The latest development version of this page may be more current than this released 4.0.0 version.

Core

The core provides functionality for managing the general Bluetooth Mesh state.

Low Power Node

The Low Power Node (LPN) role allows battery powered devices to participate in a mesh network as a leaf node. An LPN interacts with the mesh network through a Friend node, which is responsible for relaying any messages directed to the LPN. The LPN saves power by keeping its radio turned off, and only wakes up to either send messages or poll the Friend node for any incoming messages.

The radio control and polling is managed automatically by the mesh stack, but the LPN API allows the application to trigger the polling at any time through bt_mesh_lpn_poll(). The LPN operation parameters, including poll interval, poll event timing and Friend requirements is controlled through the CONFIG_BT_MESH_LOW_POWER option and related configuration options.

When using the LPN feature with logging, it is strongly recommended to only use the CONFIG_LOG_MODE_DEFERRED option. Log modes other than the deferred may cause unintended delays during processing of log messages. This in turns will affect scheduling of the receive delay and receive window. The same limitation applies for the CONFIG_BT_MESH_FRIEND option.

Replay Protection List

The Replay Protection List (RPL) is used to hold recently received sequence numbers from elements within the mesh network to perform protection against replay attacks.

To keep a node protected against replay attacks after reboot, it needs to store the entire RPL in the persistent storage before it is powered off. Depending on the amount of traffic in a mesh network, storing recently seen sequence numbers can make flash wear out sooner or later. To mitigate this, CONFIG_BT_MESH_RPL_STORE_TIMEOUT can be used. This option postpones storing of RPL entries in the persistent storage.

This option, however, doesn’t completely solve the issue as the node may get powered off before the timer to store the RPL is fired. To ensure that messages can not be replayed, the node can initiate storage of the pending RPL entry (or entries) at any time (or sufficiently before power loss) by calling bt_mesh_rpl_pending_store(). This is up to the node to decide, which RPL entries are to be stored in this case.

Setting CONFIG_BT_MESH_RPL_STORE_TIMEOUT to -1 allows to completely switch off the timer, which can help to significantly reduce flash wear out. This moves the responsibility of storing RPL to the user application and requires that sufficient power backup is available from the time this API is called until all RPL entries are written to the flash.

Finding the right balance between CONFIG_BT_MESH_RPL_STORE_TIMEOUT and calling bt_mesh_rpl_pending_store() may reduce a risk of security vulnerability and flash wear out.

Persistent storage

The mesh stack uses the Settings Subsystem for storing the device configuration persistently. When the stack configuration changes and the change needs to be stored persistently, the stack schedules a work item. The delay between scheduling the work item and submitting it to the workqueue is defined by the CONFIG_BT_MESH_STORE_TIMEOUT option. Once storing of data is scheduled, it can not be rescheduled until the work item is processed. Exceptions are made in certain cases as described below.

When IV index, Sequence Number or CDB configuration have to be stored, the work item is submitted to the workqueue without the delay. If the work item was previously scheduled, it will be rescheduled without the delay.

The Replay Protection List uses the same work item to store RPL entries. If storing of RPL entries is requested and no other configuration is pending to be stored, the delay is set to CONFIG_BT_MESH_RPL_STORE_TIMEOUT. If other stack configuration has to be stored, the delay defined by the CONFIG_BT_MESH_STORE_TIMEOUT option is less than CONFIG_BT_MESH_RPL_STORE_TIMEOUT, and the work item was scheduled by the Replay Protection List, the work item will be rescheduled.

When the work item is running, the stack will store all pending configuration, including the RPL entries.

Work item execution context

The CONFIG_BT_MESH_SETTINGS_WORKQ option configures the context from which the work item is executed. This option is enabled by default, and results in stack using a dedicated cooperative thread to process the work item. This allows the stack to process other incoming and outgoing messages, as well as other work items submitted to the system workqueue, while the stack configuration is being stored.

When this option is disabled, the work item is submitted to the system workqueue. This means that the system workqueue is blocked for the time it takes to store the stack’s configuration. It is not recommended to disable this option as this will make the device non-responsive for a noticeable amount of time.

API reference

Bluetooth Mesh