, pkt):
return "",pkt
class IE_TraceType(Packet):
# Indicates the type of the trace
name = "Trace Type"
fields_desc = [ ByteEnumField("ietype", 28, IEType),
XBitField("Trace_type", None, 16) ]
def extract_padding(self, pkt):
return "",pkt
class IE_EndUserAddress(Packet):
# Supply protocol specific information of the external packet
name = "End User Addresss"
fields_desc = [ ByteEnumField("ietype", 128, IEType),
# data network accessed by the GGPRS subscribers.
# - Request
# 1 Type (1byte)
# 2-3 Length (2bytes) - value 2
# 4 Spare + PDP Type Organization
# 5 PDP Type Number
# - Response
# 6-n PDP Address
BitField("EndUserAddressLength", 2, 16),
BitField("EndUserAddress", 1111, 4),
BitField("PDPTypeOrganization", 1, 4),
XByteField("PDPTypeNumber", None) ]
def extract_padding(self, pkt):
return "",pkt
class APNStrLenField(StrLenField):
# Inspired by DNSStrField
def m2i(self, pkt, s):
ret_s = ""
tmp_s = s
while tmp_s:
tmp_len = struct.unpack("!B", tmp_s[0])[0] + 1
if tmp_len > len(tmp_s):
warning("APN prematured end of character-string (size=%i, remaining bytes=%i)" % (tmp_len, len(tmp_s)))
ret_s += tmp_s[1:tmp_len]
tmp_s = tmp_s[tmp_len:]
if len(tmp_s) :
ret_s += "."
s = ret_s
return s
def i2m(self, pkt, s):
s = "".join(map(lambda x: chr(len(x))+x, s.split(".")))
return s
class IE_AccessPointName(Packet):
# Sent by SGSN or by GGSN as defined in 3GPP TS 23.060
name = "Access Point Name"
fields_desc = [ ByteEnumField("ietype", 131, IEType),
ShortField("length", None),
APNStrLenField("APN", "nternet", length_from=lambda x: x.length) ]
def extract_padding(self, pkt):
return "",pkt
def post_build(self, p, pay):
if self.length is None:
l = len(p)-3
p = p[:2] + struct.pack("!B", l)+ p[3:]
return p
class IE_ProtocolConfigurationOptions(Packet):
name = "Protocol Configuration Options"
fields_desc = [ ByteEnumField("ietype", 132, IEType),
ShortField("length", 4),
StrLenField("Protocol Configuration", "", length_from=lambda x: x.length) ]
def extract_padding(self, pkt):
return "",pkt
class IE_GSNAddress(Packet):
name = "GSN Address"
fields_desc = [ ByteEnumField("ietype", 133, IEType),
ShortField("length", 4),
IPField("address", RandIP()) ]
def extract_padding(self, pkt):
return "",pkt
class IE_MSInternationalNumber(Packet):
name = "MS International Number"
fields_desc = [ ByteEnumField("ietype", 134, IEType),
ShortField("length", None),
FlagsField("flags", 0x91, 8, ["Extension","","","International Number","","","","ISDN numbering"]),
TBCDByteField("digits", "33607080910", length_from=lambda x: x.length-1) ]
def extract_padding(self, pkt):
return "",pkt
class IE_UserLocationInformation(Packet):
name = "User Location Information"
fields_desc = [ ByteEnumField("ietype", 152, IEType),
ShortField("length", None),
ByteField("type", 1),
# Only type 1 is currently supported
TBCDByteField("MCC", "", 2),
# MNC: if the third digit of MCC is 0xf, then the length of MNC is 1 byte
TBCDByteField("MNC", "", 1),
ShortField("LAC", None),
ShortField("SAC", None) ]
def extract_padding(self, pkt):
return "",pkt
class IE_IMEI(Packet):
name = "IMEI"
fields_desc = [ ByteEnumField("ietype", 154, IEType),
ShortField("length", None),
TBCDByteField("IMEI", "", length_from=lambda x: x.length) ]
def extract_padding(self, pkt):
return "",pkt
class IE_NotImplementedTLV(Packet):
name = "IE not implemented"
fields_desc = [ ByteEnumField("ietype", 0, IEType),
ShortField("length", None),
StrLenField("data", "", length_from=lambda x: x.length) ]
def extract_padding(self, pkt):
return "",pkt
ietypecls = { 1: IE_Cause, 2: IE_IMSI, 3: IE_Routing, 14: IE_Recovery, 15: IE_SelectionMode, 16: IE_TEIDI,
17: IE_TEICP, 19: IE_Teardown, 20: IE_NSAPI, 26: IE_ChargingCharacteristics,
27: IE_TraceReference, 28: IE_TraceType,
128: IE_EndUserAddress, 131: IE_AccessPointName, 132: IE_ProtocolConfigurationOptions,
133: IE_GSNAddress, 134: IE_MSInternationalNumber, 152: IE_UserLocationInformation, 154: IE_IMEI }
def IE_Dispatcher(s):
"""Choose the correct Information Element class."""
if len(s) < 1:
return Raw(s)
# Get the IE type
ietype = ord(s[0])
cls = ietypecls.get(ietype, Raw)
# if ietype greater than 128 are TLVs
if cls == Raw and ietype & 128 == 128:
cls = IE_NotImplementedTLV
return cls(s)
class GTPEchoResponse(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Echo Response"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex", 0),
PacketListField("IE_list", [], IE_Dispatcher) ]
def hashret(self):
return struct.pack("H", self.seq)
def answers(self, other):
return self.seq == other.seq
class GTPCreatePDPContextRequest(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Create PDP Context Request"
fields_desc = [ ShortField("seq", RandShort()),
ByteField("npdu", 0),
ByteField("next_ex", 0),
PacketListField("IE_list", [ IE_TEIDI(), IE_NSAPI(), IE_GSNAddress(),
IE_GSNAddress(),
IE_NotImplementedTLV(ietype=135, length=15,data=RandString(15)) ],
IE_Dispatcher) ]
def hashret(self):
return struct.pack("H", self.seq)
class GTPCreatePDPContextResponse(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Create PDP Context Response"
fields_desc = [ ShortField("seq", RandShort()),
ByteField("npdu", 0),
ByteField("next_ex", 0),
PacketListField("IE_list", [], IE_Dispatcher) ]
def hashret(self):
return struct.pack("H", self.seq)
def answers(self, other):
return self.seq == other.seq
class GTPErrorIndication(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Error Indication"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex",0),
PacketListField("IE_list", [], IE_Dispatcher) ]
class GTPDeletePDPContextRequest(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Delete PDP Context Request"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex", 0),
PacketListField("IE_list", [], IE_Dispatcher) ]
class GTPDeletePDPContextResponse(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP Delete PDP Context Response"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex",0),
PacketListField("IE_list", [], IE_Dispatcher) ]
class GTPPDUNotificationRequest(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP PDU Notification Request"
fields_desc = [ XBitField("seq", 0, 16),
ByteField("npdu", 0),
ByteField("next_ex", 0),
PacketListField("IE_list", [ IE_IMSI(),
IE_TEICP(TEICI=RandInt()),
IE_EndUserAddress(PDPTypeNumber=0x21),
IE_AccessPointName(),
IE_GSNAddress(address="127.0.0.1"),
], IE_Dispatcher) ]
class GTP_U_Header(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP-U Header"
# GTP-U protocol is used to transmit T-PDUs between GSN pairs (or between an SGSN and an RNC in UMTS),
# encapsulated in G-PDUs. A G-PDU is a packet including a GTP-U header and a T-PDU. The Path Protocol
# defines the path and the GTP-U header defines the tunnel. Several tunnels may be multiplexed on a single path.
fields_desc = [ BitField("version", 1,3),
BitField("PT", 1, 1),
BitField("Reserved", 0, 1),
BitField("E", 0,1),
BitField("S", 0, 1),
BitField("PN", 0, 1),
ByteEnumField("gtp_type", None, GTPmessageType),
BitField("length", None, 16),
XBitField("TEID", 0, 32),
ConditionalField(XBitField("seq", 0, 16), lambda pkt:pkt.E==1 or pkt.S==1 or pkt.PN==1),
ConditionalField(ByteField("npdu", 0), lambda pkt:pkt.E==1 or pkt.S==1 or pkt.PN==1),
ConditionalField(ByteField("next_ex", 0), lambda pkt:pkt.E==1 or pkt.S==1 or pkt.PN==1),
]
def post_build(self, p, pay):
p += pay
if self.length is None:
l = len(p)-8
p = p[:2] + struct.pack("!H", l)+ p[4:]
return p
class GTPmorethan1500(Packet):
# 3GPP TS 29.060 V9.1.0 (2009-12)
name = "GTP More than 1500"
fields_desc = [ ByteEnumField("IE_Cause", "Cause", IEType),
BitField("IE", 1, 12000),]
# Bind GTP-C
bind_layers(UDP, GTPHeader, dport = 2123)
bind_layers(UDP, GTPHeader, sport = 2123)
bind_layers(GTPHeader, GTPEchoRequest, gtp_type = 1)
bind_layers(GTPHeader, GTPEchoResponse, gtp_type = 2)
bind_layers(GTPHeader, GTPCreatePDPContextRequest, gtp_type = 16)
bind_layers(GTPHeader, GTPCreatePDPContextResponse, gtp_type = 17)
bind_layers(GTPHeader, GTPDeletePDPContextRequest, gtp_type = 20)
bind_layers(GTPHeader, GTPDeletePDPContextResponse, gtp_type = 21)
bind_layers(GTPHeader, GTPPDUNotificationRequest, gtp_type = 27)
# Bind GTP-U
bind_layers(UDP, GTP_U_Header, dport = 2152)
bind_layers(UDP, GTP_U_Header, sport = 2152)
bind_layers(GTP_U_Header, IP, gtp_type = 255)
if __name__ == "__main__":
from scapy.all import *
interact(mydict=globals(), mybanner="GTPv1 add-on")
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