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# Written by John Hoffman
# see LICENSE.txt for license information
from bisect import bisect, insort
try:
True
except:
True = 1
False = 0
bool = lambda x: not not x
def to_long_ipv4(ip):
ip = ip.split('.')
if len(ip) != 4:
raise ValueError, "bad address"
b = 0L
for n in ip:
b *= 256
b += int(n)
return b
def to_long_ipv6(ip):
if ip == '':
raise ValueError, "bad address"
if ip == '::': # boundary handling
ip = ''
elif ip[:2] == '::':
ip = ip[1:]
elif ip[0] == ':':
raise ValueError, "bad address"
elif ip[-2:] == '::':
ip = ip[:-1]
elif ip[-1] == ':':
raise ValueError, "bad address"
b = []
doublecolon = False
for n in ip.split(':'):
if n == '': # double-colon
if doublecolon:
raise ValueError, "bad address"
doublecolon = True
b.append(None)
continue
if n.find('.') >= 0: # IPv4
n = n.split('.')
if len(n) != 4:
raise ValueError, "bad address"
for i in n:
b.append(int(i))
continue
n = ('0'*(4-len(n))) + n
b.append(int(n[:2],16))
b.append(int(n[2:],16))
bb = 0L
for n in b:
if n is None:
for i in xrange(17-len(b)):
bb *= 256
continue
bb *= 256
bb += n
return bb
ipv4addrmask = 65535L*256*256*256*256
class IP_List:
def __init__(self):
self.ipv4list = [] # starts of ranges
self.ipv4dict = {} # start: end of ranges
self.ipv6list = [] # "
self.ipv6dict = {} # "
def __nonzero__(self):
return bool(self.ipv4list or self.ipv6list)
def append(self, ip_beg, ip_end = None):
if ip_end is None:
ip_end = ip_beg
else:
assert ip_beg <= ip_end
if ip_beg.find(':') < 0: # IPv4
ip_beg = to_long_ipv4(ip_beg)
ip_end = to_long_ipv4(ip_end)
l = self.ipv4list
d = self.ipv4dict
else:
ip_beg = to_long_ipv6(ip_beg)
ip_end = to_long_ipv6(ip_end)
bb = ip_beg % (256*256*256*256)
if bb == ipv4addrmask:
ip_beg -= bb
ip_end -= bb
l = self.ipv4list
d = self.ipv4dict
else:
l = self.ipv6list
d = self.ipv6dict
pos = bisect(l,ip_beg)-1
done = pos < 0
while not done:
p = pos
while p < len(l):
range_beg = l[p]
if range_beg > ip_end+1:
done = True
break
range_end = d[range_beg]
if range_end < ip_beg-1:
p += 1
if p == len(l):
done = True
break
continue
# if neither of the above conditions is true, the ranges overlap
ip_beg = min(ip_beg, range_beg)
ip_end = max(ip_end, range_end)
del l[p]
del d[range_beg]
break
insort(l,ip_beg)
d[ip_beg] = ip_end
def includes(self, ip):
if not (self.ipv4list or self.ipv6list):
return False
if ip.find(':') < 0: # IPv4
ip = to_long_ipv4(ip)
l = self.ipv4list
d = self.ipv4dict
else:
ip = to_long_ipv6(ip)
bb = ip % (256*256*256*256)
if bb == ipv4addrmask:
ip -= bb
l = self.ipv4list
d = self.ipv4dict
else:
l = self.ipv6list
d = self.ipv6dict
for ip_beg in l[bisect(l,ip)-1:]:
if ip == ip_beg:
return True
ip_end = d[ip_beg]
if ip > ip_beg and ip <= ip_end:
return True
return False
# reads a list from a file in the format 'whatever:whatever:ip-ip'
# (not IPv6 compatible at all)
def read_rangelist(self, file):
f = open(file, 'r')
while True:
line = f.readline()
if not line:
break
line = line.strip()
if not line or line[0] == '#':
continue
line = line.split(':')[-1]
try:
ip1,ip2 = line.split('-')
except:
ip1 = line
ip2 = line
try:
self.append(ip1.strip(),ip2.strip())
except:
print '*** WARNING *** could not parse IP range: '+line
f.close()
def is_ipv4(ip):
return ip.find(':') < 0
def is_valid_ip(ip):
try:
if is_ipv4(ip):
a = ip.split('.')
assert len(a) == 4
for i in a:
chr(int(i))
return True
to_long_ipv6(ip)
return True
except:
return False