Documentation/bpf/prog_sk_lookup.rst - linux/kernel/git/torvalds/linux - Git at Google

 .. SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)

 =====================
 BPF sk_lookup program
 =====================

 BPF sk_lookup program type (``BPF_PROG_TYPE_SK_LOOKUP``) introduces programmability
 into the socket lookup performed by the transport layer when a packet is to be
 delivered locally.

 When invoked BPF sk_lookup program can select a socket that will receive the
 incoming packet by calling the ``bpf_sk_assign()`` BPF helper function.

 Hooks for a common attach point (``BPF_SK_LOOKUP``) exist for both TCP and UDP.

 Motivation
 ==========

 BPF sk_lookup program type was introduced to address setup scenarios where
 binding sockets to an address with ``bind()`` socket call is impractical, such
 as:

 1. receiving connections on a range of IP addresses, e.g. 192.0.2.0/24, when
    binding to a wildcard address ``INADRR_ANY`` is not possible due to a port
    conflict,
 2. receiving connections on all or a wide range of ports, i.e. an L7 proxy use
    case.

 Such setups would require creating and ``bind()``'ing one socket to each of the
 IP address/port in the range, leading to resource consumption and potential
 latency spikes during socket lookup.

 Attachment
 ==========

 BPF sk_lookup program can be attached to a network namespace with
 ``bpf(BPF_LINK_CREATE, ...)`` syscall using the ``BPF_SK_LOOKUP`` attach type and a
 netns FD as attachment ``target_fd``.

 Multiple programs can be attached to one network namespace. Programs will be
 invoked in the same order as they were attached.

 Hooks
 =====

 The attached BPF sk_lookup programs run whenever the transport layer needs to
 find a listening (TCP) or an unconnected (UDP) socket for an incoming packet.

 Incoming traffic to established (TCP) and connected (UDP) sockets is delivered
 as usual without triggering the BPF sk_lookup hook.

 The attached BPF programs must return with either ``SK_PASS`` or ``SK_DROP``
 verdict code. As for other BPF program types that are network filters,
 ``SK_PASS`` signifies that the socket lookup should continue on to regular
 hashtable-based lookup, while ``SK_DROP`` causes the transport layer to drop the
 packet.

 A BPF sk_lookup program can also select a socket to receive the packet by
 calling ``bpf_sk_assign()`` BPF helper. Typically, the program looks up a socket
 in a map holding sockets, such as ``SOCKMAP`` or ``SOCKHASH``, and passes a
 ``struct bpf_sock *`` to ``bpf_sk_assign()`` helper to record the
 selection. Selecting a socket only takes effect if the program has terminated
 with ``SK_PASS`` code.

 When multiple programs are attached, the end result is determined from return
 codes of all the programs according to the following rules:

 1. If any program returned ``SK_PASS`` and selected a valid socket, the socket
    is used as the result of the socket lookup.
 2. If more than one program returned ``SK_PASS`` and selected a socket, the last
    selection takes effect.
 3. If any program returned ``SK_DROP``, and no program returned ``SK_PASS`` and
    selected a socket, socket lookup fails.
 4. If all programs returned ``SK_PASS`` and none of them selected a socket,
    socket lookup continues on.

 API
 ===

 In its context, an instance of ``struct bpf_sk_lookup``, BPF sk_lookup program
 receives information about the packet that triggered the socket lookup. Namely:

 * IP version (``AF_INET`` or ``AF_INET6``),
 * L4 protocol identifier (``IPPROTO_TCP`` or ``IPPROTO_UDP``),
 * source and destination IP address,
 * source and destination L4 port,
 * the socket that has been selected with ``bpf_sk_assign()``.

 Refer to ``struct bpf_sk_lookup`` declaration in ``linux/bpf.h`` user API
 header, and `bpf-helpers(7)
 <https://man7.org/linux/man-pages/man7/bpf-helpers.7.html>`_ man-page section
 for ``bpf_sk_assign()`` for details.

 Example
 =======

 See ``tools/testing/selftests/bpf/prog_tests/sk_lookup.c`` for the reference
 implementation.
	.. SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)

	=====================
	BPF sk_lookup program
	=====================

	BPF sk_lookup program type (``BPF_PROG_TYPE_SK_LOOKUP``) introduces programmability
	into the socket lookup performed by the transport layer when a packet is to be
	delivered locally.

	When invoked BPF sk_lookup program can select a socket that will receive the
	incoming packet by calling the ``bpf_sk_assign()`` BPF helper function.

	Hooks for a common attach point (``BPF_SK_LOOKUP``) exist for both TCP and UDP.

	Motivation
	==========

	BPF sk_lookup program type was introduced to address setup scenarios where
	binding sockets to an address with ``bind()`` socket call is impractical, such
	as:

	1. receiving connections on a range of IP addresses, e.g. 192.0.2.0/24, when
	binding to a wildcard address ``INADRR_ANY`` is not possible due to a port
	conflict,
	2. receiving connections on all or a wide range of ports, i.e. an L7 proxy use
	case.

	Such setups would require creating and ``bind()``'ing one socket to each of the
	IP address/port in the range, leading to resource consumption and potential
	latency spikes during socket lookup.

	Attachment
	==========

	BPF sk_lookup program can be attached to a network namespace with
	``bpf(BPF_LINK_CREATE, ...)`` syscall using the ``BPF_SK_LOOKUP`` attach type and a
	netns FD as attachment ``target_fd``.

	Multiple programs can be attached to one network namespace. Programs will be
	invoked in the same order as they were attached.

	Hooks
	=====

	The attached BPF sk_lookup programs run whenever the transport layer needs to
	find a listening (TCP) or an unconnected (UDP) socket for an incoming packet.

	Incoming traffic to established (TCP) and connected (UDP) sockets is delivered
	as usual without triggering the BPF sk_lookup hook.

	The attached BPF programs must return with either ``SK_PASS`` or ``SK_DROP``
	verdict code. As for other BPF program types that are network filters,
	``SK_PASS`` signifies that the socket lookup should continue on to regular
	hashtable-based lookup, while ``SK_DROP`` causes the transport layer to drop the
	packet.

	A BPF sk_lookup program can also select a socket to receive the packet by
	calling ``bpf_sk_assign()`` BPF helper. Typically, the program looks up a socket
	in a map holding sockets, such as ``SOCKMAP`` or ``SOCKHASH``, and passes a
	``struct bpf_sock *`` to ``bpf_sk_assign()`` helper to record the
	selection. Selecting a socket only takes effect if the program has terminated
	with ``SK_PASS`` code.

	When multiple programs are attached, the end result is determined from return
	codes of all the programs according to the following rules:

	1. If any program returned ``SK_PASS`` and selected a valid socket, the socket
	is used as the result of the socket lookup.
	2. If more than one program returned ``SK_PASS`` and selected a socket, the last
	selection takes effect.
	3. If any program returned ``SK_DROP``, and no program returned ``SK_PASS`` and
	selected a socket, socket lookup fails.
	4. If all programs returned ``SK_PASS`` and none of them selected a socket,
	socket lookup continues on.

	API
	===

	In its context, an instance of ``struct bpf_sk_lookup``, BPF sk_lookup program
	receives information about the packet that triggered the socket lookup. Namely:

	* IP version (``AF_INET`` or ``AF_INET6``),
	* L4 protocol identifier (``IPPROTO_TCP`` or ``IPPROTO_UDP``),
	* source and destination IP address,
	* source and destination L4 port,
	* the socket that has been selected with ``bpf_sk_assign()``.

	Refer to ``struct bpf_sk_lookup`` declaration in ``linux/bpf.h`` user API
	header, and `bpf-helpers(7)
	<https://man7.org/linux/man-pages/man7/bpf-helpers.7.html>`_ man-page section
	for ``bpf_sk_assign()`` for details.

	Example
	=======

	See ``tools/testing/selftests/bpf/prog_tests/sk_lookup.c`` for the reference
	implementation.