Pytricia is a new python module to store IP prefixes in a patricia tree. It's based on Dave Plonka's modified patricia tree code, and has three things to recommend it over related modules (including py-radix and SubnetTree):
- it's faster (see below),
- it works in Python 3, and
- there are a few nicer library features for manipulating the structure.
Copyright (c) 2012-2017 Joel Sommers. All rights reserved.
Pytricia is released under terms of the GNU Lesser General Public License, version 3.0 and greater.
Building pytricia is done in the standard pythonic way:
python setup.py build
python setup.py install
This code is beta quality at present but has been tested on OS X 10.11 and Ubuntu 14.04 (both 64 bit) and Python 2.7.6 and Python 3.6.1.
Create a pytricia object and load a couple prefixes into it:
>>> import pytricia
>>> pyt = pytricia.PyTricia()
>>> pyt["10.0.0.0/8"] = 'a'
>>> pyt["10.1.0.0/16"] = 'b'
>>> len(pyt)
2
>>>
The PyTricia
class takes an optional parameter, which is the maximum number of bits to consider when constructing the trie. By default, the number of bits is 32. For IPv6, you can set this value higher (up to 128):
>>> import pytricia
>>> pyt = pytricia.PyTricia(128)
>>> pyt["fe80::/64"] = 'a'
>>> pyt["dead::/32"] = 'b'
>>> len(pyt)
2
>>>
IP prefixes and addresses can be expressed in a few different ways:
- The most obvious way is as a string (as in the examples above).
- For IPv4, an integer may also be used (just for an address, not a prefix, somewhat obviously).
- A bytes object may also be used, with a length of 4 bytes (IPv4) or 16 bytes (IPv6). As with using an int for IPv4, this option is mostly useful for expressing an individual address, not a prefix.
- For Python 3.4 and later, an address or network using the
ipaddress
module can also be used. In particular,IPv4Address
andIPv4Network
objects can be used, as well asIPv6Address
andIPv4Network
.
The insert
method can also be used to add prefixes/values to a PyTricia object. This method returns None
.
>>> pyt.insert("10.2.0.0/16", "c")
The insert
method can optionally accept three parameters, where the first parameter is an address, the second parameter is the prefix length, and the third parameter is some object to be associated with the network prefix:
>>> import pytricia
>>> from ipaddress import IPv6Address, IPv6Network
>>> pyt = pytricia.PyTricia(128)
>>> pyt.insert(IPv6Address("2001:218:200e:abc::1"), 56, "hello!")
>>> pyt.insert(IPv6Network("2001:218:200e::/56"), "halo!")
>>> pyt.insert(bytes([10,0,1,0]), 24, "ip?")
>>> pyt.keys()
['10.0.1.0/24', '2001:218:200e::/56', '2001:218:200e:abc::1/56']
>>>
Use standard dictionary-like access to do longest prefix match lookup:
>>> pyt["10.0.0.0/8"]
a
>>> pyt["10.1.0.0/16"]
b
>>> pyt["10.1.0.0/24"]
b
Alternatively, use the get
method:
>>> pyt.get("10.1.0.0/16")
'b'
>>> pyt.get("10.1.0.0/24")
'b'
>>> pyt.get("10.1.0.0/32")
'b'
>>> pyt.get("10.0.0.0/24")
'a'
If you want access to the key instead (i.e., the longest matching prefix), use get_key
:
>>> pyt.get_key("10.1.0.0/16")
'10.1.0.0/16'
>>> pyt.get_key("10.1.0.0/24")
'10.1.0.0/16'
>>> pyt.get_key("10.1.0.0/32")
'10.1.0.0/16'
>>> pyt.get_key("10.0.0.0/24")
'10.0.0.0/8'
The del
operator works as it does with Python dictionaries (and there is also a delete
method that works similarly):
>>> del pyt["10.0.0.0/8"]
>>> pyt.get("10.1.0.0/16")
'b'
>>> del pyt["10.0.0.0/8"]
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
KeyError: "Prefix doesn't exist."
>>> pyt.delete("10.2.0.0/16")
>>>
PyTricia
objects can be iterated or coerced into a list:
>>> list(pyt)
['10.0.0.0/8', '10.1.0.0/16']
The in
operator can be used to test whether a prefix is contained in the PyTricia
object, or whether an individual address is "covered" by a prefix:
>>> '10.0.0.0/8' in pyt
True
>>> '10.2.0.0/8' in pyt
True
>>> '192.168.0.0/16' in pyt
False
>>> '192.168.0.0' in pyt
False
>>> '10.1.2.3' in pyt
True
>>>
The has_key
method is also implement, but it's important to note that the behavior of in
differs from has_key
. The has_key
method checks for an exact match of a network prefix. The in
operator checks whether the left-hand operand (i.e., an IP address) is contained within one of the prefixes in the PyTricia
object. The get
method and the indexing operation ([]
) (each described above) have lookup behavior similar like the in
operator --- they do not search for an exact match, but rather for the most closely matching prefix. For example:
>>> pyt.has_key('10.1.0.0/16')
True
>>> pyt.has_key('10.1.0.0')
False
>>> pyt.has_key('10.0.0.0/8')
True
>>> pyt.has_key('10.0.0.0')
False
>>> pyt.has_key('10.0.0.0/12')
False
>>> '10.0.0.0/12' in pyt
True
>>> '10.0.0.0' in pyt
True
>>> '10.0.0.0/8' in pyt
True
>>>
It is also possible to find the parent
and children
of a given prefix in the tree. Similarly to the has_key
method, the prefix must be present as an exact match in the tree. For instance:
>>> pyt.parent('10.1.0.0/16')
'10.0.0.0/8'
>>> pyt.parent('10.0.0.0/8')
None
>>> pyt["10.1.1.0/24"] = 'c'
>>> pyt.children('10.0.0.0/8')
['10.1.0.0/16', '10.1.1.0/24']
>>> pyt.children('10.1.0.0/16')
['10.1.1.0/24']
>>> pyt.children('10.1.1.0/24')
[]
>>> pyt.parent('10.1.42.0/24')
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
KeyError: Prefix doesn't exist.
If you want to get the longest matching prefix for arbitrary prefixes, you should use get_key
, not parent
.
A PyTricia
object is almost like a dictionary, but not quite. You can extract the keys, but not the values:
>>> pyt.keys()
['10.0.0.0/8', '10.1.0.0/16']
>>> pyt.values()
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: 'pytricia.PyTricia' object has no attribute 'values'
As with a dictionary, you can iterate over a PyTricia
object. Currently, there's no items()
-like method for iterating over both keys and values; you can just iterate over keys (network prefixes).
>> for prefix in pyt:
... print (prefix,pyt[prefix])
...
10.0.0.0/8 a
10.1.0.0/16 b
>>>
Although it is possible to store IPv4 and IPv6 subnets in the same trie, this is generally not advisable. Consider the following example:
>>> import pytricia
>>> pyt = pytricia.PyTricia(128)
>>> pyt.insert('2000::/8', 'test')
>>> pyt.get_key('32.0.0.1')
'2000::/8'
IPv4 address 32.0.0.1
matches 2000::/8
prefix due to the first octet being the same in both. In order to avoid this, separate tries should be used for IPv4 and IPv6 prefixes. Alternatively, IPv4 addresses can be mapped to IPv6 addresses.
For API usage, the usual Python advice applies: using indexing is the fastest method for insertion, lookup, and removal. See the apiperf.py
script in the repo for some comparative numbers. For Python 3, using ipaddress
-module objects is the slowest. There's a price to pay for the convenience, unfortunately.
The numbers below are based on running the program perftest.py
(in the repo) against snapshots of py-radix and pysubnettree from February 2, 2016. All tests were run in Python 2.7.6 and 3.4.3 on a Linux 3.13 kernel system (Ubuntu 14.04 server) which has 12 cores (Intel Xeon E5645 2.4GHz) and was very lightly loaded at the time of the test.
$ python perftest.py
Average execution time for PyTricia: 0.902257204056
Average execution time for radix: 1.09275889397
Average execution time for subnet: 0.984920787811
$ python3 perftest.py
Average execution time for PyTricia: 1.0562857019998773
Average execution time for radix: 1.306612914499965
Average execution time for subnet: 1.1982004833000246
This software is based up on work supported by the National Science Foundation under Grant No. CNS-1054985. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.