Netfilter
Netfilter is a framework provided by the Linux kernel that allows various networking-related operations to be implemented in the form of customized handlers. Netfilter offers various functions and operations for packet filtering, network address translation, and port translation, which provide the functionality required for directing packets through a network and prohibiting packets from reaching sensitive locations within a network.
Netfilter represents a set of hooks inside the Linux kernel, allowing specific kernel modules to register callback functions with the kernel's networking stack. Those functions, usually applied to the traffic in the form of filtering and modification rules, are called for every packet that traverses the respective hook within the networking stack.
History
started the netfilter/iptables project in 1998; he had also authored the project's predecessor, ipchains. As the project grew, he founded the Netfilter Core Team in 1999. The software they produced uses the GNU General Public License license, and in March 2000 it was merged into version 2.4.x of the Linux kernel mainline.In August 2003 Harald Welte became chairman of the coreteam. In April 2004, following a crack-down by the project on those distributing the project's software embedded in routers without complying with the GPL, a German court granted Welte an historic injunction against Sitecom Germany, which refused to follow the GPL's terms. In September 2007 Patrick McHardy, who led development for past years, was elected as new chairman of the coreteam.
Prior to iptables, the predominant software packages for creating Linux firewalls were ipchains in Linux kernel 2.2.x and ipfwadm in Linux kernel 2.0.x, which in turn was based on BSD's ipfw. Both ipchains and ipfwadm alter the networking code so they can manipulate packets, as Linux kernel lacked a general packets control framework until the introduction of Netfilter.
Whereas ipchains and ipfwadm combine packet filtering and NAT, Netfilter separates packet operations into multiple parts, described below. Each connects to the Netfilter hooks at different points to access packets. The connection tracking and NAT subsystems are more general and more powerful than the rudimentary versions within ipchains and ipfwadm.
In 2017 IPv4 and IPv6 flow offload infrastructure was added, allowing a speedup of software flow table forwarding and hardware offload support.
Userspace utility programs
iptables
ip_tables
, ip6_tables
, arp_tables
, and ebtables
comprise the legacy packet filtering portion of the Netfilter hook system. They provide a table-based system for defining firewall rules that can filter or transform packets. The tables can be administered through the user-space tools iptables
, ip6tables
, arptables
, and ebtables
. Notice that although both the kernel modules and userspace utilities have similar names, each of them is a different entity with different functionality.Each table is actually its own hook, and each table was introduced to serve a specific purpose. As far as Netfilter is concerned, it runs a particular table in a specific order with respect to other tables. Any table can call itself and it also can execute its own rules, which enables possibilities for additional processing and iteration.
Rules are organized into chains, or in other words, "chains of rules". These chains are named with predefined titles, including
INPUT
, OUTPUT
and FORWARD
. These chain titles help describe the origin of the Netfilter stack. Packet reception, for example, falls into PREROUTING
, while the INPUT
represents locally delivered data, and forwarded traffic falls into the FORWARD
chain. Locally generated output passes through the OUTPUT
chain, and packets to be sent out are in POSTROUTING
chain. Netfilter modules not organized into tables are capable of checking for the origin to select their mode of operation.;
iptable_raw
module;
iptable_mangle
module;
iptable_nat
module;
iptable_filter
module;
security_filter
modulenftables
nftables is the new packet-filtering portion of Netfilter.nft
is the new userspace utility that replaces iptables
, ip6tables
, arptables
and ebtables
.nftables kernel engine adds a simple virtual machine into the Linux kernel, which is able to execute bytecode to inspect a network packet and make decisions on how that packet should be handled. The operations implemented by this virtual machine are intentionally made basic: it can get data from the packet itself, have a look at the associated metadata, and manage connection tracking data. Arithmetic, bitwise and comparison operators can be used for making decisions based on that data. The virtual machine is also capable of manipulating sets of data, allowing multiple comparison operations to be replaced with a single set lookup.
This is in contrast to the legacy Xtables code, which has protocol awareness so deeply built into the code that it has had to be replicated four timesfor IPv4, IPv6, ARP, and Ethernet bridgingas the firewall engines are too protocol-specific to be used in a generic manner. The main advantages over
iptables
are simplification of the Linux kernel ABI, reduction of code duplication, improved error reporting, and more efficient execution, storage, and incremental, atomic changes of filtering rules.Packet defragmentation
Thenf_defrag_ipv4
module will defragment IPv4 packets before they reach Netfilter's connection tracking. This is necessary for the in-kernel connection tracking and NAT helper modules that only work reliably on entire packets, not necessarily on fragments.The IPv6 defragmenter is not a module in its own right, but is integrated into the
nf_conntrack_ipv6
module.Connection tracking
One of the important features built on top of the Netfilter framework is connection tracking. Connection tracking allows the kernel to keep track of all logical network connections or sessions, and thereby relate all of the packets which may make up that connection. NAT relies on this information to translate all related packets in the same way, andiptables
can use this information to act as a stateful firewall.The connection state however is completely independent of any upper-level state, such as TCP's or SCTP's state. Part of the reason for this is that when merely forwarding packets, i.e. no local delivery, the TCP engine may not necessarily be invoked at all. Even connectionless-mode transmissions such as UDP, IPsec, GRE and other tunneling protocols have, at least, a pseudo connection state. The heuristic for such protocols is often based upon a preset timeout value for inactivity, after whose expiration a Netfilter connection is dropped.
Each Netfilter connection is uniquely identified by a tuple. The layer-4 key depends on the transport protocol; for TCP/UDP it is the port numbers, for tunnels it can be their tunnel ID, but otherwise is just zero, as if it were not part of the tuple. To be able to inspect the TCP port in all cases, packets will be mandatorily defragmented.
Netfilter connections can be manipulated with the user-space tool
conntrack
.iptables
can make use of checking the connection's information such as states, statuses and more to make packet filtering rules more powerful and easier to manage. The most common states are:;
NEW
: trying to create a new connection;
ESTABLISHED
: part of an already-existing connection;
RELATED
: assigned to a packet that is initiating a new connection and which has been "expected"; the aforementioned mini-ALGs set up these expectations, for example, when the nf_conntrack_ftp
module sees an FTP "PASV
" command;
INVALID
: the packet was found to be invalid, e.g. it would not adhere to the TCP state diagram;
UNTRACKED
: a special state that can be assigned by the administrator to bypass connection tracking for a particular packet.A normal example would be that the first packet the conntrack subsystem sees will be classified "new", the reply would be classified "established" and an ICMP error would be "related". An ICMP error packet which did not match any known connection would be "invalid".
Connection tracking helpers
Through the use of plugin modules, connection tracking can be given knowledge of application-layer protocols and thus understand that two or more distinct connections are "related". For example, consider the FTP protocol. A control connection is established, but whenever data is transferred, a separate connection is established to transfer it. When thenf_conntrack_ftp
module is loaded, the first packet of an FTP data connection will be classified as "related" instead of "new", as it is logically part of an existing connection.The helpers only inspect one packet at a time, so if vital information for connection tracking is split across two packets, either due to IP fragmentation or TCP segmentation, the helper will not necessarily recognize patterns and therefore not perform its operation. IP fragmentation is dealt with the connection tracking subsystem requiring defragmentation, though TCP segmentation is not handled. In case of FTP, segmentation is deemed not to happen "near" a command like
PASV
with standard segment sizes, so is not dealt with in Netfilter either.Network address translation
Each connection has a set of original addresses and reply addresses, which initially start out the same. NAT in Netfilter is implemented by simply changing the reply address, and where desired, port. When packets are received, their connection tuple will also be compared against the reply address pair. Being fragment-free is also a requirement for NAT.NAT helpers
Similar to connection tracking helpers, NAT helpers will do a packet inspection and substitute original addresses by reply addresses in the payload.Further Netfilter projects
Though not being kernel modules that make use of Netfilter code directly, the Netfilter project hosts a few more noteworthy software.conntrack-tools
conntrack-tools
is a set of user-space tools for Linux that allow system administrators to interact with the Connection Tracking entries and tables. The package includes the conntrackd
daemon and the command line interface conntrack
. The userspace daemon conntrackd
can be used to enable high availability cluster-based stateful firewalls and collect statistics of the stateful firewall use. The command line interface conntrack
provides a more flexible interface to the connection tracking system than the obsolete /proc/net/nf_conntrack.ipset
Unlike other extensions such as Connection Tracking,ipset
is more related to iptables
than it is to the core Netfilter code. ipset
does not make use of Netfilter hooks for instance, but actually provides an iptables
module to match and do minimal modifications to IP sets.The user-space tool called
ipset
is used to set up, maintain and inspect so called "IP sets" in the Linux kernel. An IP set usually contains a set of IP addresses, but can also contain sets of other network numbers, depending on its "type". These sets are much more lookup-efficient than bare iptables
rules, but of course may come with a greater memory footprint. Different storage algorithms are provided in ipset
for the user to select an optimum solution.Any entry in one set can be bound to another set, allowing for sophisticated matching operations. A set can only be removed if there are no
iptables
rules or other sets referring to it.SYN proxy
SYNPROXY
target makes handling of large SYN floods possible without the large performance penalties imposed by the connection tracking in such cases. By redirecting initial SYN
requests to the SYNPROXY
target, connections are not registered within the connection tracking until they reach a validated final ACK
state, freeing up connection tracking from accounting large numbers of potentially invalid connections. This way, huge SYN
floods can be handled in an effective way.On 3 November 2013,
SYN
proxy functionality was merged into the Netfilter, with the release of version 3.12 of the Linux kernel mainline.ulogd
ulogd
is a user-space daemon to receive and log packets and event notifications from the Netfilter subsystems. ip_tables
can deliver packets via the userspace queueing mechanism to it, and connection tracking can interact with ulogd
to exchange further information about packets or events.Userspace libraries
The Netfilter also provides a set of libraries havinglibnetfilter
as a prefix of their names, that can be used to perform different tasks from the userspace. These libraries are released under the GNU GPL version 2. Specifically, they are the following:;
libnetfilter_queue
;
libnetfilter_conntrack
;
libnetfilter_log
;
libnl-3-netfilter
;
libiptc
;
libipset