Documentation: networking: document phy_link_topology

The newly introduced phy_link_topology tracks all ethernet PHYs that are
attached to a netdevice. Document the base principle, internal and
external APIs. As the phy_link_topology is expected to be extended, this
documentation will hold any further improvements and additions made
relative to topology handling.

Signed-off-by: Maxime Chevallier <maxime.chevallier@bootlin.com>
Reviewed-by: Andrew Lunn <andrew@lunn.ch>
Reviewed-by: Christophe Leroy <christophe.leroy@csgroup.eu>
Tested-by: Christophe Leroy <christophe.leroy@csgroup.eu>
Signed-off-by: David S. Miller <davem@davemloft.net>
This commit is contained in:
Maxime Chevallier 2024-08-21 17:10:07 +02:00 committed by David S. Miller
parent e96c93aa4b
commit db31e09d51
3 changed files with 125 additions and 0 deletions

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@ -2198,10 +2198,13 @@ Retrieve information about a given Ethernet PHY sitting on the link. The DO
operation returns all available information about dev->phydev. User can also
specify a PHY_INDEX, in which case the DO request returns information about that
specific PHY.
As there can be more than one PHY, the DUMP operation can be used to list the PHYs
present on a given interface, by passing an interface index or name in
the dump request.
For more information, refer to :ref:`phy_link_topology`
Request contents:
==================================== ====== ==========================

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@ -91,6 +91,7 @@ Contents:
operstates
packet_mmap
phonet
phy-link-topology
pktgen
plip
ppp_generic

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@ -0,0 +1,121 @@
.. SPDX-License-Identifier: GPL-2.0
.. _phy_link_topology:
=================
PHY link topology
=================
Overview
========
The PHY link topology representation in the networking stack aims at representing
the hardware layout for any given Ethernet link.
An Ethernet interface from userspace's point of view is nothing but a
:c:type:`struct net_device <net_device>`, which exposes configuration options
through the legacy ioctls and the ethtool netlink commands. The base assumption
when designing these configuration APIs were that the link looks something like ::
+-----------------------+ +----------+ +--------------+
| Ethernet Controller / | | Ethernet | | Connector / |
| MAC | ------ | PHY | ---- | Port | ---... to LP
+-----------------------+ +----------+ +--------------+
struct net_device struct phy_device
Commands that needs to configure the PHY will go through the net_device.phydev
field to reach the PHY and perform the relevant configuration.
This assumption falls apart in more complex topologies that can arise when,
for example, using SFP transceivers (although that's not the only specific case).
Here, we have 2 basic scenarios. Either the MAC is able to output a serialized
interface, that can directly be fed to an SFP cage, such as SGMII, 1000BaseX,
10GBaseR, etc.
The link topology then looks like this (when an SFP module is inserted) ::
+-----+ SGMII +------------+
| MAC | ------- | SFP Module |
+-----+ +------------+
Knowing that some modules embed a PHY, the actual link is more like ::
+-----+ SGMII +--------------+
| MAC | -------- | PHY (on SFP) |
+-----+ +--------------+
In this case, the SFP PHY is handled by phylib, and registered by phylink through
its SFP upstream ops.
Now some Ethernet controllers aren't able to output a serialized interface, so
we can't directly connect them to an SFP cage. However, some PHYs can be used
as media-converters, to translate the non-serialized MAC MII interface to a
serialized MII interface fed to the SFP ::
+-----+ RGMII +-----------------------+ SGMII +--------------+
| MAC | ------- | PHY (media converter) | ------- | PHY (on SFP) |
+-----+ +-----------------------+ +--------------+
This is where the model of having a single net_device.phydev pointer shows its
limitations, as we now have 2 PHYs on the link.
The phy_link topology framework aims at providing a way to keep track of every
PHY on the link, for use by both kernel drivers and subsystems, but also to
report the topology to userspace, allowing to target individual PHYs in configuration
commands.
API
===
The :c:type:`struct phy_link_topology <phy_link_topology>` is a per-netdevice
resource, that gets initialized at netdevice creation. Once it's initialized,
it is then possible to register PHYs to the topology through :
:c:func:`phy_link_topo_add_phy`
Besides registering the PHY to the topology, this call will also assign a unique
index to the PHY, which can then be reported to userspace to refer to this PHY
(akin to the ifindex). This index is a u32, ranging from 1 to U32_MAX. The value
0 is reserved to indicate the PHY doesn't belong to any topology yet.
The PHY can then be removed from the topology through
:c:func:`phy_link_topo_del_phy`
These function are already hooked into the phylib subsystem, so all PHYs that
are linked to a net_device through :c:func:`phy_attach_direct` will automatically
join the netdev's topology.
PHYs that are on a SFP module will also be automatically registered IF the SFP
upstream is phylink (so, no media-converter).
PHY drivers that can be used as SFP upstream need to call :c:func:`phy_sfp_attach_phy`
and :c:func:`phy_sfp_detach_phy`, which can be used as a
.attach_phy / .detach_phy implementation for the
:c:type:`struct sfp_upstream_ops <sfp_upstream_ops>`.
UAPI
====
There exist a set of netlink commands to query the link topology from userspace,
see ``Documentation/networking/ethtool-netlink.rst``.
The whole point of having a topology representation is to assign the phyindex
field in :c:type:`struct phy_device <phy_device>`. This index is reported to
userspace using the ``ETHTOOL_MSG_PHY_GET`` ethtnl command. Performing a DUMP operation
will result in all PHYs from all net_device being listed. The DUMP command
accepts either a ``ETHTOOL_A_HEADER_DEV_INDEX`` or ``ETHTOOL_A_HEADER_DEV_NAME``
to be passed in the request to filter the DUMP to a single net_device.
The retrieved index can then be passed as a request parameter using the
``ETHTOOL_A_HEADER_PHY_INDEX`` field in the following ethnl commands :
* ``ETHTOOL_MSG_STRSET_GET`` to get the stats string set from a given PHY
* ``ETHTOOL_MSG_CABLE_TEST_ACT`` and ``ETHTOOL_MSG_CABLE_TEST_ACT``, to perform
cable testing on a given PHY on the link (most likely the outermost PHY)
* ``ETHTOOL_MSG_PSE_SET`` and ``ETHTOOL_MSG_PSE_GET`` for PHY-controlled PoE and PSE settings
* ``ETHTOOL_MSG_PLCA_GET_CFG``, ``ETHTOOL_MSG_PLCA_SET_CFG`` and ``ETHTOOL_MSG_PLCA_GET_STATUS``
to set the PLCA (Physical Layer Collision Avoidance) parameters
Note that the PHY index can be passed to other requests, which will silently
ignore it if present and irrelevant.