Commit 19b3b13c authored by Vladimir Oltean's avatar Vladimir Oltean Committed by David S. Miller

docs: net: dsa: update probing documentation

Since the blamed commit we don't have register_switch_driver() and
unregister_switch_driver() anymore. Additionally, the expected
dsa_register_switch() and dsa_unregister_switch() calls aren't
documented.

Update the probing section with the details of how things are currently
done.

Fixes: 93e86b3b ("net: dsa: Remove legacy probing support")
Signed-off-by: default avatarVladimir Oltean <vladimir.oltean@nxp.com>
Reviewed-by: default avatarAndrew Lunn <andrew@lunn.ch>
Reviewed-by: default avatarFlorian Fainelli <f.fainelli@gmail.com>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent c9f21106
......@@ -503,14 +503,74 @@ per-port PHY specific details: interface connection, MDIO bus location, etc.
Driver development
==================
DSA switch drivers need to implement a dsa_switch_ops structure which will
DSA switch drivers need to implement a ``dsa_switch_ops`` structure which will
contain the various members described below.
``register_switch_driver()`` registers this dsa_switch_ops in its internal list
of drivers to probe for. ``unregister_switch_driver()`` does the exact opposite.
Probing, registration and device lifetime
-----------------------------------------
Unless requested differently by setting the priv_size member accordingly, DSA
does not allocate any driver private context space.
DSA switches are regular ``device`` structures on buses (be they platform, SPI,
I2C, MDIO or otherwise). The DSA framework is not involved in their probing
with the device core.
Switch registration from the perspective of a driver means passing a valid
``struct dsa_switch`` pointer to ``dsa_register_switch()``, usually from the
switch driver's probing function. The following members must be valid in the
provided structure:
- ``ds->dev``: will be used to parse the switch's OF node or platform data.
- ``ds->num_ports``: will be used to create the port list for this switch, and
to validate the port indices provided in the OF node.
- ``ds->ops``: a pointer to the ``dsa_switch_ops`` structure holding the DSA
method implementations.
- ``ds->priv``: backpointer to a driver-private data structure which can be
retrieved in all further DSA method callbacks.
In addition, the following flags in the ``dsa_switch`` structure may optionally
be configured to obtain driver-specific behavior from the DSA core. Their
behavior when set is documented through comments in ``include/net/dsa.h``.
- ``ds->vlan_filtering_is_global``
- ``ds->needs_standalone_vlan_filtering``
- ``ds->configure_vlan_while_not_filtering``
- ``ds->untag_bridge_pvid``
- ``ds->assisted_learning_on_cpu_port``
- ``ds->mtu_enforcement_ingress``
- ``ds->fdb_isolation``
Internally, DSA keeps an array of switch trees (group of switches) global to
the kernel, and attaches a ``dsa_switch`` structure to a tree on registration.
The tree ID to which the switch is attached is determined by the first u32
number of the ``dsa,member`` property of the switch's OF node (0 if missing).
The switch ID within the tree is determined by the second u32 number of the
same OF property (0 if missing). Registering multiple switches with the same
switch ID and tree ID is illegal and will cause an error. Using platform data,
a single switch and a single switch tree is permitted.
In case of a tree with multiple switches, probing takes place asymmetrically.
The first N-1 callers of ``dsa_register_switch()`` only add their ports to the
port list of the tree (``dst->ports``), each port having a backpointer to its
associated switch (``dp->ds``). Then, these switches exit their
``dsa_register_switch()`` call early, because ``dsa_tree_setup_routing_table()``
has determined that the tree is not yet complete (not all ports referenced by
DSA links are present in the tree's port list). The tree becomes complete when
the last switch calls ``dsa_register_switch()``, and this triggers the effective
continuation of initialization (including the call to ``ds->ops->setup()``) for
all switches within that tree, all as part of the calling context of the last
switch's probe function.
The opposite of registration takes place when calling ``dsa_unregister_switch()``,
which removes a switch's ports from the port list of the tree. The entire tree
is torn down when the first switch unregisters.
Switch configuration
--------------------
......@@ -518,12 +578,6 @@ Switch configuration
- ``tag_protocol``: this is to indicate what kind of tagging protocol is supported,
should be a valid value from the ``dsa_tag_protocol`` enum
- ``probe``: probe routine which will be invoked by the DSA platform device upon
registration to test for the presence/absence of a switch device. For MDIO
devices, it is recommended to issue a read towards internal registers using
the switch pseudo-PHY and return whether this is a supported device. For other
buses, return a non-NULL string
- ``setup``: setup function for the switch, this function is responsible for setting
up the ``dsa_switch_ops`` private structure with all it needs: register maps,
interrupts, mutexes, locks, etc. This function is also expected to properly
......
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