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Figure 1 is full of whitespaces; fix it Signed-off-by: Liam Beguin <lbeguin@tycoint.com> Signed-off-by: Sylvain Lemieux <slemieux@tycoint.com> Acked-by: Ivan Vecera <ivecera@redhat.com> Signed-off-by: David S. Miller <davem@davemloft.net>
395 lines
19 KiB
Plaintext
395 lines
19 KiB
Plaintext
Ethernet switch device driver model (switchdev)
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===============================================
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Copyright (c) 2014 Jiri Pirko <jiri@resnulli.us>
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Copyright (c) 2014-2015 Scott Feldman <sfeldma@gmail.com>
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The Ethernet switch device driver model (switchdev) is an in-kernel driver
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model for switch devices which offload the forwarding (data) plane from the
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kernel.
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Figure 1 is a block diagram showing the components of the switchdev model for
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an example setup using a data-center-class switch ASIC chip. Other setups
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with SR-IOV or soft switches, such as OVS, are possible.
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User-space tools
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user space |
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+-------------------------------------------------------------------+
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kernel | Netlink
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+--------------+-------------------------------+
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| Network stack |
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| (Linux) |
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| |
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+----------------------------------------------+
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sw1p2 sw1p4 sw1p6
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sw1p1 + sw1p3 + sw1p5 + eth1
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+ | + | + | +
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| | | | | | |
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+--+----+----+----+-+--+----+---+ +-----+-----+
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| Switch driver | | mgmt |
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| (this document) | | driver |
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| | | |
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+--------------+----------------+ +-----------+
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kernel | HW bus (eg PCI)
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+-------------------------------------------------------------------+
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hardware |
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+--------------+---+------------+
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| Switch device (sw1) |
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| +----+ +--------+
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| | v offloaded data path | mgmt port
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| | | |
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+--|----|----+----+----+----+---+
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+ + + + + +
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p1 p2 p3 p4 p5 p6
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front-panel ports
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Fig 1.
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Include Files
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-------------
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#include <linux/netdevice.h>
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#include <net/switchdev.h>
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Configuration
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-------------
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Use "depends NET_SWITCHDEV" in driver's Kconfig to ensure switchdev model
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support is built for driver.
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Switch Ports
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------------
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On switchdev driver initialization, the driver will allocate and register a
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struct net_device (using register_netdev()) for each enumerated physical switch
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port, called the port netdev. A port netdev is the software representation of
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the physical port and provides a conduit for control traffic to/from the
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controller (the kernel) and the network, as well as an anchor point for higher
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level constructs such as bridges, bonds, VLANs, tunnels, and L3 routers. Using
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standard netdev tools (iproute2, ethtool, etc), the port netdev can also
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provide to the user access to the physical properties of the switch port such
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as PHY link state and I/O statistics.
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There is (currently) no higher-level kernel object for the switch beyond the
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port netdevs. All of the switchdev driver ops are netdev ops or switchdev ops.
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A switch management port is outside the scope of the switchdev driver model.
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Typically, the management port is not participating in offloaded data plane and
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is loaded with a different driver, such as a NIC driver, on the management port
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device.
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Switch ID
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^^^^^^^^^
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The switchdev driver must implement the switchdev op switchdev_port_attr_get
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for SWITCHDEV_ATTR_ID_PORT_PARENT_ID for each port netdev, returning the same
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physical ID for each port of a switch. The ID must be unique between switches
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on the same system. The ID does not need to be unique between switches on
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different systems.
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The switch ID is used to locate ports on a switch and to know if aggregated
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ports belong to the same switch.
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Port Netdev Naming
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^^^^^^^^^^^^^^^^^^
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Udev rules should be used for port netdev naming, using some unique attribute
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of the port as a key, for example the port MAC address or the port PHYS name.
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Hard-coding of kernel netdev names within the driver is discouraged; let the
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kernel pick the default netdev name, and let udev set the final name based on a
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port attribute.
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Using port PHYS name (ndo_get_phys_port_name) for the key is particularly
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useful for dynamically-named ports where the device names its ports based on
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external configuration. For example, if a physical 40G port is split logically
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into 4 10G ports, resulting in 4 port netdevs, the device can give a unique
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name for each port using port PHYS name. The udev rule would be:
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SUBSYSTEM=="net", ACTION=="add", ATTR{phys_switch_id}=="<phys_switch_id>", \
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ATTR{phys_port_name}!="", NAME="swX$attr{phys_port_name}"
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Suggested naming convention is "swXpYsZ", where X is the switch name or ID, Y
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is the port name or ID, and Z is the sub-port name or ID. For example, sw1p1s0
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would be sub-port 0 on port 1 on switch 1.
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Port Features
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^^^^^^^^^^^^^
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NETIF_F_NETNS_LOCAL
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If the switchdev driver (and device) only supports offloading of the default
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network namespace (netns), the driver should set this feature flag to prevent
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the port netdev from being moved out of the default netns. A netns-aware
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driver/device would not set this flag and be responsible for partitioning
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hardware to preserve netns containment. This means hardware cannot forward
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traffic from a port in one namespace to another port in another namespace.
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Port Topology
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^^^^^^^^^^^^^
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The port netdevs representing the physical switch ports can be organized into
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higher-level switching constructs. The default construct is a standalone
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router port, used to offload L3 forwarding. Two or more ports can be bonded
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together to form a LAG. Two or more ports (or LAGs) can be bridged to bridge
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L2 networks. VLANs can be applied to sub-divide L2 networks. L2-over-L3
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tunnels can be built on ports. These constructs are built using standard Linux
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tools such as the bridge driver, the bonding/team drivers, and netlink-based
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tools such as iproute2.
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The switchdev driver can know a particular port's position in the topology by
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monitoring NETDEV_CHANGEUPPER notifications. For example, a port moved into a
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bond will see it's upper master change. If that bond is moved into a bridge,
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the bond's upper master will change. And so on. The driver will track such
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movements to know what position a port is in in the overall topology by
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registering for netdevice events and acting on NETDEV_CHANGEUPPER.
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L2 Forwarding Offload
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---------------------
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The idea is to offload the L2 data forwarding (switching) path from the kernel
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to the switchdev device by mirroring bridge FDB entries down to the device. An
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FDB entry is the {port, MAC, VLAN} tuple forwarding destination.
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To offloading L2 bridging, the switchdev driver/device should support:
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- Static FDB entries installed on a bridge port
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- Notification of learned/forgotten src mac/vlans from device
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- STP state changes on the port
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- VLAN flooding of multicast/broadcast and unknown unicast packets
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Static FDB Entries
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^^^^^^^^^^^^^^^^^^
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The switchdev driver should implement ndo_fdb_add, ndo_fdb_del and ndo_fdb_dump
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to support static FDB entries installed to the device. Static bridge FDB
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entries are installed, for example, using iproute2 bridge cmd:
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bridge fdb add ADDR dev DEV [vlan VID] [self]
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The driver should use the helper switchdev_port_fdb_xxx ops for ndo_fdb_xxx
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ops, and handle add/delete/dump of SWITCHDEV_OBJ_ID_PORT_FDB object using
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switchdev_port_obj_xxx ops.
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XXX: what should be done if offloading this rule to hardware fails (for
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example, due to full capacity in hardware tables) ?
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Note: by default, the bridge does not filter on VLAN and only bridges untagged
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traffic. To enable VLAN support, turn on VLAN filtering:
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echo 1 >/sys/class/net/<bridge>/bridge/vlan_filtering
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Notification of Learned/Forgotten Source MAC/VLANs
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The switch device will learn/forget source MAC address/VLAN on ingress packets
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and notify the switch driver of the mac/vlan/port tuples. The switch driver,
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in turn, will notify the bridge driver using the switchdev notifier call:
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err = call_switchdev_notifiers(val, dev, info);
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Where val is SWITCHDEV_FDB_ADD when learning and SWITCHDEV_FDB_DEL when
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forgetting, and info points to a struct switchdev_notifier_fdb_info. On
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SWITCHDEV_FDB_ADD, the bridge driver will install the FDB entry into the
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bridge's FDB and mark the entry as NTF_EXT_LEARNED. The iproute2 bridge
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command will label these entries "offload":
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$ bridge fdb
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52:54:00:12:35:01 dev sw1p1 master br0 permanent
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00:02:00:00:02:00 dev sw1p1 master br0 offload
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00:02:00:00:02:00 dev sw1p1 self
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52:54:00:12:35:02 dev sw1p2 master br0 permanent
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00:02:00:00:03:00 dev sw1p2 master br0 offload
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00:02:00:00:03:00 dev sw1p2 self
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33:33:00:00:00:01 dev eth0 self permanent
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01:00:5e:00:00:01 dev eth0 self permanent
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33:33:ff:00:00:00 dev eth0 self permanent
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01:80:c2:00:00:0e dev eth0 self permanent
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33:33:00:00:00:01 dev br0 self permanent
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01:00:5e:00:00:01 dev br0 self permanent
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33:33:ff:12:35:01 dev br0 self permanent
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Learning on the port should be disabled on the bridge using the bridge command:
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bridge link set dev DEV learning off
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Learning on the device port should be enabled, as well as learning_sync:
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bridge link set dev DEV learning on self
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bridge link set dev DEV learning_sync on self
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Learning_sync attribute enables syncing of the learned/forgotton FDB entry to
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the bridge's FDB. It's possible, but not optimal, to enable learning on the
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device port and on the bridge port, and disable learning_sync.
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To support learning and learning_sync port attributes, the driver implements
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switchdev op switchdev_port_attr_get/set for
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SWITCHDEV_ATTR_PORT_ID_BRIDGE_FLAGS. The driver should initialize the attributes
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to the hardware defaults.
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FDB Ageing
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^^^^^^^^^^
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The bridge will skip ageing FDB entries marked with NTF_EXT_LEARNED and it is
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the responsibility of the port driver/device to age out these entries. If the
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port device supports ageing, when the FDB entry expires, it will notify the
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driver which in turn will notify the bridge with SWITCHDEV_FDB_DEL. If the
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device does not support ageing, the driver can simulate ageing using a
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garbage collection timer to monitor FBD entries. Expired entries will be
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notified to the bridge using SWITCHDEV_FDB_DEL. See rocker driver for
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example of driver running ageing timer.
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To keep an NTF_EXT_LEARNED entry "alive", the driver should refresh the FDB
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entry by calling call_switchdev_notifiers(SWITCHDEV_FDB_ADD, ...). The
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notification will reset the FDB entry's last-used time to now. The driver
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should rate limit refresh notifications, for example, no more than once a
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second. (The last-used time is visible using the bridge -s fdb option).
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STP State Change on Port
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^^^^^^^^^^^^^^^^^^^^^^^^
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Internally or with a third-party STP protocol implementation (e.g. mstpd), the
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bridge driver maintains the STP state for ports, and will notify the switch
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driver of STP state change on a port using the switchdev op
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switchdev_attr_port_set for SWITCHDEV_ATTR_PORT_ID_STP_UPDATE.
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State is one of BR_STATE_*. The switch driver can use STP state updates to
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update ingress packet filter list for the port. For example, if port is
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DISABLED, no packets should pass, but if port moves to BLOCKED, then STP BPDUs
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and other IEEE 01:80:c2:xx:xx:xx link-local multicast packets can pass.
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Note that STP BDPUs are untagged and STP state applies to all VLANs on the port
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so packet filters should be applied consistently across untagged and tagged
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VLANs on the port.
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Flooding L2 domain
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^^^^^^^^^^^^^^^^^^
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For a given L2 VLAN domain, the switch device should flood multicast/broadcast
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and unknown unicast packets to all ports in domain, if allowed by port's
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current STP state. The switch driver, knowing which ports are within which
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vlan L2 domain, can program the switch device for flooding. The packet may
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be sent to the port netdev for processing by the bridge driver. The
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bridge should not reflood the packet to the same ports the device flooded,
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otherwise there will be duplicate packets on the wire.
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To avoid duplicate packets, the switch driver should mark a packet as already
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forwarded by setting the skb->offload_fwd_mark bit. The bridge driver will mark
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the skb using the ingress bridge port's mark and prevent it from being forwarded
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through any bridge port with the same mark.
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It is possible for the switch device to not handle flooding and push the
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packets up to the bridge driver for flooding. This is not ideal as the number
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of ports scale in the L2 domain as the device is much more efficient at
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flooding packets that software.
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If supported by the device, flood control can be offloaded to it, preventing
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certain netdevs from flooding unicast traffic for which there is no FDB entry.
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IGMP Snooping
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^^^^^^^^^^^^^
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In order to support IGMP snooping, the port netdevs should trap to the bridge
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driver all IGMP join and leave messages.
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The bridge multicast module will notify port netdevs on every multicast group
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changed whether it is static configured or dynamically joined/leave.
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The hardware implementation should be forwarding all registered multicast
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traffic groups only to the configured ports.
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L3 Routing Offload
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------------------
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Offloading L3 routing requires that device be programmed with FIB entries from
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the kernel, with the device doing the FIB lookup and forwarding. The device
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does a longest prefix match (LPM) on FIB entries matching route prefix and
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forwards the packet to the matching FIB entry's nexthop(s) egress ports.
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To program the device, the driver has to register a FIB notifier handler
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using register_fib_notifier. The following events are available:
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FIB_EVENT_ENTRY_ADD: used for both adding a new FIB entry to the device,
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or modifying an existing entry on the device.
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FIB_EVENT_ENTRY_DEL: used for removing a FIB entry
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FIB_EVENT_RULE_ADD, FIB_EVENT_RULE_DEL: used to propagate FIB rule changes
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FIB_EVENT_ENTRY_ADD and FIB_EVENT_ENTRY_DEL events pass:
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struct fib_entry_notifier_info {
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struct fib_notifier_info info; /* must be first */
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u32 dst;
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int dst_len;
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struct fib_info *fi;
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u8 tos;
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u8 type;
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u32 tb_id;
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u32 nlflags;
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};
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to add/modify/delete IPv4 dst/dest_len prefix on table tb_id. The *fi
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structure holds details on the route and route's nexthops. *dev is one of the
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port netdevs mentioned in the route's next hop list.
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Routes offloaded to the device are labeled with "offload" in the ip route
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listing:
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$ ip route show
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default via 192.168.0.2 dev eth0
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11.0.0.0/30 dev sw1p1 proto kernel scope link src 11.0.0.2 offload
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11.0.0.4/30 via 11.0.0.1 dev sw1p1 proto zebra metric 20 offload
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11.0.0.8/30 dev sw1p2 proto kernel scope link src 11.0.0.10 offload
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11.0.0.12/30 via 11.0.0.9 dev sw1p2 proto zebra metric 20 offload
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12.0.0.2 proto zebra metric 30 offload
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nexthop via 11.0.0.1 dev sw1p1 weight 1
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nexthop via 11.0.0.9 dev sw1p2 weight 1
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12.0.0.3 via 11.0.0.1 dev sw1p1 proto zebra metric 20 offload
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12.0.0.4 via 11.0.0.9 dev sw1p2 proto zebra metric 20 offload
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192.168.0.0/24 dev eth0 proto kernel scope link src 192.168.0.15
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The "offload" flag is set in case at least one device offloads the FIB entry.
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XXX: add/mod/del IPv6 FIB API
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Nexthop Resolution
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^^^^^^^^^^^^^^^^^^
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The FIB entry's nexthop list contains the nexthop tuple (gateway, dev), but for
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the switch device to forward the packet with the correct dst mac address, the
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nexthop gateways must be resolved to the neighbor's mac address. Neighbor mac
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address discovery comes via the ARP (or ND) process and is available via the
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arp_tbl neighbor table. To resolve the routes nexthop gateways, the driver
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should trigger the kernel's neighbor resolution process. See the rocker
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driver's rocker_port_ipv4_resolve() for an example.
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The driver can monitor for updates to arp_tbl using the netevent notifier
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NETEVENT_NEIGH_UPDATE. The device can be programmed with resolved nexthops
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for the routes as arp_tbl updates. The driver implements ndo_neigh_destroy
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to know when arp_tbl neighbor entries are purged from the port.
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Transaction item queue
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^^^^^^^^^^^^^^^^^^^^^^
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For switchdev ops attr_set and obj_add, there is a 2 phase transaction model
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used. First phase is to "prepare" anything needed, including various checks,
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memory allocation, etc. The goal is to handle the stuff that is not unlikely
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to fail here. The second phase is to "commit" the actual changes.
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Switchdev provides an infrastructure for sharing items (for example memory
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allocations) between the two phases.
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The object created by a driver in "prepare" phase and it is queued up by:
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switchdev_trans_item_enqueue()
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During the "commit" phase, the driver gets the object by:
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switchdev_trans_item_dequeue()
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If a transaction is aborted during "prepare" phase, switchdev code will handle
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cleanup of the queued-up objects.
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