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authorVladimir Oltean <vladimir.oltean@nxp.com>2020-05-12 20:20:39 +0300
committerDavid S. Miller <davem@davemloft.net>2020-05-12 13:08:08 -0700
commita20bc43bfb2e8c2fcdaaa4d5c11f2bbf0b690328 (patch)
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docs: net: dsa: sja1105: document the best_effort_vlan_filtering option
Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Reviewed-by: Florian Fainelli <f.fainelli@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'Documentation')
-rw-r--r--Documentation/networking/devlink-params-sja1105.txt27
-rw-r--r--Documentation/networking/dsa/sja1105.rst211
2 files changed, 212 insertions, 26 deletions
diff --git a/Documentation/networking/devlink-params-sja1105.txt b/Documentation/networking/devlink-params-sja1105.txt
new file mode 100644
index 000000000000..1d71742e270a
--- /dev/null
+++ b/Documentation/networking/devlink-params-sja1105.txt
@@ -0,0 +1,27 @@
+best_effort_vlan_filtering
+ [DEVICE, DRIVER-SPECIFIC]
+ Allow plain ETH_P_8021Q headers to be used as DSA tags.
+ Benefits:
+ - Can terminate untagged traffic over switch net
+ devices even when enslaved to a bridge with
+ vlan_filtering=1.
+ - Can terminate VLAN-tagged traffic over switch net
+ devices even when enslaved to a bridge with
+ vlan_filtering=1, with some constraints (no more than
+ 7 non-pvid VLANs per user port).
+ - Can do QoS based on VLAN PCP and VLAN membership
+ admission control for autonomously forwarded frames
+ (regardless of whether they can be terminated on the
+ CPU or not).
+ Drawbacks:
+ - User cannot use VLANs in range 1024-3071. If the
+ switch receives frames with such VIDs, it will
+ misinterpret them as DSA tags.
+ - Switch uses Shared VLAN Learning (FDB lookup uses
+ only DMAC as key).
+ - When VLANs span cross-chip topologies, the total
+ number of permitted VLANs may be less than 7 per
+ port, due to a maximum number of 32 VLAN retagging
+ rules per switch.
+ Configuration mode: runtime
+ Type: bool.
diff --git a/Documentation/networking/dsa/sja1105.rst b/Documentation/networking/dsa/sja1105.rst
index 34581629dd3f..b6bbc17814fb 100644
--- a/Documentation/networking/dsa/sja1105.rst
+++ b/Documentation/networking/dsa/sja1105.rst
@@ -66,34 +66,193 @@ reprogrammed with the updated static configuration.
Traffic support
===============
-The switches do not support switch tagging in hardware. But they do support
-customizing the TPID by which VLAN traffic is identified as such. The switch
-driver is leveraging ``CONFIG_NET_DSA_TAG_8021Q`` by requesting that special
-VLANs (with a custom TPID of ``ETH_P_EDSA`` instead of ``ETH_P_8021Q``) are
-installed on its ports when not in ``vlan_filtering`` mode. This does not
-interfere with the reception and transmission of real 802.1Q-tagged traffic,
-because the switch does no longer parse those packets as VLAN after the TPID
-change.
-The TPID is restored when ``vlan_filtering`` is requested by the user through
-the bridge layer, and general IP termination becomes no longer possible through
-the switch netdevices in this mode.
-
-The switches have two programmable filters for link-local destination MACs.
+The switches do not have hardware support for DSA tags, except for "slow
+protocols" for switch control as STP and PTP. For these, the switches have two
+programmable filters for link-local destination MACs.
These are used to trap BPDUs and PTP traffic to the master netdevice, and are
further used to support STP and 1588 ordinary clock/boundary clock
-functionality.
-
-The following traffic modes are supported over the switch netdevices:
-
-+--------------------+------------+------------------+------------------+
-| | Standalone | Bridged with | Bridged with |
-| | ports | vlan_filtering 0 | vlan_filtering 1 |
-+====================+============+==================+==================+
-| Regular traffic | Yes | Yes | No (use master) |
-+--------------------+------------+------------------+------------------+
-| Management traffic | Yes | Yes | Yes |
-| (BPDU, PTP) | | | |
-+--------------------+------------+------------------+------------------+
+functionality. For frames trapped to the CPU, source port and switch ID
+information is encoded by the hardware into the frames.
+
+But by leveraging ``CONFIG_NET_DSA_TAG_8021Q`` (a software-defined DSA tagging
+format based on VLANs), general-purpose traffic termination through the network
+stack can be supported under certain circumstances.
+
+Depending on VLAN awareness state, the following operating modes are possible
+with the switch:
+
+- Mode 1 (VLAN-unaware): a port is in this mode when it is used as a standalone
+ net device, or when it is enslaved to a bridge with ``vlan_filtering=0``.
+- Mode 2 (fully VLAN-aware): a port is in this mode when it is enslaved to a
+ bridge with ``vlan_filtering=1``. Access to the entire VLAN range is given to
+ the user through ``bridge vlan`` commands, but general-purpose (anything
+ other than STP, PTP etc) traffic termination is not possible through the
+ switch net devices. The other packets can be still by user space processed
+ through the DSA master interface (similar to ``DSA_TAG_PROTO_NONE``).
+- Mode 3 (best-effort VLAN-aware): a port is in this mode when enslaved to a
+ bridge with ``vlan_filtering=1``, and the devlink property of its parent
+ switch named ``best_effort_vlan_filtering`` is set to ``true``. When
+ configured like this, the range of usable VIDs is reduced (0 to 1023 and 3072
+ to 4094), so is the number of usable VIDs (maximum of 7 non-pvid VLANs per
+ port*), and shared VLAN learning is performed (FDB lookup is done only by
+ DMAC, not also by VID).
+
+To summarize, in each mode, the following types of traffic are supported over
+the switch net devices:
+
++-------------+-----------+--------------+------------+
+| | Mode 1 | Mode 2 | Mode 3 |
++=============+===========+==============+============+
+| Regular | Yes | No | Yes |
+| traffic | | (use master) | |
++-------------+-----------+--------------+------------+
+| Management | Yes | Yes | Yes |
+| traffic | | | |
+| (BPDU, PTP) | | | |
++-------------+-----------+--------------+------------+
+
+To configure the switch to operate in Mode 3, the following steps can be
+followed::
+
+ ip link add dev br0 type bridge
+ # swp2 operates in Mode 1 now
+ ip link set dev swp2 master br0
+ # swp2 temporarily moves to Mode 2
+ ip link set dev br0 type bridge vlan_filtering 1
+ [ 61.204770] sja1105 spi0.1: Reset switch and programmed static config. Reason: VLAN filtering
+ [ 61.239944] sja1105 spi0.1: Disabled switch tagging
+ # swp3 now operates in Mode 3
+ devlink dev param set spi/spi0.1 name best_effort_vlan_filtering value true cmode runtime
+ [ 64.682927] sja1105 spi0.1: Reset switch and programmed static config. Reason: VLAN filtering
+ [ 64.711925] sja1105 spi0.1: Enabled switch tagging
+ # Cannot use VLANs in range 1024-3071 while in Mode 3.
+ bridge vlan add dev swp2 vid 1025 untagged pvid
+ RTNETLINK answers: Operation not permitted
+ bridge vlan add dev swp2 vid 100
+ bridge vlan add dev swp2 vid 101 untagged
+ bridge vlan
+ port vlan ids
+ swp5 1 PVID Egress Untagged
+
+ swp2 1 PVID Egress Untagged
+ 100
+ 101 Egress Untagged
+
+ swp3 1 PVID Egress Untagged
+
+ swp4 1 PVID Egress Untagged
+
+ br0 1 PVID Egress Untagged
+ bridge vlan add dev swp2 vid 102
+ bridge vlan add dev swp2 vid 103
+ bridge vlan add dev swp2 vid 104
+ bridge vlan add dev swp2 vid 105
+ bridge vlan add dev swp2 vid 106
+ bridge vlan add dev swp2 vid 107
+ # Cannot use mode than 7 VLANs per port while in Mode 3.
+ [ 3885.216832] sja1105 spi0.1: No more free subvlans
+
+\* "maximum of 7 non-pvid VLANs per port": Decoding VLAN-tagged packets on the
+CPU in mode 3 is possible through VLAN retagging of packets that go from the
+switch to the CPU. In cross-chip topologies, the port that goes to the CPU
+might also go to other switches. In that case, those other switches will see
+only a retagged packet (which only has meaning for the CPU). So if they are
+interested in this VLAN, they need to apply retagging in the reverse direction,
+to recover the original value from it. This consumes extra hardware resources
+for this switch. There is a maximum of 32 entries in the Retagging Table of
+each switch device.
+
+As an example, consider this cross-chip topology::
+
+ +-------------------------------------------------+
+ | Host SoC |
+ | +-------------------------+ |
+ | | DSA master for embedded | |
+ | | switch (non-sja1105) | |
+ | +--------+-------------------------+--------+ |
+ | | embedded L2 switch | |
+ | | | |
+ | | +--------------+ +--------------+ | |
+ | | |DSA master for| |DSA master for| | |
+ | | | SJA1105 1 | | SJA1105 2 | | |
+ +--+---+--------------+-----+--------------+---+--+
+
+ +-----------------------+ +-----------------------+
+ | SJA1105 switch 1 | | SJA1105 switch 2 |
+ +-----+-----+-----+-----+ +-----+-----+-----+-----+
+ |sw1p0|sw1p1|sw1p2|sw1p3| |sw2p0|sw2p1|sw2p2|sw2p3|
+ +-----+-----+-----+-----+ +-----+-----+-----+-----+
+
+To reach the CPU, SJA1105 switch 1 (spi/spi2.1) uses the same port as is uses
+to reach SJA1105 switch 2 (spi/spi2.2), which would be port 4 (not drawn).
+Similarly for SJA1105 switch 2.
+
+Also consider the following commands, that add VLAN 100 to every sja1105 user
+port::
+
+ devlink dev param set spi/spi2.1 name best_effort_vlan_filtering value true cmode runtime
+ devlink dev param set spi/spi2.2 name best_effort_vlan_filtering value true cmode runtime
+ ip link add dev br0 type bridge
+ for port in sw1p0 sw1p1 sw1p2 sw1p3 \
+ sw2p0 sw2p1 sw2p2 sw2p3; do
+ ip link set dev $port master br0
+ done
+ ip link set dev br0 type bridge vlan_filtering 1
+ for port in sw1p0 sw1p1 sw1p2 sw1p3 \
+ sw2p0 sw2p1 sw2p2; do
+ bridge vlan add dev $port vid 100
+ done
+ ip link add link br0 name br0.100 type vlan id 100 && ip link set dev br0.100 up
+ ip addr add 192.168.100.3/24 dev br0.100
+ bridge vlan add dev br0 vid 100 self
+
+ bridge vlan
+ port vlan ids
+ sw1p0 1 PVID Egress Untagged
+ 100
+
+ sw1p1 1 PVID Egress Untagged
+ 100
+
+ sw1p2 1 PVID Egress Untagged
+ 100
+
+ sw1p3 1 PVID Egress Untagged
+ 100
+
+ sw2p0 1 PVID Egress Untagged
+ 100
+
+ sw2p1 1 PVID Egress Untagged
+ 100
+
+ sw2p2 1 PVID Egress Untagged
+ 100
+
+ sw2p3 1 PVID Egress Untagged
+
+ br0 1 PVID Egress Untagged
+ 100
+
+SJA1105 switch 1 consumes 1 retagging entry for each VLAN on each user port
+towards the CPU. It also consumes 1 retagging entry for each non-pvid VLAN that
+it is also interested in, which is configured on any port of any neighbor
+switch.
+
+In this case, SJA1105 switch 1 consumes a total of 11 retagging entries, as
+follows:
+- 8 retagging entries for VLANs 1 and 100 installed on its user ports
+ (``sw1p0`` - ``sw1p3``)
+- 3 retagging entries for VLAN 100 installed on the user ports of SJA1105
+ switch 2 (``sw2p0`` - ``sw2p2``), because it also has ports that are
+ interested in it. The VLAN 1 is a pvid on SJA1105 switch 2 and does not need
+ reverse retagging.
+
+SJA1105 switch 2 also consumes 11 retagging entries, but organized as follows:
+- 7 retagging entries for the bridge VLANs on its user ports (``sw2p0`` -
+ ``sw2p3``).
+- 4 retagging entries for VLAN 100 installed on the user ports of SJA1105
+ switch 1 (``sw1p0`` - ``sw1p3``).
Switching features
==================