include/zephyr/bluetooth/l2cap.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /** @file
  *  @brief Bluetooth L2CAP handling
  */

 /*
  * Copyright (c) 2015-2016 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */
 #ifndef ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_
 #define ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_

 /**
  * @brief L2CAP
  * @defgroup bt_l2cap L2CAP
  * @ingroup bluetooth
  * @{
  */

 #include <zephyr/sys/atomic.h>
 #include <zephyr/bluetooth/buf.h>
 #include <zephyr/bluetooth/conn.h>
 #include <zephyr/bluetooth/hci.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /** L2CAP PDU header size, used for buffer size calculations */
 #define BT_L2CAP_HDR_SIZE               4

 /** Maximum Transmission Unit (MTU) for an outgoing L2CAP PDU. */
 #define BT_L2CAP_TX_MTU (CONFIG_BT_L2CAP_TX_MTU)

 /** Maximum Transmission Unit (MTU) for an incoming L2CAP PDU. */
 #define BT_L2CAP_RX_MTU (CONFIG_BT_BUF_ACL_RX_SIZE - BT_L2CAP_HDR_SIZE)

 /** @brief Helper to calculate needed buffer size for L2CAP PDUs.
  *         Useful for creating buffer pools.
  *
  *  @param mtu Needed L2CAP PDU MTU.
  *
  *  @return Needed buffer size to match the requested L2CAP PDU MTU.
  */
 #define BT_L2CAP_BUF_SIZE(mtu) BT_BUF_ACL_SIZE(BT_L2CAP_HDR_SIZE + (mtu))

 /** L2CAP SDU header size, used for buffer size calculations */
 #define BT_L2CAP_SDU_HDR_SIZE           2

 /** @brief Maximum Transmission Unit for an unsegmented outgoing L2CAP SDU.
  *
  *  The Maximum Transmission Unit for an outgoing L2CAP SDU when sent without
  *  segmentation, i.e. a single L2CAP SDU will fit inside a single L2CAP PDU.
  *
  *  The MTU for outgoing L2CAP SDUs with segmentation is defined by the
  *  size of the application buffer pool.
  */
 #define BT_L2CAP_SDU_TX_MTU (BT_L2CAP_TX_MTU - BT_L2CAP_SDU_HDR_SIZE)

 /** @brief Maximum Transmission Unit for an unsegmented incoming L2CAP SDU.
  *
  *  The Maximum Transmission Unit for an incoming L2CAP SDU when sent without
  *  segmentation, i.e. a single L2CAP SDU will fit inside a single L2CAP PDU.
  *
  *  The MTU for incoming L2CAP SDUs with segmentation is defined by the
  *  size of the application buffer pool. The application will have to define
  *  an alloc_buf callback for the channel in order to support receiving
  *  segmented L2CAP SDUs.
  */
 #define BT_L2CAP_SDU_RX_MTU (BT_L2CAP_RX_MTU - BT_L2CAP_SDU_HDR_SIZE)

 /**
  *
  *  @brief Helper to calculate needed buffer size for L2CAP SDUs.
  *         Useful for creating buffer pools.
  *
  *  @param mtu Required BT_L2CAP_*_SDU.
  *
  *  @return Needed buffer size to match the requested L2CAP SDU MTU.
  */
 #define BT_L2CAP_SDU_BUF_SIZE(mtu) BT_L2CAP_BUF_SIZE(BT_L2CAP_SDU_HDR_SIZE + (mtu))

 struct bt_l2cap_chan;

 /** @typedef bt_l2cap_chan_destroy_t
  *  @brief Channel destroy callback
  *
  *  @param chan Channel object.
  */
 typedef void (*bt_l2cap_chan_destroy_t)(struct bt_l2cap_chan *chan);

 /** @brief Life-span states of L2CAP CoC channel.
  *
  *  Used only by internal APIs dealing with setting channel to proper state
  *  depending on operational context.
  */
 typedef enum bt_l2cap_chan_state {
 	/** Channel disconnected */
 	BT_L2CAP_DISCONNECTED,
 	/** Channel in connecting state */
 	BT_L2CAP_CONNECTING,
 	/** Channel in config state, BR/EDR specific */
 	BT_L2CAP_CONFIG,
 	/** Channel ready for upper layer traffic on it */
 	BT_L2CAP_CONNECTED,
 	/** Channel in disconnecting state */
 	BT_L2CAP_DISCONNECTING,

 } __packed bt_l2cap_chan_state_t;

 /** @brief Status of L2CAP channel. */
 typedef enum bt_l2cap_chan_status {
 	/** Channel output status */
 	BT_L2CAP_STATUS_OUT,

 	/** @brief Channel shutdown status
 	 *
 	 * Once this status is notified it means the channel will no longer be
 	 * able to transmit or receive data.
 	 */
 	BT_L2CAP_STATUS_SHUTDOWN,

 	/** @brief Channel encryption pending status */
 	BT_L2CAP_STATUS_ENCRYPT_PENDING,

 	/* Total number of status - must be at the end of the enum */
 	BT_L2CAP_NUM_STATUS,
 } __packed bt_l2cap_chan_status_t;

 /** @brief L2CAP Channel structure. */
 struct bt_l2cap_chan {
 	/** Channel connection reference */
 	struct bt_conn			*conn;
 	/** Channel operations reference */
 	const struct bt_l2cap_chan_ops	*ops;
 	sys_snode_t			node;
 	bt_l2cap_chan_destroy_t		destroy;

 	ATOMIC_DEFINE(status, BT_L2CAP_NUM_STATUS);
 };

 /** @brief LE L2CAP Endpoint structure. */
 struct bt_l2cap_le_endpoint {
 	/** Endpoint Channel Identifier (CID) */
 	uint16_t				cid;
 	/** Endpoint Maximum Transmission Unit */
 	uint16_t				mtu;
 	/** Endpoint Maximum PDU payload Size */
 	uint16_t				mps;
 	/** Endpoint initial credits */
 	uint16_t				init_credits;
 	/** Endpoint credits */
 	atomic_t			credits;
 };

 /** @brief LE L2CAP Channel structure. */
 struct bt_l2cap_le_chan {
 	/** Common L2CAP channel reference object */
 	struct bt_l2cap_chan		chan;
 	/** @brief Channel Receiving Endpoint.
 	 *
 	 *  If the application has set an alloc_buf channel callback for the
 	 *  channel to support receiving segmented L2CAP SDUs the application
 	 *  should inititalize the MTU of the Receiving Endpoint. Otherwise the
 	 *  MTU of the receiving endpoint will be initialized to
 	 *  @ref BT_L2CAP_SDU_RX_MTU by the stack.
 	 */
 	struct bt_l2cap_le_endpoint	rx;

 	/** Pending RX MTU on ECFC reconfigure, used internally by stack */
 	uint16_t pending_rx_mtu;

 	/** Channel Transmission Endpoint */
 	struct bt_l2cap_le_endpoint	tx;
 	/** Channel Transmission queue */
 	struct k_fifo                   tx_queue;
 	/** Channel Pending Transmission buffer  */
 	struct net_buf                  *tx_buf;
 	/** Channel Transmission work  */
 	struct k_work			tx_work;
 	/** Segment SDU packet from upper layer */
 	struct net_buf			*_sdu;
 	uint16_t			_sdu_len;

 	struct k_work			rx_work;
 	struct k_fifo			rx_queue;

 #if defined(CONFIG_BT_L2CAP_DYNAMIC_CHANNEL)
 	bt_l2cap_chan_state_t		state;
 	/** Remote PSM to be connected */
 	uint16_t			psm;
 	/** Helps match request context during CoC */
 	uint8_t				ident;
 	bt_security_t			required_sec_level;

 	/* Response Timeout eXpired (RTX) timer */
 	struct k_work_delayable		rtx_work;
 	struct k_work_sync		rtx_sync;
 #endif
 };

 /**
  *  @brief Helper macro getting container object of type bt_l2cap_le_chan
  *  address having the same container chan member address as object in question.
  *
  *  @param _ch Address of object of bt_l2cap_chan type
  *
  *  @return Address of in memory bt_l2cap_le_chan object type containing
  *          the address of in question object.
  */
 #define BT_L2CAP_LE_CHAN(_ch) CONTAINER_OF(_ch, struct bt_l2cap_le_chan, chan)

 /** @brief BREDR L2CAP Endpoint structure. */
 struct bt_l2cap_br_endpoint {
 	/** Endpoint Channel Identifier (CID) */
 	uint16_t				cid;
 	/** Endpoint Maximum Transmission Unit */
 	uint16_t				mtu;
 };

 /** @brief BREDR L2CAP Channel structure. */
 struct bt_l2cap_br_chan {
 	/** Common L2CAP channel reference object */
 	struct bt_l2cap_chan		chan;
 	/** Channel Receiving Endpoint */
 	struct bt_l2cap_br_endpoint	rx;
 	/** Channel Transmission Endpoint */
 	struct bt_l2cap_br_endpoint	tx;
 	/* For internal use only */
 	atomic_t			flags[1];

 	bt_l2cap_chan_state_t		state;
 	/** Remote PSM to be connected */
 	uint16_t			psm;
 	/** Helps match request context during CoC */
 	uint8_t				ident;
 	bt_security_t			required_sec_level;

 	/* Response Timeout eXpired (RTX) timer */
 	struct k_work_delayable		rtx_work;
 	struct k_work_sync		rtx_sync;
 };

 /** @brief L2CAP Channel operations structure. */
 struct bt_l2cap_chan_ops {
 	/** @brief Channel connected callback
 	 *
 	 *  If this callback is provided it will be called whenever the
 	 *  connection completes.
 	 *
 	 *  @param chan The channel that has been connected
 	 */
 	void (*connected)(struct bt_l2cap_chan *chan);

 	/** @brief Channel disconnected callback
 	 *
 	 *  If this callback is provided it will be called whenever the
 	 *  channel is disconnected, including when a connection gets
 	 *  rejected.
 	 *
 	 *  @param chan The channel that has been Disconnected
 	 */
 	void (*disconnected)(struct bt_l2cap_chan *chan);

 	/** @brief Channel encrypt_change callback
 	 *
 	 *  If this callback is provided it will be called whenever the
 	 *  security level changed (indirectly link encryption done) or
 	 *  authentication procedure fails. In both cases security initiator
 	 *  and responder got the final status (HCI status) passed by
 	 *  related to encryption and authentication events from local host's
 	 *  controller.
 	 *
 	 *  @param chan The channel which has made encryption status changed.
 	 *  @param status HCI status of performed security procedure caused
 	 *  by channel security requirements. The value is populated
 	 *  by HCI layer and set to 0 when success and to non-zero (reference to
 	 *  HCI Error Codes) when security/authentication failed.
 	 */
 	void (*encrypt_change)(struct bt_l2cap_chan *chan, uint8_t hci_status);

 	/** @brief Channel alloc_buf callback
 	 *
 	 *  If this callback is provided the channel will use it to allocate
 	 *  buffers to store incoming data. Channels that requires segmentation
 	 *  must set this callback.
 	 *  If the application has not set a callback the L2CAP SDU MTU will be
 	 *  truncated to @ref BT_L2CAP_SDU_RX_MTU.
 	 *
 	 *  @param chan The channel requesting a buffer.
 	 *
 	 *  @return Allocated buffer.
 	 */
 	struct net_buf *(*alloc_buf)(struct bt_l2cap_chan *chan);

 	/** @brief Channel recv callback
 	 *
 	 *  @param chan The channel receiving data.
 	 *  @param buf Buffer containing incoming data.
 	 *
 	 *  @return 0 in case of success or negative value in case of error.
 	 *  @return -EINPROGRESS in case where user has to confirm once the data
 	 *                       has been processed by calling
 	 *                       @ref bt_l2cap_chan_recv_complete passing back
 	 *                       the buffer received with its original user_data
 	 *                       which contains the number of segments/credits
 	 *                       used by the packet.
 	 */
 	int (*recv)(struct bt_l2cap_chan *chan, struct net_buf *buf);

 	/** @brief Channel sent callback
 	 *
 	 *  If this callback is provided it will be called whenever a SDU has
 	 *  been completely sent.
 	 *
 	 *  @param chan The channel which has sent data.
 	 */
 	void (*sent)(struct bt_l2cap_chan *chan);

 	/** @brief Channel status callback
 	 *
 	 *  If this callback is provided it will be called whenever the
 	 *  channel status changes.
 	 *
 	 *  @param chan The channel which status changed
 	 *  @param status The channel status
 	 */
 	void (*status)(struct bt_l2cap_chan *chan, atomic_t *status);

 	/* @brief Channel released callback
 	 *
 	 * If this callback is set it is called when the stack has release all
 	 * references to the channel object.
 	 */
 	void (*released)(struct bt_l2cap_chan *chan);

 	/** @brief Channel reconfigured callback
 	 *
 	 *  If this callback is provided it will be called whenever peer or
 	 *  local device requested reconfiguration. Application may check
 	 *  updated MTU and MPS values by inspecting chan->le endpoints.
 	 *
 	 *  @param chan The channel which was reconfigured
 	 */
 	void (*reconfigured)(struct bt_l2cap_chan *chan);
 };

 /**
  *  @brief Headroom needed for outgoing L2CAP PDUs.
  */
 #define BT_L2CAP_CHAN_SEND_RESERVE (BT_L2CAP_BUF_SIZE(0))

 /**
  * @brief Headroom needed for outgoing L2CAP SDUs.
  */
 #define BT_L2CAP_SDU_CHAN_SEND_RESERVE (BT_L2CAP_SDU_BUF_SIZE(0))

 /** @brief L2CAP Server structure. */
 struct bt_l2cap_server {
 	/** @brief Server PSM.
 	 *
 	 *  Possible values:
 	 *  0               A dynamic value will be auto-allocated when
 	 *                  bt_l2cap_server_register() is called.
 	 *
 	 *  0x0001-0x007f   Standard, Bluetooth SIG-assigned fixed values.
 	 *
 	 *  0x0080-0x00ff   Dynamically allocated. May be pre-set by the
 	 *                  application before server registration (not
 	 *                  recommended however), or auto-allocated by the
 	 *                  stack if the app gave 0 as the value.
 	 */
 	uint16_t			psm;

 	/** Required minimum security level */
 	bt_security_t		sec_level;

 	/** @brief Server accept callback
 	 *
 	 *  This callback is called whenever a new incoming connection requires
 	 *  authorization.
 	 *
 	 *  @param conn The connection that is requesting authorization
 	 *  @param chan Pointer to received the allocated channel
 	 *
 	 *  @return 0 in case of success or negative value in case of error.
 	 *  @return -ENOMEM if no available space for new channel.
 	 *  @return -EACCES if application did not authorize the connection.
 	 *  @return -EPERM if encryption key size is too short.
 	 */
 	int (*accept)(struct bt_conn *conn, struct bt_l2cap_chan **chan);

 	sys_snode_t node;
 };

 /** @brief Register L2CAP server.
  *
  *  Register L2CAP server for a PSM, each new connection is authorized using
  *  the accept() callback which in case of success shall allocate the channel
  *  structure to be used by the new connection.
  *
  *  For fixed, SIG-assigned PSMs (in the range 0x0001-0x007f) the PSM should
  *  be assigned to server->psm before calling this API. For dynamic PSMs
  *  (in the range 0x0080-0x00ff) server->psm may be pre-set to a given value
  *  (this is however not recommended) or be left as 0, in which case upon
  *  return a newly allocated value will have been assigned to it. For
  *  dynamically allocated values the expectation is that it's exposed through
  *  a GATT service, and that's how L2CAP clients discover how to connect to
  *  the server.
  *
  *  @param server Server structure.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_server_register(struct bt_l2cap_server *server);

 /** @brief Register L2CAP server on BR/EDR oriented connection.
  *
  *  Register L2CAP server for a PSM, each new connection is authorized using
  *  the accept() callback which in case of success shall allocate the channel
  *  structure to be used by the new connection.
  *
  *  @param server Server structure.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_br_server_register(struct bt_l2cap_server *server);

 /** @brief Connect Enhanced Credit Based L2CAP channels
  *
  *  Connect up to 5 L2CAP channels by PSM, once the connection is completed
  *  each channel connected() callback will be called. If the connection is
  *  rejected disconnected() callback is called instead.
  *
  *  @param conn Connection object.
  *  @param chans Array of channel objects.
  *  @param psm Channel PSM to connect to.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_ecred_chan_connect(struct bt_conn *conn,
 				struct bt_l2cap_chan **chans, uint16_t psm);

 /** @brief Reconfigure Enhanced Credit Based L2CAP channels
  *
  *  Reconfigure up to 5 L2CAP channels. Channels must be from the same bt_conn.
  *  Once reconfiguration is completed each channel reconfigured() callback will
  *  be called. MTU cannot be decreased on any of provided channels.
  *
  *  @param chans Array of channel objects. Null-terminated. Elements after the
  *               first 5 are silently ignored.
  *  @param mtu Channel MTU to reconfigure to.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_ecred_chan_reconfigure(struct bt_l2cap_chan **chans, uint16_t mtu);

 /** @brief Connect L2CAP channel
  *
  *  Connect L2CAP channel by PSM, once the connection is completed channel
  *  connected() callback will be called. If the connection is rejected
  *  disconnected() callback is called instead.
  *  Channel object passed (over an address of it) as second parameter shouldn't
  *  be instantiated in application as standalone. Instead of, application should
  *  create transport dedicated L2CAP objects, i.e. type of bt_l2cap_le_chan for
  *  LE and/or type of bt_l2cap_br_chan for BR/EDR. Then pass to this API
  *  the location (address) of bt_l2cap_chan type object which is a member
  *  of both transport dedicated objects.
  *
  *  @param conn Connection object.
  *  @param chan Channel object.
  *  @param psm Channel PSM to connect to.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_chan_connect(struct bt_conn *conn, struct bt_l2cap_chan *chan,
 			  uint16_t psm);

 /** @brief Disconnect L2CAP channel
  *
  *  Disconnect L2CAP channel, if the connection is pending it will be
  *  canceled and as a result the channel disconnected() callback is called.
  *  Regarding to input parameter, to get details see reference description
  *  to bt_l2cap_chan_connect() API above.
  *
  *  @param chan Channel object.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_chan_disconnect(struct bt_l2cap_chan *chan);

 /** @brief Send data to L2CAP channel
  *
  *  Send data from buffer to the channel. If credits are not available, buf will
  *  be queued and sent as and when credits are received from peer.
  *  Regarding to first input parameter, to get details see reference description
  *  to bt_l2cap_chan_connect() API above.
  *
  *  When sending L2CAP data over an BR/EDR connection the application is sending
  *  L2CAP PDUs. The application is required to have reserved
  *  @ref BT_L2CAP_CHAN_SEND_RESERVE bytes in the buffer before sending.
  *  The application should use the BT_L2CAP_BUF_SIZE() helper to correctly
  *  size the buffers for the for the outgoing buffer pool.
  *
  *  When sending L2CAP data over an LE connection the application is sending
  *  L2CAP SDUs. The application can optionally reserve
  *  @ref BT_L2CAP_SDU_CHAN_SEND_RESERVE bytes in the buffer before sending.
  *  By reserving bytes in the buffer the stack can use this buffer as a segment
  *  directly, otherwise it will have to allocate a new segment for the first
  *  segment.
  *  If the application is reserving the bytes it should use the
  *  BT_L2CAP_BUF_SIZE() helper to correctly size the buffers for the for the
  *  outgoing buffer pool.
  *  When segmenting an L2CAP SDU into L2CAP PDUs the stack will first attempt
  *  to allocate buffers from the original buffer pool of the L2CAP SDU before
  *  using the stacks own buffer pool.
  *
  *  @note Buffer ownership is transferred to the stack in case of success, in
  *  case of an error the caller retains the ownership of the buffer.
  *
  *  @return Bytes sent in case of success or negative value in case of error.
  */
 int bt_l2cap_chan_send(struct bt_l2cap_chan *chan, struct net_buf *buf);

 /** @brief Complete receiving L2CAP channel data
  *
  * Complete the reception of incoming data. This shall only be called if the
  * channel recv callback has returned -EINPROGRESS to process some incoming
  * data. The buffer shall contain the original user_data as that is used for
  * storing the credits/segments used by the packet.
  *
  * @param chan Channel object.
  * @param buf Buffer containing the data.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_l2cap_chan_recv_complete(struct bt_l2cap_chan *chan,
 				struct net_buf *buf);

 #ifdef __cplusplus
 }
 #endif

 /**
  * @}
  */

 #endif /* ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_ */
	/** @file
	* @brief Bluetooth L2CAP handling
	*/

	/*
	* Copyright (c) 2015-2016 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/
	#ifndef ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_
	#define ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_

	/**
	* @brief L2CAP
	* @defgroup bt_l2cap L2CAP
	* @ingroup bluetooth
	* @{
	*/

	#include <zephyr/sys/atomic.h>
	#include <zephyr/bluetooth/buf.h>
	#include <zephyr/bluetooth/conn.h>
	#include <zephyr/bluetooth/hci.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/** L2CAP PDU header size, used for buffer size calculations */
	#define BT_L2CAP_HDR_SIZE 4

	/** Maximum Transmission Unit (MTU) for an outgoing L2CAP PDU. */
	#define BT_L2CAP_TX_MTU (CONFIG_BT_L2CAP_TX_MTU)

	/** Maximum Transmission Unit (MTU) for an incoming L2CAP PDU. */
	#define BT_L2CAP_RX_MTU (CONFIG_BT_BUF_ACL_RX_SIZE - BT_L2CAP_HDR_SIZE)

	/** @brief Helper to calculate needed buffer size for L2CAP PDUs.
	* Useful for creating buffer pools.
	*
	* @param mtu Needed L2CAP PDU MTU.
	*
	* @return Needed buffer size to match the requested L2CAP PDU MTU.
	*/
	#define BT_L2CAP_BUF_SIZE(mtu) BT_BUF_ACL_SIZE(BT_L2CAP_HDR_SIZE + (mtu))

	/** L2CAP SDU header size, used for buffer size calculations */
	#define BT_L2CAP_SDU_HDR_SIZE 2

	/** @brief Maximum Transmission Unit for an unsegmented outgoing L2CAP SDU.
	*
	* The Maximum Transmission Unit for an outgoing L2CAP SDU when sent without
	* segmentation, i.e. a single L2CAP SDU will fit inside a single L2CAP PDU.
	*
	* The MTU for outgoing L2CAP SDUs with segmentation is defined by the
	* size of the application buffer pool.
	*/
	#define BT_L2CAP_SDU_TX_MTU (BT_L2CAP_TX_MTU - BT_L2CAP_SDU_HDR_SIZE)

	/** @brief Maximum Transmission Unit for an unsegmented incoming L2CAP SDU.
	*
	* The Maximum Transmission Unit for an incoming L2CAP SDU when sent without
	* segmentation, i.e. a single L2CAP SDU will fit inside a single L2CAP PDU.
	*
	* The MTU for incoming L2CAP SDUs with segmentation is defined by the
	* size of the application buffer pool. The application will have to define
	* an alloc_buf callback for the channel in order to support receiving
	* segmented L2CAP SDUs.
	*/
	#define BT_L2CAP_SDU_RX_MTU (BT_L2CAP_RX_MTU - BT_L2CAP_SDU_HDR_SIZE)

	/**
	*
	* @brief Helper to calculate needed buffer size for L2CAP SDUs.
	* Useful for creating buffer pools.
	*
	* @param mtu Required BT_L2CAP_*_SDU.
	*
	* @return Needed buffer size to match the requested L2CAP SDU MTU.
	*/
	#define BT_L2CAP_SDU_BUF_SIZE(mtu) BT_L2CAP_BUF_SIZE(BT_L2CAP_SDU_HDR_SIZE + (mtu))

	struct bt_l2cap_chan;

	/** @typedef bt_l2cap_chan_destroy_t
	* @brief Channel destroy callback
	*
	* @param chan Channel object.
	*/
	typedef void (bt_l2cap_chan_destroy_t)(struct bt_l2cap_chan chan);

	/** @brief Life-span states of L2CAP CoC channel.
	*
	* Used only by internal APIs dealing with setting channel to proper state
	* depending on operational context.
	*/
	typedef enum bt_l2cap_chan_state {
	/** Channel disconnected */
	BT_L2CAP_DISCONNECTED,
	/** Channel in connecting state */
	BT_L2CAP_CONNECTING,
	/** Channel in config state, BR/EDR specific */
	BT_L2CAP_CONFIG,
	/** Channel ready for upper layer traffic on it */
	BT_L2CAP_CONNECTED,
	/** Channel in disconnecting state */
	BT_L2CAP_DISCONNECTING,

	} __packed bt_l2cap_chan_state_t;

	/** @brief Status of L2CAP channel. */
	typedef enum bt_l2cap_chan_status {
	/** Channel output status */
	BT_L2CAP_STATUS_OUT,

	/** @brief Channel shutdown status
	*
	* Once this status is notified it means the channel will no longer be
	* able to transmit or receive data.
	*/
	BT_L2CAP_STATUS_SHUTDOWN,

	/** @brief Channel encryption pending status */
	BT_L2CAP_STATUS_ENCRYPT_PENDING,

	/* Total number of status - must be at the end of the enum */
	BT_L2CAP_NUM_STATUS,
	} __packed bt_l2cap_chan_status_t;

	/** @brief L2CAP Channel structure. */
	struct bt_l2cap_chan {
	/** Channel connection reference */
	struct bt_conn *conn;
	/** Channel operations reference */
	const struct bt_l2cap_chan_ops *ops;
	sys_snode_t node;
	bt_l2cap_chan_destroy_t destroy;

	ATOMIC_DEFINE(status, BT_L2CAP_NUM_STATUS);
	};

	/** @brief LE L2CAP Endpoint structure. */
	struct bt_l2cap_le_endpoint {
	/** Endpoint Channel Identifier (CID) */
	uint16_t cid;
	/** Endpoint Maximum Transmission Unit */
	uint16_t mtu;
	/** Endpoint Maximum PDU payload Size */
	uint16_t mps;
	/** Endpoint initial credits */
	uint16_t init_credits;
	/** Endpoint credits */
	atomic_t credits;
	};

	/** @brief LE L2CAP Channel structure. */
	struct bt_l2cap_le_chan {
	/** Common L2CAP channel reference object */
	struct bt_l2cap_chan chan;
	/** @brief Channel Receiving Endpoint.
	*
	* If the application has set an alloc_buf channel callback for the
	* channel to support receiving segmented L2CAP SDUs the application
	* should inititalize the MTU of the Receiving Endpoint. Otherwise the
	* MTU of the receiving endpoint will be initialized to
	* @ref BT_L2CAP_SDU_RX_MTU by the stack.
	*/
	struct bt_l2cap_le_endpoint rx;

	/** Pending RX MTU on ECFC reconfigure, used internally by stack */
	uint16_t pending_rx_mtu;

	/** Channel Transmission Endpoint */
	struct bt_l2cap_le_endpoint tx;
	/** Channel Transmission queue */
	struct k_fifo tx_queue;
	/** Channel Pending Transmission buffer */
	struct net_buf *tx_buf;
	/** Channel Transmission work */
	struct k_work tx_work;
	/** Segment SDU packet from upper layer */
	struct net_buf *_sdu;
	uint16_t _sdu_len;

	struct k_work rx_work;
	struct k_fifo rx_queue;

	#if defined(CONFIG_BT_L2CAP_DYNAMIC_CHANNEL)
	bt_l2cap_chan_state_t state;
	/** Remote PSM to be connected */
	uint16_t psm;
	/** Helps match request context during CoC */
	uint8_t ident;
	bt_security_t required_sec_level;

	/* Response Timeout eXpired (RTX) timer */
	struct k_work_delayable rtx_work;
	struct k_work_sync rtx_sync;
	#endif
	};

	/**
	* @brief Helper macro getting container object of type bt_l2cap_le_chan
	* address having the same container chan member address as object in question.
	*
	* @param _ch Address of object of bt_l2cap_chan type
	*
	* @return Address of in memory bt_l2cap_le_chan object type containing
	* the address of in question object.
	*/
	#define BT_L2CAP_LE_CHAN(_ch) CONTAINER_OF(_ch, struct bt_l2cap_le_chan, chan)

	/** @brief BREDR L2CAP Endpoint structure. */
	struct bt_l2cap_br_endpoint {
	/** Endpoint Channel Identifier (CID) */
	uint16_t cid;
	/** Endpoint Maximum Transmission Unit */
	uint16_t mtu;
	};

	/** @brief BREDR L2CAP Channel structure. */
	struct bt_l2cap_br_chan {
	/** Common L2CAP channel reference object */
	struct bt_l2cap_chan chan;
	/** Channel Receiving Endpoint */
	struct bt_l2cap_br_endpoint rx;
	/** Channel Transmission Endpoint */
	struct bt_l2cap_br_endpoint tx;
	/* For internal use only */
	atomic_t flags[1];

	bt_l2cap_chan_state_t state;
	/** Remote PSM to be connected */
	uint16_t psm;
	/** Helps match request context during CoC */
	uint8_t ident;
	bt_security_t required_sec_level;

	/* Response Timeout eXpired (RTX) timer */
	struct k_work_delayable rtx_work;
	struct k_work_sync rtx_sync;
	};

	/** @brief L2CAP Channel operations structure. */
	struct bt_l2cap_chan_ops {
	/** @brief Channel connected callback
	*
	* If this callback is provided it will be called whenever the
	* connection completes.
	*
	* @param chan The channel that has been connected
	*/
	void (connected)(struct bt_l2cap_chan chan);

	/** @brief Channel disconnected callback
	*
	* If this callback is provided it will be called whenever the
	* channel is disconnected, including when a connection gets
	* rejected.
	*
	* @param chan The channel that has been Disconnected
	*/
	void (disconnected)(struct bt_l2cap_chan chan);

	/** @brief Channel encrypt_change callback
	*
	* If this callback is provided it will be called whenever the
	* security level changed (indirectly link encryption done) or
	* authentication procedure fails. In both cases security initiator
	* and responder got the final status (HCI status) passed by
	* related to encryption and authentication events from local host's
	* controller.
	*
	* @param chan The channel which has made encryption status changed.
	* @param status HCI status of performed security procedure caused
	* by channel security requirements. The value is populated
	* by HCI layer and set to 0 when success and to non-zero (reference to
	* HCI Error Codes) when security/authentication failed.
	*/
	void (encrypt_change)(struct bt_l2cap_chan chan, uint8_t hci_status);

	/** @brief Channel alloc_buf callback
	*
	* If this callback is provided the channel will use it to allocate
	* buffers to store incoming data. Channels that requires segmentation
	* must set this callback.
	* If the application has not set a callback the L2CAP SDU MTU will be
	* truncated to @ref BT_L2CAP_SDU_RX_MTU.
	*
	* @param chan The channel requesting a buffer.
	*
	* @return Allocated buffer.
	*/
	struct net_buf (alloc_buf)(struct bt_l2cap_chan *chan);

	/** @brief Channel recv callback
	*
	* @param chan The channel receiving data.
	* @param buf Buffer containing incoming data.
	*
	* @return 0 in case of success or negative value in case of error.
	* @return -EINPROGRESS in case where user has to confirm once the data
	* has been processed by calling
	* @ref bt_l2cap_chan_recv_complete passing back
	* the buffer received with its original user_data
	* which contains the number of segments/credits
	* used by the packet.
	*/
	int (recv)(struct bt_l2cap_chan chan, struct net_buf *buf);

	/** @brief Channel sent callback
	*
	* If this callback is provided it will be called whenever a SDU has
	* been completely sent.
	*
	* @param chan The channel which has sent data.
	*/
	void (sent)(struct bt_l2cap_chan chan);

	/** @brief Channel status callback
	*
	* If this callback is provided it will be called whenever the
	* channel status changes.
	*
	* @param chan The channel which status changed
	* @param status The channel status
	*/
	void (status)(struct bt_l2cap_chan chan, atomic_t *status);

	/* @brief Channel released callback
	*
	* If this callback is set it is called when the stack has release all
	* references to the channel object.
	*/
	void (released)(struct bt_l2cap_chan chan);

	/** @brief Channel reconfigured callback
	*
	* If this callback is provided it will be called whenever peer or
	* local device requested reconfiguration. Application may check
	* updated MTU and MPS values by inspecting chan->le endpoints.
	*
	* @param chan The channel which was reconfigured
	*/
	void (reconfigured)(struct bt_l2cap_chan chan);
	};

	/**
	* @brief Headroom needed for outgoing L2CAP PDUs.
	*/
	#define BT_L2CAP_CHAN_SEND_RESERVE (BT_L2CAP_BUF_SIZE(0))

	/**
	* @brief Headroom needed for outgoing L2CAP SDUs.
	*/
	#define BT_L2CAP_SDU_CHAN_SEND_RESERVE (BT_L2CAP_SDU_BUF_SIZE(0))

	/** @brief L2CAP Server structure. */
	struct bt_l2cap_server {
	/** @brief Server PSM.
	*
	* Possible values:
	* 0 A dynamic value will be auto-allocated when
	* bt_l2cap_server_register() is called.
	*
	* 0x0001-0x007f Standard, Bluetooth SIG-assigned fixed values.
	*
	* 0x0080-0x00ff Dynamically allocated. May be pre-set by the
	* application before server registration (not
	* recommended however), or auto-allocated by the
	* stack if the app gave 0 as the value.
	*/
	uint16_t psm;

	/** Required minimum security level */
	bt_security_t sec_level;

	/** @brief Server accept callback
	*
	* This callback is called whenever a new incoming connection requires
	* authorization.
	*
	* @param conn The connection that is requesting authorization
	* @param chan Pointer to received the allocated channel
	*
	* @return 0 in case of success or negative value in case of error.
	* @return -ENOMEM if no available space for new channel.
	* @return -EACCES if application did not authorize the connection.
	* @return -EPERM if encryption key size is too short.
	*/
	int (accept)(struct bt_conn conn, struct bt_l2cap_chan **chan);

	sys_snode_t node;
	};

	/** @brief Register L2CAP server.
	*
	* Register L2CAP server for a PSM, each new connection is authorized using
	* the accept() callback which in case of success shall allocate the channel
	* structure to be used by the new connection.
	*
	* For fixed, SIG-assigned PSMs (in the range 0x0001-0x007f) the PSM should
	* be assigned to server->psm before calling this API. For dynamic PSMs
	* (in the range 0x0080-0x00ff) server->psm may be pre-set to a given value
	* (this is however not recommended) or be left as 0, in which case upon
	* return a newly allocated value will have been assigned to it. For
	* dynamically allocated values the expectation is that it's exposed through
	* a GATT service, and that's how L2CAP clients discover how to connect to
	* the server.
	*
	* @param server Server structure.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_server_register(struct bt_l2cap_server *server);

	/** @brief Register L2CAP server on BR/EDR oriented connection.
	*
	* Register L2CAP server for a PSM, each new connection is authorized using
	* the accept() callback which in case of success shall allocate the channel
	* structure to be used by the new connection.
	*
	* @param server Server structure.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_br_server_register(struct bt_l2cap_server *server);

	/** @brief Connect Enhanced Credit Based L2CAP channels
	*
	* Connect up to 5 L2CAP channels by PSM, once the connection is completed
	* each channel connected() callback will be called. If the connection is
	* rejected disconnected() callback is called instead.
	*
	* @param conn Connection object.
	* @param chans Array of channel objects.
	* @param psm Channel PSM to connect to.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_ecred_chan_connect(struct bt_conn *conn,
	struct bt_l2cap_chan **chans, uint16_t psm);

	/** @brief Reconfigure Enhanced Credit Based L2CAP channels
	*
	* Reconfigure up to 5 L2CAP channels. Channels must be from the same bt_conn.
	* Once reconfiguration is completed each channel reconfigured() callback will
	* be called. MTU cannot be decreased on any of provided channels.
	*
	* @param chans Array of channel objects. Null-terminated. Elements after the
	* first 5 are silently ignored.
	* @param mtu Channel MTU to reconfigure to.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_ecred_chan_reconfigure(struct bt_l2cap_chan **chans, uint16_t mtu);

	/** @brief Connect L2CAP channel
	*
	* Connect L2CAP channel by PSM, once the connection is completed channel
	* connected() callback will be called. If the connection is rejected
	* disconnected() callback is called instead.
	* Channel object passed (over an address of it) as second parameter shouldn't
	* be instantiated in application as standalone. Instead of, application should
	* create transport dedicated L2CAP objects, i.e. type of bt_l2cap_le_chan for
	* LE and/or type of bt_l2cap_br_chan for BR/EDR. Then pass to this API
	* the location (address) of bt_l2cap_chan type object which is a member
	* of both transport dedicated objects.
	*
	* @param conn Connection object.
	* @param chan Channel object.
	* @param psm Channel PSM to connect to.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_chan_connect(struct bt_conn conn, struct bt_l2cap_chan chan,
	uint16_t psm);

	/** @brief Disconnect L2CAP channel
	*
	* Disconnect L2CAP channel, if the connection is pending it will be
	* canceled and as a result the channel disconnected() callback is called.
	* Regarding to input parameter, to get details see reference description
	* to bt_l2cap_chan_connect() API above.
	*
	* @param chan Channel object.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_chan_disconnect(struct bt_l2cap_chan *chan);

	/** @brief Send data to L2CAP channel
	*
	* Send data from buffer to the channel. If credits are not available, buf will
	* be queued and sent as and when credits are received from peer.
	* Regarding to first input parameter, to get details see reference description
	* to bt_l2cap_chan_connect() API above.
	*
	* When sending L2CAP data over an BR/EDR connection the application is sending
	* L2CAP PDUs. The application is required to have reserved
	* @ref BT_L2CAP_CHAN_SEND_RESERVE bytes in the buffer before sending.
	* The application should use the BT_L2CAP_BUF_SIZE() helper to correctly
	* size the buffers for the for the outgoing buffer pool.
	*
	* When sending L2CAP data over an LE connection the application is sending
	* L2CAP SDUs. The application can optionally reserve
	* @ref BT_L2CAP_SDU_CHAN_SEND_RESERVE bytes in the buffer before sending.
	* By reserving bytes in the buffer the stack can use this buffer as a segment
	* directly, otherwise it will have to allocate a new segment for the first
	* segment.
	* If the application is reserving the bytes it should use the
	* BT_L2CAP_BUF_SIZE() helper to correctly size the buffers for the for the
	* outgoing buffer pool.
	* When segmenting an L2CAP SDU into L2CAP PDUs the stack will first attempt
	* to allocate buffers from the original buffer pool of the L2CAP SDU before
	* using the stacks own buffer pool.
	*
	* @note Buffer ownership is transferred to the stack in case of success, in
	* case of an error the caller retains the ownership of the buffer.
	*
	* @return Bytes sent in case of success or negative value in case of error.
	*/
	int bt_l2cap_chan_send(struct bt_l2cap_chan chan, struct net_buf buf);

	/** @brief Complete receiving L2CAP channel data
	*
	* Complete the reception of incoming data. This shall only be called if the
	* channel recv callback has returned -EINPROGRESS to process some incoming
	* data. The buffer shall contain the original user_data as that is used for
	* storing the credits/segments used by the packet.
	*
	* @param chan Channel object.
	* @param buf Buffer containing the data.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_l2cap_chan_recv_complete(struct bt_l2cap_chan *chan,
	struct net_buf *buf);

	#ifdef __cplusplus
	}
	#endif

	/**
	* @}
	*/

	#endif /* ZEPHYR_INCLUDE_BLUETOOTH_L2CAP_H_ */