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/** @file
* @brief Access layer APIs.
*/
/*
* Copyright (c) 2017 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef ZEPHYR_INCLUDE_BLUETOOTH_MESH_ACCESS_H_
#define ZEPHYR_INCLUDE_BLUETOOTH_MESH_ACCESS_H_
#include <settings/settings.h>
#include <sys/util.h>
#include <bluetooth/mesh/msg.h>
/* Internal macros used to initialize array members */
#define BT_MESH_KEY_UNUSED_ELT_(IDX, _) BT_MESH_KEY_UNUSED,
#define BT_MESH_ADDR_UNASSIGNED_ELT_(IDX, _) BT_MESH_ADDR_UNASSIGNED,
#define BT_MESH_MODEL_KEYS_UNUSED \
{ UTIL_LISTIFY(CONFIG_BT_MESH_MODEL_KEY_COUNT, \
BT_MESH_KEY_UNUSED_ELT_) }
#define BT_MESH_MODEL_GROUPS_UNASSIGNED \
{ UTIL_LISTIFY(CONFIG_BT_MESH_MODEL_GROUP_COUNT, \
BT_MESH_ADDR_UNASSIGNED_ELT_) }
/**
* @brief Access layer
* @defgroup bt_mesh_access Access layer
* @ingroup bt_mesh
* @{
*/
#ifdef __cplusplus
extern "C" {
#endif
#define BT_MESH_ADDR_UNASSIGNED 0x0000
#define BT_MESH_ADDR_ALL_NODES 0xffff
#define BT_MESH_ADDR_PROXIES 0xfffc
#define BT_MESH_ADDR_FRIENDS 0xfffd
#define BT_MESH_ADDR_RELAYS 0xfffe
#define BT_MESH_KEY_UNUSED 0xffff
#define BT_MESH_KEY_ANY 0xffff
#define BT_MESH_KEY_DEV 0xfffe
#define BT_MESH_KEY_DEV_LOCAL BT_MESH_KEY_DEV
#define BT_MESH_KEY_DEV_REMOTE 0xfffd
#define BT_MESH_KEY_DEV_ANY 0xfffc
#define BT_MESH_ADDR_IS_UNICAST(addr) ((addr) && (addr) < 0x8000)
#define BT_MESH_ADDR_IS_GROUP(addr) ((addr) >= 0xc000 && (addr) <= 0xff00)
#define BT_MESH_ADDR_IS_VIRTUAL(addr) ((addr) >= 0x8000 && (addr) < 0xc000)
#define BT_MESH_ADDR_IS_RFU(addr) ((addr) >= 0xff00 && (addr) <= 0xfffb)
#define BT_MESH_IS_DEV_KEY(key) (key == BT_MESH_KEY_DEV_LOCAL || \
key == BT_MESH_KEY_DEV_REMOTE)
/** Maximum payload size of an access message (in octets). */
#define BT_MESH_APP_SEG_SDU_MAX 12
/** Maximum possible payload size of an outgoing access message (in octets). */
#define BT_MESH_TX_SDU_MAX (CONFIG_BT_MESH_TX_SEG_MAX * \
BT_MESH_APP_SEG_SDU_MAX)
/** Maximum possible payload size of an incoming access message (in octets). */
#define BT_MESH_RX_SDU_MAX (CONFIG_BT_MESH_RX_SEG_MAX * \
BT_MESH_APP_SEG_SDU_MAX)
/** Helper to define a mesh element within an array.
*
* In case the element has no SIG or Vendor models the helper
* macro BT_MESH_MODEL_NONE can be given instead.
*
* @param _loc Location Descriptor.
* @param _mods Array of models.
* @param _vnd_mods Array of vendor models.
*/
#define BT_MESH_ELEM(_loc, _mods, _vnd_mods) \
{ \
.loc = (_loc), \
.model_count = ARRAY_SIZE(_mods), \
.vnd_model_count = ARRAY_SIZE(_vnd_mods), \
.models = (_mods), \
.vnd_models = (_vnd_mods), \
}
/** Abstraction that describes a Mesh Element */
struct bt_mesh_elem {
/** Unicast Address. Set at runtime during provisioning. */
uint16_t addr;
/** Location Descriptor (GATT Bluetooth Namespace Descriptors) */
const uint16_t loc;
/** The number of SIG models in this element */
const uint8_t model_count;
/** The number of vendor models in this element */
const uint8_t vnd_model_count;
/** The list of SIG models in this element */
struct bt_mesh_model * const models;
/** The list of vendor models in this element */
struct bt_mesh_model * const vnd_models;
};
/* Foundation Models */
#define BT_MESH_MODEL_ID_CFG_SRV 0x0000
#define BT_MESH_MODEL_ID_CFG_CLI 0x0001
#define BT_MESH_MODEL_ID_HEALTH_SRV 0x0002
#define BT_MESH_MODEL_ID_HEALTH_CLI 0x0003
/* Models from the Mesh Model Specification */
#define BT_MESH_MODEL_ID_GEN_ONOFF_SRV 0x1000
#define BT_MESH_MODEL_ID_GEN_ONOFF_CLI 0x1001
#define BT_MESH_MODEL_ID_GEN_LEVEL_SRV 0x1002
#define BT_MESH_MODEL_ID_GEN_LEVEL_CLI 0x1003
#define BT_MESH_MODEL_ID_GEN_DEF_TRANS_TIME_SRV 0x1004
#define BT_MESH_MODEL_ID_GEN_DEF_TRANS_TIME_CLI 0x1005
#define BT_MESH_MODEL_ID_GEN_POWER_ONOFF_SRV 0x1006
#define BT_MESH_MODEL_ID_GEN_POWER_ONOFF_SETUP_SRV 0x1007
#define BT_MESH_MODEL_ID_GEN_POWER_ONOFF_CLI 0x1008
#define BT_MESH_MODEL_ID_GEN_POWER_LEVEL_SRV 0x1009
#define BT_MESH_MODEL_ID_GEN_POWER_LEVEL_SETUP_SRV 0x100a
#define BT_MESH_MODEL_ID_GEN_POWER_LEVEL_CLI 0x100b
#define BT_MESH_MODEL_ID_GEN_BATTERY_SRV 0x100c
#define BT_MESH_MODEL_ID_GEN_BATTERY_CLI 0x100d
#define BT_MESH_MODEL_ID_GEN_LOCATION_SRV 0x100e
#define BT_MESH_MODEL_ID_GEN_LOCATION_SETUPSRV 0x100f
#define BT_MESH_MODEL_ID_GEN_LOCATION_CLI 0x1010
#define BT_MESH_MODEL_ID_GEN_ADMIN_PROP_SRV 0x1011
#define BT_MESH_MODEL_ID_GEN_MANUFACTURER_PROP_SRV 0x1012
#define BT_MESH_MODEL_ID_GEN_USER_PROP_SRV 0x1013
#define BT_MESH_MODEL_ID_GEN_CLIENT_PROP_SRV 0x1014
#define BT_MESH_MODEL_ID_GEN_PROP_CLI 0x1015
#define BT_MESH_MODEL_ID_SENSOR_SRV 0x1100
#define BT_MESH_MODEL_ID_SENSOR_SETUP_SRV 0x1101
#define BT_MESH_MODEL_ID_SENSOR_CLI 0x1102
#define BT_MESH_MODEL_ID_TIME_SRV 0x1200
#define BT_MESH_MODEL_ID_TIME_SETUP_SRV 0x1201
#define BT_MESH_MODEL_ID_TIME_CLI 0x1202
#define BT_MESH_MODEL_ID_SCENE_SRV 0x1203
#define BT_MESH_MODEL_ID_SCENE_SETUP_SRV 0x1204
#define BT_MESH_MODEL_ID_SCENE_CLI 0x1205
#define BT_MESH_MODEL_ID_SCHEDULER_SRV 0x1206
#define BT_MESH_MODEL_ID_SCHEDULER_SETUP_SRV 0x1207
#define BT_MESH_MODEL_ID_SCHEDULER_CLI 0x1208
#define BT_MESH_MODEL_ID_LIGHT_LIGHTNESS_SRV 0x1300
#define BT_MESH_MODEL_ID_LIGHT_LIGHTNESS_SETUP_SRV 0x1301
#define BT_MESH_MODEL_ID_LIGHT_LIGHTNESS_CLI 0x1302
#define BT_MESH_MODEL_ID_LIGHT_CTL_SRV 0x1303
#define BT_MESH_MODEL_ID_LIGHT_CTL_SETUP_SRV 0x1304
#define BT_MESH_MODEL_ID_LIGHT_CTL_CLI 0x1305
#define BT_MESH_MODEL_ID_LIGHT_CTL_TEMP_SRV 0x1306
#define BT_MESH_MODEL_ID_LIGHT_HSL_SRV 0x1307
#define BT_MESH_MODEL_ID_LIGHT_HSL_SETUP_SRV 0x1308
#define BT_MESH_MODEL_ID_LIGHT_HSL_CLI 0x1309
#define BT_MESH_MODEL_ID_LIGHT_HSL_HUE_SRV 0x130a
#define BT_MESH_MODEL_ID_LIGHT_HSL_SAT_SRV 0x130b
#define BT_MESH_MODEL_ID_LIGHT_XYL_SRV 0x130c
#define BT_MESH_MODEL_ID_LIGHT_XYL_SETUP_SRV 0x130d
#define BT_MESH_MODEL_ID_LIGHT_XYL_CLI 0x130e
#define BT_MESH_MODEL_ID_LIGHT_LC_SRV 0x130f
#define BT_MESH_MODEL_ID_LIGHT_LC_SETUPSRV 0x1310
#define BT_MESH_MODEL_ID_LIGHT_LC_CLI 0x1311
/** Model opcode handler. */
struct bt_mesh_model_op {
/** OpCode encoded using the BT_MESH_MODEL_OP_* macros */
const uint32_t opcode;
/** Message length. If the message has variable length then this value
* indicates minimum message length and should be positive. Handler
* function should verify precise length based on the contents of the
* message. If the message has fixed length then this value should
* be negative. Use BT_MESH_LEN_* macros when defining this value.
*/
const ssize_t len;
/** @brief Handler function for this opcode.
*
* @param model Model instance receiving the message.
* @param ctx Message context for the message.
* @param buf Message buffer containing the message payload, not
* including the opcode.
*
* @return Zero on success or (negative) error code otherwise.
*/
int (*const func)(struct bt_mesh_model *model,
struct bt_mesh_msg_ctx *ctx,
struct net_buf_simple *buf);
};
#define BT_MESH_MODEL_OP_1(b0) (b0)
#define BT_MESH_MODEL_OP_2(b0, b1) (((b0) << 8) | (b1))
#define BT_MESH_MODEL_OP_3(b0, cid) ((((b0) << 16) | 0xc00000) | (cid))
/** Macro for encoding exact message length for fixed-length messages. */
#define BT_MESH_LEN_EXACT(len) (-len)
/** Macro for encoding minimum message length for variable-length messages. */
#define BT_MESH_LEN_MIN(len) (len)
/** End of the opcode list. Must always be present. */
#define BT_MESH_MODEL_OP_END { 0, 0, NULL }
/** Helper to define an empty opcode list. */
#define BT_MESH_MODEL_NO_OPS ((struct bt_mesh_model_op []) \
{ BT_MESH_MODEL_OP_END })
/** Helper to define an empty model array */
#define BT_MESH_MODEL_NONE ((struct bt_mesh_model []){})
/** @def BT_MESH_MODEL_CB
*
* @brief Composition data SIG model entry with callback functions.
*
* @param _id Model ID.
* @param _op Array of model opcode handlers.
* @param _pub Model publish parameters.
* @param _user_data User data for the model.
* @param _cb Callback structure, or NULL to keep no callbacks.
*/
#define BT_MESH_MODEL_CB(_id, _op, _pub, _user_data, _cb) \
{ \
.id = (_id), \
.pub = _pub, \
.keys = BT_MESH_MODEL_KEYS_UNUSED, \
.groups = BT_MESH_MODEL_GROUPS_UNASSIGNED, \
.op = _op, \
.cb = _cb, \
.user_data = _user_data, \
}
/** @def BT_MESH_MODEL_VND_CB
*
* @brief Composition data vendor model entry with callback functions.
*
* @param _company Company ID.
* @param _id Model ID.
* @param _op Array of model opcode handlers.
* @param _pub Model publish parameters.
* @param _user_data User data for the model.
* @param _cb Callback structure, or NULL to keep no callbacks.
*/
#define BT_MESH_MODEL_VND_CB(_company, _id, _op, _pub, _user_data, _cb) \
{ \
.vnd.company = (_company), \
.vnd.id = (_id), \
.op = _op, \
.pub = _pub, \
.keys = BT_MESH_MODEL_KEYS_UNUSED, \
.groups = BT_MESH_MODEL_GROUPS_UNASSIGNED, \
.user_data = _user_data, \
.cb = _cb, \
}
/** @def BT_MESH_MODEL
*
* @brief Composition data SIG model entry.
*
* @param _id Model ID.
* @param _op Array of model opcode handlers.
* @param _pub Model publish parameters.
* @param _user_data User data for the model.
*/
#define BT_MESH_MODEL(_id, _op, _pub, _user_data) \
BT_MESH_MODEL_CB(_id, _op, _pub, _user_data, NULL)
/** @def BT_MESH_MODEL_VND
*
* @brief Composition data vendor model entry.
*
* @param _company Company ID.
* @param _id Model ID.
* @param _op Array of model opcode handlers.
* @param _pub Model publish parameters.
* @param _user_data User data for the model.
*/
#define BT_MESH_MODEL_VND(_company, _id, _op, _pub, _user_data) \
BT_MESH_MODEL_VND_CB(_company, _id, _op, _pub, _user_data, NULL)
/** @def BT_MESH_TRANSMIT
*
* @brief Encode transmission count & interval steps.
*
* @param count Number of retransmissions (first transmission is excluded).
* @param int_ms Interval steps in milliseconds. Must be greater than 0,
* less than or equal to 320, and a multiple of 10.
*
* @return Mesh transmit value that can be used e.g. for the default
* values of the configuration model data.
*/
#define BT_MESH_TRANSMIT(count, int_ms) ((count) | (((int_ms / 10) - 1) << 3))
/** @def BT_MESH_TRANSMIT_COUNT
*
* @brief Decode transmit count from a transmit value.
*
* @param transmit Encoded transmit count & interval value.
*
* @return Transmission count (actual transmissions is N + 1).
*/
#define BT_MESH_TRANSMIT_COUNT(transmit) (((transmit) & (uint8_t)BIT_MASK(3)))
/** @def BT_MESH_TRANSMIT_INT
*
* @brief Decode transmit interval from a transmit value.
*
* @param transmit Encoded transmit count & interval value.
*
* @return Transmission interval in milliseconds.
*/
#define BT_MESH_TRANSMIT_INT(transmit) ((((transmit) >> 3) + 1) * 10)
/** @def BT_MESH_PUB_TRANSMIT
*
* @brief Encode Publish Retransmit count & interval steps.
*
* @param count Number of retransmissions (first transmission is excluded).
* @param int_ms Interval steps in milliseconds. Must be greater than 0 and a
* multiple of 50.
*
* @return Mesh transmit value that can be used e.g. for the default
* values of the configuration model data.
*/
#define BT_MESH_PUB_TRANSMIT(count, int_ms) BT_MESH_TRANSMIT(count, \
(int_ms) / 5)
/** @def BT_MESH_PUB_TRANSMIT_COUNT
*
* @brief Decode Publish Retransmit count from a given value.
*
* @param transmit Encoded Publish Retransmit count & interval value.
*
* @return Retransmission count (actual transmissions is N + 1).
*/
#define BT_MESH_PUB_TRANSMIT_COUNT(transmit) BT_MESH_TRANSMIT_COUNT(transmit)
/** @def BT_MESH_PUB_TRANSMIT_INT
*
* @brief Decode Publish Retransmit interval from a given value.
*
* @param transmit Encoded Publish Retransmit count & interval value.
*
* @return Transmission interval in milliseconds.
*/
#define BT_MESH_PUB_TRANSMIT_INT(transmit) ((((transmit) >> 3) + 1) * 50)
/** Model publication context.
*
* The context should primarily be created using the
* BT_MESH_MODEL_PUB_DEFINE macro.
*/
struct bt_mesh_model_pub {
/** The model the context belongs to. Initialized by the stack. */
struct bt_mesh_model *mod;
uint16_t addr; /**< Publish Address. */
uint16_t key:12, /**< Publish AppKey Index. */
cred:1, /**< Friendship Credentials Flag. */
send_rel:1, /**< Force reliable sending (segment acks) */
fast_period:1; /**< Use FastPeriodDivisor */
uint8_t ttl; /**< Publish Time to Live. */
uint8_t retransmit; /**< Retransmit Count & Interval Steps. */
uint8_t period; /**< Publish Period. */
uint8_t period_div:4, /**< Divisor for the Period. */
count:4; /**< Transmissions left. */
uint32_t period_start; /**< Start of the current period. */
/** @brief Publication buffer, containing the publication message.
*
* This will get correctly created when the publication context
* has been defined using the BT_MESH_MODEL_PUB_DEFINE macro.
*
* BT_MESH_MODEL_PUB_DEFINE(name, update, size);
*/
struct net_buf_simple *msg;
/** @brief Callback for updating the publication buffer.
*
* When set to NULL, the model is assumed not to support
* periodic publishing. When set to non-NULL the callback
* will be called periodically and is expected to update
* @ref bt_mesh_model_pub.msg with a valid publication
* message.
*
* If the callback returns non-zero, the publication is skipped
* and will resume on the next periodic publishing interval.
*
* @param mod The Model the Publication Context belogs to.
*
* @return Zero on success or (negative) error code otherwise.
*/
int (*update)(struct bt_mesh_model *mod);
/** Publish Period Timer. Only for stack-internal use. */
struct k_work_delayable timer;
};
/** @def BT_MESH_MODEL_PUB_DEFINE
*
* Define a model publication context.
*
* @param _name Variable name given to the context.
* @param _update Optional message update callback (may be NULL).
* @param _msg_len Length of the publication message.
*/
#define BT_MESH_MODEL_PUB_DEFINE(_name, _update, _msg_len) \
NET_BUF_SIMPLE_DEFINE_STATIC(bt_mesh_pub_msg_##_name, _msg_len); \
static struct bt_mesh_model_pub _name = { \
.msg = &bt_mesh_pub_msg_##_name, \
.update = _update, \
}
/** Model callback functions. */
struct bt_mesh_model_cb {
/** @brief Set value handler of user data tied to the model.
*
* @sa settings_handler::h_set
*
* @param model Model to set the persistent data of.
* @param name Name/key of the settings item.
* @param len_rd The size of the data found in the backend.
* @param read_cb Function provided to read the data from the backend.
* @param cb_arg Arguments for the read function provided by the
* backend.
*
* @return 0 on success, error otherwise.
*/
int (*const settings_set)(struct bt_mesh_model *model,
const char *name, size_t len_rd,
settings_read_cb read_cb, void *cb_arg);
/** @brief Callback called when the mesh is started.
*
* This handler gets called after the node has been provisioned, or
* after all mesh data has been loaded from persistent storage.
*
* When this callback fires, the mesh model may start its behavior,
* and all Access APIs are ready for use.
*
* @param model Model this callback belongs to.
*
* @return 0 on success, error otherwise.
*/
int (*const start)(struct bt_mesh_model *model);
/** @brief Model init callback.
*
* Called on every model instance during mesh initialization.
*
* If any of the model init callbacks return an error, the Mesh
* subsystem initialization will be aborted, and the error will be
* returned to the caller of @ref bt_mesh_init.
*
* @param model Model to be initialized.
*
* @return 0 on success, error otherwise.
*/
int (*const init)(struct bt_mesh_model *model);
/** @brief Model reset callback.
*
* Called when the mesh node is reset. All model data is deleted on
* reset, and the model should clear its state.
*
* @note If the model stores any persistent data, this needs to be
* erased manually.
*
* @param model Model this callback belongs to.
*/
void (*const reset)(struct bt_mesh_model *model);
};
/** Vendor model ID */
struct bt_mesh_mod_id_vnd {
/** Vendor's company ID */
uint16_t company;
/** Model ID */
uint16_t id;
};
/** Abstraction that describes a Mesh Model instance */
struct bt_mesh_model {
union {
/** SIG model ID */
const uint16_t id;
/** Vendor model ID */
const struct bt_mesh_mod_id_vnd vnd;
};
/* Internal information, mainly for persistent storage */
uint8_t elem_idx; /* Belongs to Nth element */
uint8_t mod_idx; /* Is the Nth model in the element */
uint16_t flags; /* Model flags for internal bookkeeping */
/** Model Publication */
struct bt_mesh_model_pub * const pub;
/** AppKey List */
uint16_t keys[CONFIG_BT_MESH_MODEL_KEY_COUNT];
/** Subscription List (group or virtual addresses) */
uint16_t groups[CONFIG_BT_MESH_MODEL_GROUP_COUNT];
/** Opcode handler list */
const struct bt_mesh_model_op * const op;
/** Model callback structure. */
const struct bt_mesh_model_cb * const cb;
#ifdef CONFIG_BT_MESH_MODEL_EXTENSIONS
/* Pointer to the next model in a model extension tree. */
struct bt_mesh_model *next;
/* Pointer to the first model this model extends. */
struct bt_mesh_model *extends;
#endif
/** Model-specific user data */
void *user_data;
};
/** Callback structure for monitoring model message sending */
struct bt_mesh_send_cb {
/** @brief Handler called at the start of the transmission.
*
* @param duration The duration of the full transmission.
* @param err Error occurring during sending.
* @param cb_data Callback data, as passed to the send API.
*/
void (*start)(uint16_t duration, int err, void *cb_data);
/** @brief Handler called at the end of the transmission.
*
* @param err Error occurring during sending.
* @param cb_data Callback data, as passed to the send API.
*/
void (*end)(int err, void *cb_data);
};
/** Special TTL value to request using configured default TTL */
#define BT_MESH_TTL_DEFAULT 0xff
/** Maximum allowed TTL value */
#define BT_MESH_TTL_MAX 0x7f
/** @brief Send an Access Layer message.
*
* @param model Mesh (client) Model that the message belongs to.
* @param ctx Message context, includes keys, TTL, etc.
* @param msg Access Layer payload (the actual message to be sent).
* @param cb Optional "message sent" callback.
* @param cb_data User data to be passed to the callback.
*
* @return 0 on success, or (negative) error code on failure.
*/
int bt_mesh_model_send(struct bt_mesh_model *model,
struct bt_mesh_msg_ctx *ctx,
struct net_buf_simple *msg,
const struct bt_mesh_send_cb *cb,
void *cb_data);
/** @brief Send a model publication message.
*
* Before calling this function, the user needs to ensure that the model
* publication message (@ref bt_mesh_model_pub.msg) contains a valid
* message to be sent. Note that this API is only to be used for
* non-period publishing. For periodic publishing the app only needs
* to make sure that @ref bt_mesh_model_pub.msg contains a valid message
* whenever the @ref bt_mesh_model_pub.update callback is called.
*
* @param model Mesh (client) Model that's publishing the message.
*
* @return 0 on success, or (negative) error code on failure.
*/
int bt_mesh_model_publish(struct bt_mesh_model *model);
/** @brief Get the element that a model belongs to.
*
* @param mod Mesh model.
*
* @return Pointer to the element that the given model belongs to.
*/
struct bt_mesh_elem *bt_mesh_model_elem(struct bt_mesh_model *mod);
/** @brief Find a SIG model.
*
* @param elem Element to search for the model in.
* @param id Model ID of the model.
*
* @return A pointer to the Mesh model matching the given parameters, or NULL
* if no SIG model with the given ID exists in the given element.
*/
struct bt_mesh_model *bt_mesh_model_find(const struct bt_mesh_elem *elem,
uint16_t id);
/** @brief Find a vendor model.
*
* @param elem Element to search for the model in.
* @param company Company ID of the model.
* @param id Model ID of the model.
*
* @return A pointer to the Mesh model matching the given parameters, or NULL
* if no vendor model with the given ID exists in the given element.
*/
struct bt_mesh_model *bt_mesh_model_find_vnd(const struct bt_mesh_elem *elem,
uint16_t company, uint16_t id);
/** @brief Get whether the model is in the primary element of the device.
*
* @param mod Mesh model.
*
* @return true if the model is on the primary element, false otherwise.
*/
static inline bool bt_mesh_model_in_primary(const struct bt_mesh_model *mod)
{
return (mod->elem_idx == 0);
}
/** @brief Immediately store the model's user data in persistent storage.
*
* @param mod Mesh model.
* @param vnd This is a vendor model.
* @param name Name/key of the settings item.
* @param data Model data to store, or NULL to delete any model data.
* @param data_len Length of the model data.
*
* @return 0 on success, or (negative) error code on failure.
*/
int bt_mesh_model_data_store(struct bt_mesh_model *mod, bool vnd,
const char *name, const void *data,
size_t data_len);
/** @brief Let a model extend another.
*
* Mesh models may be extended to reuse their functionality, forming a more
* complex model. A Mesh model may extend any number of models, in any element.
* The extensions may also be nested, ie a model that extends another may
* itself be extended. Extensions may not be cyclical, and a model can only be
* extended by one other model.
*
* A set of models that extend each other form a model extension tree.
*
* All models in an extension tree share one subscription list per element. The
* access layer will utilize the combined subscription list of all models in an
* extension tree and element, giving the models extended subscription list
* capacity.
*
* @param mod Mesh model.
* @param base_mod The model being extended.
*
* @retval 0 Successfully extended the base_mod model.
* @retval -EALREADY The base_mod model is already extended.
*/
int bt_mesh_model_extend(struct bt_mesh_model *mod,
struct bt_mesh_model *base_mod);
/** Node Composition */
struct bt_mesh_comp {
uint16_t cid; /**< Company ID */
uint16_t pid; /**< Product ID */
uint16_t vid; /**< Version ID */
size_t elem_count; /**< The number of elements in this device. */
struct bt_mesh_elem *elem; /**< List of elements. */
};
#ifdef __cplusplus
}
#endif
/**
* @}
*/
#endif /* ZEPHYR_INCLUDE_BLUETOOTH_MESH_ACCESS_H_ */