def prefix(tokeniser): # XXX: could raise ip = tokeniser() try: ip, mask = ip.split('/') except ValueError: mask = '32' tokeniser.afi = IP.toafi(ip) return IPRange.create(ip, mask)
def prefix (tokeniser): # XXX: could raise ip = tokeniser() try: ip,mask = ip.split('/') except ValueError: mask = '32' if ':' in ip: mask = '128' tokeniser.afi = IP.toafi(ip) return IPRange.create(ip,mask)
def peer_ip(tokeniser): if not tokeniser.tokens: raise ValueError('an ip address is required') value = tokeniser() if '/' in value: value, mask = value.split('/', 1) else: # XXX: This only works as no port are allowed, improve mask = '128' if ':' in value else '32' try: return IPRange.create(value, mask) except (IndexError, ValueError, socket.error): raise ValueError('"%s" is an invalid IP address' % value)
def peer_ip (tokeniser): if not tokeniser.tokens: raise ValueError('an ip address is required') value = tokeniser() if '/' in value: value,mask = value.split('/',1) else: # XXX: This only works as no port are allowed, improve mask = '128' if ':' in value else '32' try: return IPRange.create(value,mask) except (IndexError,ValueError,socket.error): raise ValueError('"%s" is an invalid IP address' % value)
def prefix(tokeniser): # XXX: could raise ip = tokeniser() try: ip, mask = ip.split('/') except ValueError: mask = '32' if ':' in ip: mask = '128' tokeniser.afi = IP.toafi(ip) iprange = IPRange.create(ip, mask) if iprange.address() & iprange.mask.hostmask() != 0: raise ValueError('invalid network %s for netmask %s' % (ip, mask)) return iprange