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import os
stl_pathname = os.path.abspath(os.path.join(os.pardir, os.pardir, 'trex_control_plane','stl','trex_stl_lib'))
import trex_stl_lib
from trex_stl_lib.api import *
from copy import deepcopy
import sys
import tempfile
import hashlib
import binascii
try:
from cStringIO import StringIO
except ImportError:
from io import StringIO
"""
**** output redirection template ****
old_stdout = sys.stdout
sys.stdout = mystdout = StringIO()
ls()
sys.stdout = old_stdout
a= mystdout.getvalue()
f = open('scapy_supported_formats.txt','w')
f.write(a)
f.close()
"""
class scapy_server:
#----------------------------------------------------------------------------------------------------
class scapyRegex:
def __init__(self,FieldName,regex='empty'):
self.FieldName = FieldName
self.regex = regex
def stringRegex(self):
return self.regex
class pktResult(BaseException):
def __init__(self,result,errorCode,errorDesc):
self.result = result
self.errorCode = errorCode
self.errorDesc = errorDesc
def convert2tuple(self):
return tuple([self.result,self.errorCode,self.errorDesc])
#----------------------------------------------------------------------------------------------------
def __init__(self):
self.Raw = {'Raw':''}
self.high_level_protocols = ['Raw']
self.transport_protocols = {'TCP':self.Raw,'UDP':self.Raw}
self.network_protocols = {'IP':self.transport_protocols ,'ARP':''}
self.low_level_protocols = { 'Ether': self.network_protocols }
self.regexDB= {'MACField' : self.scapyRegex('MACField','^([0-9a-fA-F][0-9a-fA-F]:){5}([0-9a-fA-F][0-9a-fA-F])$'),
'IPField' : self.scapyRegex('IPField','^(25[0-5]|2[0-4][0-9]|[0-1]{1}[0-9]{2}|[1-9]{1}[0-9]{1}|[1-9])\.(25[0-5]|2[0-4][0-9]|[0-1]{1}[0-9]{2}|[1-9]{1}[0-9]{1}|[1-9]|0)\.(25[0-5]|2[0-4][0-9]|[0-1]{1}[0-9]{2}|[1-9]{1}[0-9]{1}|[1-9]|0)\.(25[0-5]|2[0-4][0-9]|[0-1]{1}[0-9]{2}|[1-9]{1}[0-9]{1}|[0-9])$')}
self.all_protocols = self.build_lib()
self.protocol_tree = self.build_tree()
#-------------------------------------------------------TREE IMPLEMENTATION ------------------------
class node(object):
def __init__(self, value):#, children = []):
self.value = value
self.children = []
def __str__(self, level=0):
ret = "\t"*level+repr(self.value)+"\n"
for child in self.children:
ret += child.__str__(level+1)
return ret
def build_nodes(self,data,dictionary):
n = self.node(data)
if len(dictionary)==0:
n.children=[]
return n
for obj in dictionary.keys():
if not (obj==''):
x = self.build_nodes(obj,dictionary[obj])
n.children.append(x)
return n
def build_tree(self):
root = self.node('ALL')
root.children = []
root = self.build_nodes('ALL',self.low_level_protocols)
return root
def protocol_struct(self,protocol=''):
if '_' in protocol:
return []
if not protocol=='':
if protocol not in self.all_protocols:
return 'protocol not supported'
protocol = eval(protocol)
old_stdout = sys.stdout
sys.stdout = mystdout = StringIO()
if not protocol=='':
ls(protocol)
else:
ls()
sys.stdout = old_stdout
protocol_data= mystdout.getvalue()
return protocol_data
def build_lib(self):
lib = self.protocol_struct()
lib = lib.split('\n')
all_protocols=[]
for entry in lib:
entry = entry.split(':')
all_protocols.append(entry[0].strip())
del all_protocols[len(all_protocols)-1]
return all_protocols
def parse_description_line(self,line):
line_arr = [x.strip() for x in re.split(': | = ',line)]
return tuple(line_arr)
def parse_entire_description(self,description):
description = description.split('\n')
description_list = [self.parse_description_line(x) for x in description]
del description_list[len(description_list)-1]
return description_list
def get_protocol_details(self,p_name):
protocol_str = self.protocol_struct(p_name)
if protocol_str=='protocol not supported':
return 'protocol not supported'
if len(protocol_str) is 0:
return []
tupled_protocol = self.parse_entire_description(protocol_str)
return tupled_protocol
def print_tree_level(self,root,level=0):
output = "\t"*level+str(root.value)
print (output)
if len(root.children)==0:
return
for child in root.children:
self.print_tree_level(child,level+1)
def print_tree(self):
self.print_tree_level(self.protocol_tree)
def get_all_protocols(self):
return self.all_protocols
def get_tree(self):
old_stdout = sys.stdout
sys.stdout = mystdout = StringIO()
print_tree(t)
sys.stdout = old_stdout
a= mystdout.getvalue()
return a
def get_all_db(self):
db = {}
for pro in self.all_protocols:
details = self.get_protocol_details(pro)
db[pro] = details
return db
def get_all_fields(self):
fields = []
for pro in self.all_protocols:
details = self.get_protocol_details(pro)
for i in range(0,len(details),1):
if len(details[i]) is 3:
fields.append(details[i][1])
uniqeFields = list(set(fields))
fieldDict = {}
for f in uniqeFields:
if f in self.regexDB:
fieldDict[f] = self.regexDB[f].stringRegex()
else:
fieldDict[f] = self.scapyRegex(f).stringRegex()
return fieldDict
def show2toDict(self,pkt):
old_stdout = sys.stdout
sys.stdout = mystdout = StringIO()
pkt.show2()
sys.stdout = old_stdout
show2data = mystdout.getvalue() #show2 data
listedShow2Data = show2data.split('###')
show2Dict = {}
for i in range(1,len(listedShow2Data)-1,2):
protocol_fields = listedShow2Data[i+1]
protocol_fields = protocol_fields.split('\n')[1:-1]
protocol_fields = [f.strip() for f in protocol_fields]
layer_name = re.sub(r'\W+', '',listedShow2Data[i]) #clear layer name to include only alpha-numeric
show2Dict[layer_name] = protocol_fields
return show2Dict
#pkt_desc as string
#dictionary of offsets per protocol. tuple for each field: (name, offset, size) at json format
def get_all_pkt_offsets(self,pkt_desc):
pkt_protocols = pkt_desc.split('/')
scapy_pkt = eval(pkt_desc)
total_protocols = len(pkt_protocols)
res = {}
for i in range(total_protocols):
fields = []
for field in scapy_pkt.fields_desc:
size = field.get_size_bytes()
if field.name is 'load':
size = len(scapy_pkt)
fields.append([field.name, field.offset, size])
layer_name = pkt_protocols[i].partition('(')[0] #clear layer name to include only alpha-numeric
layer_name = re.sub(r'\W+', '',layer_name)
res[layer_name] = fields
scapy_pkt=scapy_pkt.payload
return res
# pkt_descriptor in string format
def build_pkt(self,pkt_descriptor):
pkt = eval(pkt_descriptor)
show2data = self.show2toDict(pkt)
bufferData = str(pkt) #pkt buffer
bufferData = binascii.b2a_base64(bufferData)
pkt_offsets = self.get_all_pkt_offsets(pkt_descriptor)
res = [show2data,bufferData,pkt_offsets]
return res
#input: container
#output: md5 encoded in base64
def getMD5(self,container):
container = json.dumps(container)
m = hashlib.md5()
m.update(container.encode('ascii'))
res_md5 = binascii.b2a_base64(m.digest())
return res_md5
def get_all(self):
fields=self.get_all_fields()
db=self.get_all_db()
fields_md5 = self.getMD5(fields)
db_md5 = self.getMD5(db)
res = {}
res['db'] = db
res['fields'] = fields
res['db_md5'] = db_md5
res['fields_md5'] = fields_md5
return res
#input in string encoded base64
def check_update(self,db_md5,field_md5):
fields=self.get_all_fields()
db=self.get_all_db()
current_db_md5 = self.getMD5(db)
current_field_md5 = self.getMD5(fields)
res = []
if field_md5 == current_field_md5:
if db_md5 == current_db_md5:
return True
else:
raise Exception("Protocol DB is not up to date")
else:
raise Exception("Fields DB is not up to date")
def get_version(self):
return {'built_by':'itraviv','version':'v1.0'}
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