Commit 567d2608 authored by Hangbin Liu's avatar Hangbin Liu Committed by Paolo Abeni

docs: bridge: add STP doc

Add STP part for bridge document.
Reviewed-by: default avatarFlorian Fainelli <florian.fainelli@broadcom.com>
Signed-off-by: default avatarHangbin Liu <liuhangbin@gmail.com>
Acked-by: default avatarNikolay Aleksandrov <razor@blackwall.org>
Signed-off-by: default avatarPaolo Abeni <pabeni@redhat.com>
parent bcc1f84e
......@@ -47,6 +47,107 @@ Bridge sysfs
The sysfs interface is deprecated and should not be extended if new
options are added.
STP
===
The STP (Spanning Tree Protocol) implementation in the Linux bridge driver
is a critical feature that helps prevent loops and broadcast storms in
Ethernet networks by identifying and disabling redundant links. In a Linux
bridge context, STP is crucial for network stability and availability.
STP is a Layer 2 protocol that operates at the Data Link Layer of the OSI
model. It was originally developed as IEEE 802.1D and has since evolved into
multiple versions, including Rapid Spanning Tree Protocol (RSTP) and
`Multiple Spanning Tree Protocol (MSTP)
<https://lore.kernel.org/netdev/20220316150857.2442916-1-tobias@waldekranz.com/>`_.
The 802.1D-2004 removed the original Spanning Tree Protocol, instead
incorporating the Rapid Spanning Tree Protocol (RSTP). By 2014, all the
functionality defined by IEEE 802.1D has been incorporated into either
IEEE 802.1Q (Bridges and Bridged Networks) or IEEE 802.1AC (MAC Service
Definition). 802.1D has been officially withdrawn in 2022.
Bridge Ports and STP States
---------------------------
In the context of STP, bridge ports can be in one of the following states:
* Blocking: The port is disabled for data traffic and only listens for
BPDUs (Bridge Protocol Data Units) from other devices to determine the
network topology.
* Listening: The port begins to participate in the STP process and listens
for BPDUs.
* Learning: The port continues to listen for BPDUs and begins to learn MAC
addresses from incoming frames but does not forward data frames.
* Forwarding: The port is fully operational and forwards both BPDUs and
data frames.
* Disabled: The port is administratively disabled and does not participate
in the STP process. The data frames forwarding are also disabled.
Root Bridge and Convergence
---------------------------
In the context of networking and Ethernet bridging in Linux, the root bridge
is a designated switch in a bridged network that serves as a reference point
for the spanning tree algorithm to create a loop-free topology.
Here's how the STP works and root bridge is chosen:
1. Bridge Priority: Each bridge running a spanning tree protocol, has a
configurable Bridge Priority value. The lower the value, the higher the
priority. By default, the Bridge Priority is set to a standard value
(e.g., 32768).
2. Bridge ID: The Bridge ID is composed of two components: Bridge Priority
and the MAC address of the bridge. It uniquely identifies each bridge
in the network. The Bridge ID is used to compare the priorities of
different bridges.
3. Bridge Election: When the network starts, all bridges initially assume
that they are the root bridge. They start advertising Bridge Protocol
Data Units (BPDU) to their neighbors, containing their Bridge ID and
other information.
4. BPDU Comparison: Bridges exchange BPDUs to determine the root bridge.
Each bridge examines the received BPDUs, including the Bridge Priority
and Bridge ID, to determine if it should adjust its own priorities.
The bridge with the lowest Bridge ID will become the root bridge.
5. Root Bridge Announcement: Once the root bridge is determined, it sends
BPDUs with information about the root bridge to all other bridges in the
network. This information is used by other bridges to calculate the
shortest path to the root bridge and, in doing so, create a loop-free
topology.
6. Forwarding Ports: After the root bridge is selected and the spanning tree
topology is established, each bridge determines which of its ports should
be in the forwarding state (used for data traffic) and which should be in
the blocking state (used to prevent loops). The root bridge's ports are
all in the forwarding state. while other bridges have some ports in the
blocking state to avoid loops.
7. Root Ports: After the root bridge is selected and the spanning tree
topology is established, each non-root bridge processes incoming
BPDUs and determines which of its ports provides the shortest path to the
root bridge based on the information in the received BPDUs. This port is
designated as the root port. And it is in the Forwarding state, allowing
it to actively forward network traffic.
8. Designated ports: A designated port is the port through which the non-root
bridge will forward traffic towards the designated segment. Designated ports
are placed in the Forwarding state. All other ports on the non-root
bridge that are not designated for specific segments are placed in the
Blocking state to prevent network loops.
STP ensures network convergence by calculating the shortest path and disabling
redundant links. When network topology changes occur (e.g., a link failure),
STP recalculates the network topology to restore connectivity while avoiding loops.
Proper configuration of STP parameters, such as the bridge priority, can
influence network performance, path selection and which bridge becomes the
Root Bridge.
User space STP helper
---------------------
The user space STP helper *bridge-stp* is a program to control whether to use
user mode spanning tree. The ``/sbin/bridge-stp <bridge> <start|stop>`` is
called by the kernel when STP is enabled/disabled on a bridge
(via ``brctl stp <bridge> <on|off>`` or ``ip link set <bridge> type bridge
stp_state <0|1>``). The kernel enables user_stp mode if that command returns
0, or enables kernel_stp mode if that command returns any other value.
FAQ
===
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