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

 /** @file
  *  @brief Bluetooth ISO handling
  */

 /*
  * Copyright (c) 2020 Intel Corporation
  * Copyright (c) 2021 Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */
 #ifndef ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_
 #define ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_

 /**
  * @brief ISO
  * @defgroup bt_iso ISO
  * @ingroup bluetooth
  * @{
  */

 #ifdef __cplusplus
 extern "C" {
 #endif

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

 /** @def BT_ISO_CHAN_SEND_RESERVE
  *  @brief Headroom needed for outgoing ISO SDUs
  */
 #define BT_ISO_CHAN_SEND_RESERVE BT_BUF_ISO_SIZE(0)

 /** @def BT_ISO_SDU_BUF_SIZE
  *
  *  @brief Helper to calculate needed buffer size for ISO SDUs.
  *         Useful for creating buffer pools.
  *
  *  @param mtu Required ISO SDU size
  *
  *  @return Needed buffer size to match the requested ISO SDU MTU.
  */
 #define BT_ISO_SDU_BUF_SIZE(mtu) BT_BUF_ISO_SIZE(mtu)

 /** Value to set the ISO data path over HCi. */
 #define BT_ISO_DATA_PATH_HCI        0x00

 /** Minimum interval value in microseconds */
 #define BT_ISO_INTERVAL_MIN         0x0000FF
 /** Maximum interval value in microseconds */
 #define BT_ISO_INTERVAL_MAX         0x0FFFFF
 /** Minimum latency value in milliseconds */
 #define BT_ISO_LATENCY_MIN          0x0005
 /** Maximum latency value in milliseconds */
 #define BT_ISO_LATENCY_MAX          0x0FA0
 /** Packets will be sent sequentially between the channels in the group */
 #define BT_ISO_PACKING_SEQUENTIAL   0x00
 /** Packets will be sent interleaved between the channels in the group */
 #define BT_ISO_PACKING_INTERLEAVED  0x01
 /** Packets may be framed or unframed */
 #define BT_ISO_FRAMING_UNFRAMED     0x00
 /** Packets are always framed */
 #define BT_ISO_FRAMING_FRAMED       0x01
 /** Maximum number of isochronous channels in a single group */
 #define BT_ISO_MAX_GROUP_ISO_COUNT  0x1F
 /** Maximum SDU size */
 #define BT_ISO_MAX_SDU              0x0FFF
 /** Minimum BIG sync timeout value (N * 10 ms) */
 #define BT_ISO_SYNC_TIMEOUT_MIN     0x000A
 /** Maximum BIG sync timeout value (N * 10 ms) */
 #define BT_ISO_SYNC_TIMEOUT_MAX     0x4000
 /** Controller controlled maximum subevent count value */
 #define BT_ISO_SYNC_MSE_ANY         0x00
 /** Minimum BIG sync maximum subevent count value */
 #define BT_ISO_SYNC_MSE_MIN         0x01
 /** Maximum BIG sync maximum subevent count value */
 #define BT_ISO_SYNC_MSE_MAX         0x1F
 /** Maximum connected ISO retransmission value */
 #define BT_ISO_CONNECTED_RTN_MAX    0xFF
 /** Maximum broadcast ISO retransmission value */
 #define BT_ISO_BROADCAST_RTN_MAX    0x1E
 /** Broadcast code size */
 #define BT_ISO_BROADCAST_CODE_SIZE  16
 /** Lowest BIS index */
 #define BT_ISO_BIS_INDEX_MIN        0x01
 /** Highest BIS index */
 #define BT_ISO_BIS_INDEX_MAX        0x1F

 /** @brief Life-span states of ISO channel. Used only by internal APIs
  *  dealing with setting channel to proper state depending on operational
  *  context.
  */
 enum bt_iso_state {
 	/** Channel disconnected */
 	BT_ISO_STATE_DISCONNECTED,
 	/** Channel in connecting state */
 	BT_ISO_STATE_CONNECTING,
 	/** Channel ready for upper layer traffic on it */
 	BT_ISO_STATE_CONNECTED,
 	/** Channel in disconnecting state */
 	BT_ISO_STATE_DISCONNECTING,
 };


 enum bt_iso_chan_type {
 	BT_ISO_CHAN_TYPE_NONE,
 	BT_ISO_CHAN_TYPE_CONNECTED,
 	BT_ISO_CHAN_TYPE_BROADCASTER,
 	BT_ISO_CHAN_TYPE_SYNC_RECEIVER
 };

 /** @brief ISO Channel structure. */
 struct bt_iso_chan {
 	/** Channel connection reference */
 	struct bt_conn			*iso;
 	/** Channel operations reference */
 	struct bt_iso_chan_ops		*ops;
 	/** Channel QoS reference */
 	struct bt_iso_chan_qos		*qos;
 	enum bt_iso_state		state;
 	bt_security_t			required_sec_level;
 	/** Node used internally by the stack */
 	sys_snode_t node;
 };

 /** @brief ISO Channel IO QoS structure. */
 struct bt_iso_chan_io_qos {
 	/** Channel SDU. Maximum value is BT_ISO_MAX_SDU */
 	uint16_t			sdu;
 	/** Channel PHY - See BT_GAP_LE_PHY for values.
 	 *  Setting BT_GAP_LE_PHY_NONE is invalid.
 	 */
 	uint8_t				phy;
 	/** Channel Retransmission Number. */
 	uint8_t				rtn;
 	/** @brief Channel data path reference
 	 *
 	 *  Setting to NULL default to HCI data path (same as setting path.pid
 	 *  to BT_ISO_DATA_PATH_HCI).
 	 */
 	struct bt_iso_chan_path		*path;
 };

 /** @brief ISO Channel QoS structure. */
 struct bt_iso_chan_qos {
 	/** @brief Channel Receiving QoS.
 	 *
 	 *  Setting NULL disables data path BT_HCI_DATAPATH_DIR_CTLR_TO_HOST.
 	 *
 	 *  Can only be set for a connected isochronous channel, or a broadcast
 	 *  isochronous receiver.
 	 */
 	struct bt_iso_chan_io_qos	*rx;
 	/** @brief Channel Transmission QoS
 	 *
 	 *  Setting NULL disables data path BT_HCI_DATAPATH_DIR_HOST_TO_CTRL.
 	 *
 	 *  Can only be set for a connected isochronous channel, or a broadcast
 	 *  isochronous transmitter.
 	 */
 	struct bt_iso_chan_io_qos	*tx;
 };

 /** @brief ISO Channel Data Path structure. */
 struct bt_iso_chan_path {
 	/** Default path ID */
 	uint8_t				pid;
 	/** Coding Format */
 	uint8_t				format;
 	/** Company ID */
 	uint16_t			cid;
 	/** Vendor-defined Codec ID */
 	uint16_t			vid;
 	/** Controller Delay */
 	uint32_t			delay;
 	/** Codec Configuration length*/
 	uint8_t				cc_len;
 	/** Codec Configuration */
 	uint8_t				cc[0];
 };

 /** ISO packet status flag bits */
 enum {
 	/** The ISO packet is valid. */
 	BT_ISO_FLAGS_VALID = BIT(0),

 	/** @brief The ISO packet may possibly contain errors.
 	 *
 	 * May be caused by a failed CRC check or if missing a part of the SDU.
 	 */
 	BT_ISO_FLAGS_ERROR = BIT(1),

 	/** The ISO packet was lost. */
 	BT_ISO_FLAGS_LOST = BIT(2),

 	/** Timestamp is valid
 	 *
 	 * If not set, then the bt_iso_recv_info.ts value is not valid, and
 	 * should not be used.
 	 */
 	BT_ISO_FLAGS_TS = BIT(3)
 };

 /** @brief ISO Meta Data structure for received ISO packets. */
 struct bt_iso_recv_info {
 	/** ISO timestamp
 	 *
 	 * Only valid if @p flags has the BT_ISO_FLAGS_TS bit set.
 	 */
 	uint32_t ts;

 	/** ISO packet sequence number of the first fragment in the SDU */
 	uint16_t sn;

 	/** ISO packet flags bitfield (BT_ISO_FLAGS_*) */
 	uint8_t flags;
 };


 /** Opaque type representing an Connected Isochronous Group (CIG). */
 struct bt_iso_cig;

 struct bt_iso_cig_param {
 	/** @brief Array of pointers to CIS channels */
 	struct bt_iso_chan **cis_channels;

 	/** @brief Number channels in @p cis_channels
 	 *
 	 *  Maximum number of channels in a single group is
 	 *  BT_ISO_MAX_GROUP_ISO_COUNT
 	 */
 	uint8_t num_cis;

 	/** @brief Channel interval in us.
 	 *
 	 *  Value range BT_ISO_INTERVAL_MIN - BT_ISO_INTERVAL_MAX.
 	 */
 	uint32_t interval;

 	/** @brief Channel Latency in ms.
 	 *
 	 *  Value range BT_ISO_LATENCY_MIN - BT_ISO_LATENCY_MAX.
 	 */
 	uint16_t latency;

 	/** @brief Channel peripherals sleep clock accuracy Only for CIS
 	 *
 	 * Shall be worst case sleep clock accuracy of all the peripherals.
 	 * For possible values see the BT_GAP_SCA_* values.
 	 * If unknown for the peripherals, this should be set to
 	 * BT_GAP_SCA_UNKNOWN.
 	 */
 	uint8_t sca;

 	/** @brief Channel packing mode.
 	 *
 	 *  BT_ISO_PACKING_SEQUENTIAL or BT_ISO_PACKING_INTERLEAVED
 	 */
 	uint8_t packing;

 	/** @brief Channel framing mode.
 	 *
 	 * BT_ISO_FRAMING_UNFRAMED for unframed and
 	 * BT_ISO_FRAMING_FRAMED for framed.
 	 */
 	uint8_t framing;
 };

 struct bt_iso_connect_param {
 	/* The ISO channel to connect */
 	struct bt_iso_chan *iso_chan;

 	/* The ACL connection */
 	struct bt_conn *acl;
 };

 /** Opaque type representing an Broadcast Isochronous Group (BIG). */
 struct bt_iso_big;

 struct bt_iso_big_create_param {
 	/** Array of pointers to BIS channels */
 	struct bt_iso_chan **bis_channels;

 	/** @brief Number channels in @p bis_channels
 	 *
 	 *  Maximum number of channels in a single group is
 	 *  BT_ISO_MAX_GROUP_ISO_COUNT
 	 */
 	uint8_t num_bis;

 	/** @brief Channel interval in us.
 	 *
 	 *  Value range BT_ISO_INTERVAL_MIN - BT_ISO_INTERVAL_MAX.
 	 */
 	uint32_t interval;

 	/** @brief Channel Latency in ms.
 	 *
 	 *  Value range BT_ISO_LATENCY_MIN - BT_ISO_LATENCY_MAX.
 	 */
 	uint16_t latency;

 	/** @brief Channel packing mode.
 	 *
 	 *  BT_ISO_PACKING_SEQUENTIAL or BT_ISO_PACKING_INTERLEAVED
 	 */
 	uint8_t packing;

 	/** @brief Channel framing mode.
 	 *
 	 * BT_ISO_FRAMING_UNFRAMED for unframed and
 	 * BT_ISO_FRAMING_FRAMED for framed.
 	 */
 	uint8_t framing;

 	/** Whether or not to encrypt the streams. */
 	bool encryption;

 	/** @brief Broadcast code
 	 *
 	 *  The code used to derive the session key that is used to encrypt and
 	 *  decrypt BIS payloads.
 	 */
 	uint8_t bcode[BT_ISO_BROADCAST_CODE_SIZE];
 };

 struct bt_iso_big_sync_param {
 	/** Array of pointers to BIS channels */
 	struct bt_iso_chan **bis_channels;

 	/** @brief Number channels in @p bis_channels
 	 *
 	 *  Maximum number of channels in a single group is
 	 *  BT_ISO_MAX_GROUP_ISO_COUNT
 	 */
 	uint8_t num_bis;

 	/** Bitfield of the BISes to sync to
 	 *
 	 *  The BIS indexes start from 0x01, so the lowest allowed bit is
 	 *  BIT(1) that represents index 0x01. To synchronize to e.g. BIS
 	 *  indexes 0x01 and 0x02, the bitfield value should be BIT(1) | BIT(2).
 	 */
 	uint32_t bis_bitfield;

 	/** @brief Maximum subevents
 	 *
 	 *  The MSE (Maximum Subevents) parameter is the maximum number of
 	 *  subevents that a  Controller should use to receive data payloads
 	 *  in each interval for a BIS.
 	 *
 	 *  Value range is BT_ISO_SYNC_MSE_MIN to BT_ISO_SYNC_MSE_MAX, or
 	 *  BT_ISO_SYNC_MSE_ANY to let the controller choose.
 	 */
 	uint32_t mse;

 	/** @brief Synchronization timeout for the BIG (N * 10 MS)
 	 *
 	 * Value range is BT_ISO_SYNC_TIMEOUT_MIN to BT_ISO_SYNC_TIMEOUT_MAX.
 	 */
 	uint16_t sync_timeout;

 	/** Whether or not the streams of the BIG are encrypted */
 	bool  encryption;

 	/** @brief Broadcast code
 	 *
 	 *  The code used to derive the session key that is used to encrypt and
 	 *  decrypt BIS payloads.
 	 */
 	uint8_t bcode[BT_ISO_BROADCAST_CODE_SIZE];
 };

 struct bt_iso_biginfo {
 	/** Address of the advertiser */
 	const bt_addr_le_t *addr;

 	/** Advertiser SID */
 	uint8_t sid;

 	/** Number of BISes in the BIG */
 	uint8_t  num_bis;

 	/** Maximum number of subevents in each isochronous event */
 	uint8_t  sub_evt_count;

 	/** Interval between two BIG anchor point (N * 1.25 ms) */
 	uint16_t iso_interval;

 	/** The number of new payloads in each BIS event */
 	uint8_t  burst_number;

 	/** Offset used for pre-transmissions */
 	uint8_t  offset;

 	/** The number of times a payload is transmitted in a BIS event */
 	uint8_t  rep_count;

 	/** Maximum size, in octets, of the payload */
 	uint16_t max_pdu;

 	/** The interval, in microseconds, of periodic SDUs. */
 	uint32_t sdu_interval;

 	/** Maximum size of an SDU, in octets. */
 	uint16_t max_sdu;

 	/** Channel PHY */
 	uint8_t  phy;

 	/** Channel framing mode */
 	uint8_t  framing;

 	/** Whether or not the BIG is encrypted */
 	bool  encryption;
 };

 /** @brief ISO Channel operations structure. */
 struct bt_iso_chan_ops {
 	/** @brief Channel connected callback
 	 *
 	 *  If this callback is provided it will be called whenever the
 	 *  connection completes.
 	 *
 	 *  For a peripheral, the QoS values (see @ref bt_iso_chan_io_qos)
 	 *  are set when this is called. The peripheral does not have any
 	 *  information about the RTN though.
 	 *
 	 *  @param chan The channel that has been connected
 	 */
 	void (*connected)(struct bt_iso_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
 	 *  @param reason BT_HCI_ERR_* reason for the disconnection.
 	 */
 	void (*disconnected)(struct bt_iso_chan *chan, uint8_t reason);

 	/** @brief Channel alloc_buf callback
 	 *
 	 *  If this callback is provided the channel will use it to allocate
 	 *  buffers to store incoming data.
 	 *
 	 *  @param chan The channel requesting a buffer.
 	 *
 	 *  @return Allocated buffer.
 	 */
 	struct net_buf *(*alloc_buf)(struct bt_iso_chan *chan);

 	/** @brief Channel recv callback
 	 *
 	 *  @param chan The channel receiving data.
 	 *  @param buf Buffer containing incoming data.
 	 *  @param info Pointer to the metadata for the buffer. The lifetime of the
 	 *              pointer is linked to the lifetime of the net_buf.
 	 *              Metadata such as sequence number and timestamp can be
 	 *              provided by the bluetooth controller.
 	 */
 	void (*recv)(struct bt_iso_chan *chan, const struct bt_iso_recv_info *info,
 			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_iso_chan *chan);
 };

 struct bt_iso_accept_info {
 	/** The ACL connection that is requesting authorization */
 	struct bt_conn *acl;

 	/** @brief The ID of the connected isochronous group (CIG) on the central
 	 *
 	 * The ID is unique per ACL
 	 */
 	uint8_t cig_id;

 	/** @brief The ID of the connected isochronous stream (CIS) on the central
 	 *
 	 * This ID is unique within a CIG
 	 */
 	uint8_t cis_id;
 };

 /** @brief ISO Server structure. */
 struct bt_iso_server {
 	/** 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 info The ISO accept information structure
 	 *  @param chan Pointer to receive the allocated channel
 	 *
 	 *  @return 0 in case of success or negative value in case of error.
 	 */
 	int (*accept)(const struct bt_iso_accept_info *info,
 		      struct bt_iso_chan **chan);
 };

 /** @brief Register ISO server.
  *
  *  Register ISO server, 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_iso_server_register(struct bt_iso_server *server);

 /** @brief Creates a CIG as a central
  *
  *  This can called at any time, even before connecting to a remote device.
  *  This must be called before any connected isochronous stream (CIS) channel
  *  can be connected.
  *
  *  Once a CIG is created, the channels supplied in the @p param can be
  *  connected using bt_iso_chan_connect.
  *
  *  @param[in]  param     The parameters used to create and enable the CIG.
  *  @param[out] out_cig  Connected Isochronous Group object on success.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_cig_create(const struct bt_iso_cig_param *param,
 		      struct bt_iso_cig **out_cig);

 /** @brief Reconfigure a CIG as a central
  *
  *  This function can be used to update a CIG. It will update the group specific
  *  parameters, and, if supplied, change the QoS parameters of the individual
  *  CIS. If the cis_channels in @p param contains CIS that was not originally
  *  in the call to bt_iso_cig_create(), these will be added to the group.
  *  It is not possible to remove any CIS from the group after creation.
  *
  *  This can be called at any time before connecting an ISO to a remote device.
  *  Once any CIS in the group has connected, the group cannot be changed.
  *
  *  Once a CIG is created, the channels supplied in the @p param can be
  *  connected using bt_iso_chan_connect.
  *
  *  @param cig       Connected Isochronous Group object.
  *  @param param     The parameters used to reconfigure the CIG.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_cig_reconfigure(struct bt_iso_cig *cig,
 			   const struct bt_iso_cig_param *param);

 /** @brief Terminates a CIG as a central
  *
  *  All the CIS in the CIG shall be disconnected first.
  *
  *  @param cig    Pointer to the CIG structure.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_cig_terminate(struct bt_iso_cig *cig);

 /** @brief Connect ISO channels on ACL connections
  *
  *  Connect ISO channels. The ISO channels must have been initialized in a CIG
  *  first by calling bt_iso_cig_create.
  *
  *  Once the connection is completed the channels' connected() callback will be
  *  called. If the connection is rejected disconnected() callback is called
  *  instead.
  *
  *  This function will also setup the ISO data path based on the @p path
  *  parameter of the bt_iso_chan_io_qos for each channel.
  *
  *  @param param Pointer to a connect parameter array with the ISO and ACL pointers.
  *  @param count Number of connect parameters.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_chan_connect(const struct bt_iso_connect_param *param, size_t count);

 /** @brief Disconnect ISO channel
  *
  *  Disconnect ISO 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_iso_chan_connect() API above.
  *
  *  @param chan Channel object.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_chan_disconnect(struct bt_iso_chan *chan);

 /** @brief Send data to ISO 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_iso_chan_connect() API above.
  *
  *  @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.
  *
  *  @param chan Channel object.
  *  @param buf Buffer containing data to be sent.
  *
  *  @return Bytes sent in case of success or negative value in case of error.
  */
 int bt_iso_chan_send(struct bt_iso_chan *chan, struct net_buf *buf);

 /** ISO channel Info Structure */
 struct bt_iso_info {
 	/** Channel Type. */
 	enum bt_iso_chan_type type;
 };

 /** @brief Get ISO channel info
  *
  *  @param chan Channel object.
  *  @param info Channel info object.
  *
  *  @return Zero on success or (negative) error code on failure.
  */
 int bt_iso_chan_get_info(const struct bt_iso_chan *chan,
 			 struct bt_iso_info *info);

 /** @brief Get the type of an ISO channel
  *
  * @param chan Channel object.
  *
  * @return enum bt_iso_chan_type The type of the channel. If @p is NULL this
  *                               will be BT_ISO_CHAN_TYPE_NONE.
  */
 enum bt_iso_chan_type bt_iso_chan_get_type(const struct bt_iso_chan *chan);

 /** @brief Creates a BIG as a broadcaster
  *
  *  @param[in] padv      Pointer to the periodic advertising object the BIGInfo shall be sent on.
  *  @param[in] param     The parameters used to create and enable the BIG. The QOS parameters are
  *                       determined by the QOS field of the first BIS in the BIS list of this
  *                       parameter.
  *  @param[out] out_big  Broadcast Isochronous Group object on success.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_big_create(struct bt_le_ext_adv *padv, struct bt_iso_big_create_param *param,
 		      struct bt_iso_big **out_big);

 /** @brief Terminates a BIG as a broadcaster or receiver
  *
  *  @param big    Pointer to the BIG structure.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_big_terminate(struct bt_iso_big *big);

 /** @brief Creates a BIG as a receiver
  *
  *  @param[in] sync     Pointer to the periodic advertising sync object the BIGInfo was received on.
  *  @param[in] param    The parameters used to create and enable the BIG sync.
  *  @param[out] out_big Broadcast Isochronous Group object on success.
  *
  *  @return 0 in case of success or negative value in case of error.
  */
 int bt_iso_big_sync(struct bt_le_per_adv_sync *sync, struct bt_iso_big_sync_param *param,
 		    struct bt_iso_big **out_big);

 #ifdef __cplusplus
 }
 #endif

 /**
  * @}
  */

 #endif /* ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_ */
	/** @file
	* @brief Bluetooth ISO handling
	*/

	/*
	* Copyright (c) 2020 Intel Corporation
	* Copyright (c) 2021 Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/
	#ifndef ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_
	#define ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_

	/**
	* @brief ISO
	* @defgroup bt_iso ISO
	* @ingroup bluetooth
	* @{
	*/

	#ifdef __cplusplus
	extern "C" {
	#endif

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

	/** @def BT_ISO_CHAN_SEND_RESERVE
	* @brief Headroom needed for outgoing ISO SDUs
	*/
	#define BT_ISO_CHAN_SEND_RESERVE BT_BUF_ISO_SIZE(0)

	/** @def BT_ISO_SDU_BUF_SIZE
	*
	* @brief Helper to calculate needed buffer size for ISO SDUs.
	* Useful for creating buffer pools.
	*
	* @param mtu Required ISO SDU size
	*
	* @return Needed buffer size to match the requested ISO SDU MTU.
	*/
	#define BT_ISO_SDU_BUF_SIZE(mtu) BT_BUF_ISO_SIZE(mtu)

	/** Value to set the ISO data path over HCi. */
	#define BT_ISO_DATA_PATH_HCI 0x00

	/** Minimum interval value in microseconds */
	#define BT_ISO_INTERVAL_MIN 0x0000FF
	/** Maximum interval value in microseconds */
	#define BT_ISO_INTERVAL_MAX 0x0FFFFF
	/** Minimum latency value in milliseconds */
	#define BT_ISO_LATENCY_MIN 0x0005
	/** Maximum latency value in milliseconds */
	#define BT_ISO_LATENCY_MAX 0x0FA0
	/** Packets will be sent sequentially between the channels in the group */
	#define BT_ISO_PACKING_SEQUENTIAL 0x00
	/** Packets will be sent interleaved between the channels in the group */
	#define BT_ISO_PACKING_INTERLEAVED 0x01
	/** Packets may be framed or unframed */
	#define BT_ISO_FRAMING_UNFRAMED 0x00
	/** Packets are always framed */
	#define BT_ISO_FRAMING_FRAMED 0x01
	/** Maximum number of isochronous channels in a single group */
	#define BT_ISO_MAX_GROUP_ISO_COUNT 0x1F
	/** Maximum SDU size */
	#define BT_ISO_MAX_SDU 0x0FFF
	/** Minimum BIG sync timeout value (N * 10 ms) */
	#define BT_ISO_SYNC_TIMEOUT_MIN 0x000A
	/** Maximum BIG sync timeout value (N * 10 ms) */
	#define BT_ISO_SYNC_TIMEOUT_MAX 0x4000
	/** Controller controlled maximum subevent count value */
	#define BT_ISO_SYNC_MSE_ANY 0x00
	/** Minimum BIG sync maximum subevent count value */
	#define BT_ISO_SYNC_MSE_MIN 0x01
	/** Maximum BIG sync maximum subevent count value */
	#define BT_ISO_SYNC_MSE_MAX 0x1F
	/** Maximum connected ISO retransmission value */
	#define BT_ISO_CONNECTED_RTN_MAX 0xFF
	/** Maximum broadcast ISO retransmission value */
	#define BT_ISO_BROADCAST_RTN_MAX 0x1E
	/** Broadcast code size */
	#define BT_ISO_BROADCAST_CODE_SIZE 16
	/** Lowest BIS index */
	#define BT_ISO_BIS_INDEX_MIN 0x01
	/** Highest BIS index */
	#define BT_ISO_BIS_INDEX_MAX 0x1F

	/** @brief Life-span states of ISO channel. Used only by internal APIs
	* dealing with setting channel to proper state depending on operational
	* context.
	*/
	enum bt_iso_state {
	/** Channel disconnected */
	BT_ISO_STATE_DISCONNECTED,
	/** Channel in connecting state */
	BT_ISO_STATE_CONNECTING,
	/** Channel ready for upper layer traffic on it */
	BT_ISO_STATE_CONNECTED,
	/** Channel in disconnecting state */
	BT_ISO_STATE_DISCONNECTING,
	};


	enum bt_iso_chan_type {
	BT_ISO_CHAN_TYPE_NONE,
	BT_ISO_CHAN_TYPE_CONNECTED,
	BT_ISO_CHAN_TYPE_BROADCASTER,
	BT_ISO_CHAN_TYPE_SYNC_RECEIVER
	};

	/** @brief ISO Channel structure. */
	struct bt_iso_chan {
	/** Channel connection reference */
	struct bt_conn *iso;
	/** Channel operations reference */
	struct bt_iso_chan_ops *ops;
	/** Channel QoS reference */
	struct bt_iso_chan_qos *qos;
	enum bt_iso_state state;
	bt_security_t required_sec_level;
	/** Node used internally by the stack */
	sys_snode_t node;
	};

	/** @brief ISO Channel IO QoS structure. */
	struct bt_iso_chan_io_qos {
	/** Channel SDU. Maximum value is BT_ISO_MAX_SDU */
	uint16_t sdu;
	/** Channel PHY - See BT_GAP_LE_PHY for values.
	* Setting BT_GAP_LE_PHY_NONE is invalid.
	*/
	uint8_t phy;
	/** Channel Retransmission Number. */
	uint8_t rtn;
	/** @brief Channel data path reference
	*
	* Setting to NULL default to HCI data path (same as setting path.pid
	* to BT_ISO_DATA_PATH_HCI).
	*/
	struct bt_iso_chan_path *path;
	};

	/** @brief ISO Channel QoS structure. */
	struct bt_iso_chan_qos {
	/** @brief Channel Receiving QoS.
	*
	* Setting NULL disables data path BT_HCI_DATAPATH_DIR_CTLR_TO_HOST.
	*
	* Can only be set for a connected isochronous channel, or a broadcast
	* isochronous receiver.
	*/
	struct bt_iso_chan_io_qos *rx;
	/** @brief Channel Transmission QoS
	*
	* Setting NULL disables data path BT_HCI_DATAPATH_DIR_HOST_TO_CTRL.
	*
	* Can only be set for a connected isochronous channel, or a broadcast
	* isochronous transmitter.
	*/
	struct bt_iso_chan_io_qos *tx;
	};

	/** @brief ISO Channel Data Path structure. */
	struct bt_iso_chan_path {
	/** Default path ID */
	uint8_t pid;
	/** Coding Format */
	uint8_t format;
	/** Company ID */
	uint16_t cid;
	/** Vendor-defined Codec ID */
	uint16_t vid;
	/** Controller Delay */
	uint32_t delay;
	/** Codec Configuration length*/
	uint8_t cc_len;
	/** Codec Configuration */
	uint8_t cc[0];
	};

	/** ISO packet status flag bits */
	enum {
	/** The ISO packet is valid. */
	BT_ISO_FLAGS_VALID = BIT(0),

	/** @brief The ISO packet may possibly contain errors.
	*
	* May be caused by a failed CRC check or if missing a part of the SDU.
	*/
	BT_ISO_FLAGS_ERROR = BIT(1),

	/** The ISO packet was lost. */
	BT_ISO_FLAGS_LOST = BIT(2),

	/** Timestamp is valid
	*
	* If not set, then the bt_iso_recv_info.ts value is not valid, and
	* should not be used.
	*/
	BT_ISO_FLAGS_TS = BIT(3)
	};

	/** @brief ISO Meta Data structure for received ISO packets. */
	struct bt_iso_recv_info {
	/** ISO timestamp
	*
	* Only valid if @p flags has the BT_ISO_FLAGS_TS bit set.
	*/
	uint32_t ts;

	/** ISO packet sequence number of the first fragment in the SDU */
	uint16_t sn;

	/** ISO packet flags bitfield (BT_ISO_FLAGS_) /
	uint8_t flags;
	};


	/** Opaque type representing an Connected Isochronous Group (CIG). */
	struct bt_iso_cig;

	struct bt_iso_cig_param {
	/** @brief Array of pointers to CIS channels */
	struct bt_iso_chan **cis_channels;

	/** @brief Number channels in @p cis_channels
	*
	* Maximum number of channels in a single group is
	* BT_ISO_MAX_GROUP_ISO_COUNT
	*/
	uint8_t num_cis;

	/** @brief Channel interval in us.
	*
	* Value range BT_ISO_INTERVAL_MIN - BT_ISO_INTERVAL_MAX.
	*/
	uint32_t interval;

	/** @brief Channel Latency in ms.
	*
	* Value range BT_ISO_LATENCY_MIN - BT_ISO_LATENCY_MAX.
	*/
	uint16_t latency;

	/** @brief Channel peripherals sleep clock accuracy Only for CIS
	*
	* Shall be worst case sleep clock accuracy of all the peripherals.
	* For possible values see the BT_GAP_SCA_* values.
	* If unknown for the peripherals, this should be set to
	* BT_GAP_SCA_UNKNOWN.
	*/
	uint8_t sca;

	/** @brief Channel packing mode.
	*
	* BT_ISO_PACKING_SEQUENTIAL or BT_ISO_PACKING_INTERLEAVED
	*/
	uint8_t packing;

	/** @brief Channel framing mode.
	*
	* BT_ISO_FRAMING_UNFRAMED for unframed and
	* BT_ISO_FRAMING_FRAMED for framed.
	*/
	uint8_t framing;
	};

	struct bt_iso_connect_param {
	/* The ISO channel to connect */
	struct bt_iso_chan *iso_chan;

	/* The ACL connection */
	struct bt_conn *acl;
	};

	/** Opaque type representing an Broadcast Isochronous Group (BIG). */
	struct bt_iso_big;

	struct bt_iso_big_create_param {
	/** Array of pointers to BIS channels */
	struct bt_iso_chan **bis_channels;

	/** @brief Number channels in @p bis_channels
	*
	* Maximum number of channels in a single group is
	* BT_ISO_MAX_GROUP_ISO_COUNT
	*/
	uint8_t num_bis;

	/** @brief Channel interval in us.
	*
	* Value range BT_ISO_INTERVAL_MIN - BT_ISO_INTERVAL_MAX.
	*/
	uint32_t interval;

	/** @brief Channel Latency in ms.
	*
	* Value range BT_ISO_LATENCY_MIN - BT_ISO_LATENCY_MAX.
	*/
	uint16_t latency;

	/** @brief Channel packing mode.
	*
	* BT_ISO_PACKING_SEQUENTIAL or BT_ISO_PACKING_INTERLEAVED
	*/
	uint8_t packing;

	/** @brief Channel framing mode.
	*
	* BT_ISO_FRAMING_UNFRAMED for unframed and
	* BT_ISO_FRAMING_FRAMED for framed.
	*/
	uint8_t framing;

	/** Whether or not to encrypt the streams. */
	bool encryption;

	/** @brief Broadcast code
	*
	* The code used to derive the session key that is used to encrypt and
	* decrypt BIS payloads.
	*/
	uint8_t bcode[BT_ISO_BROADCAST_CODE_SIZE];
	};

	struct bt_iso_big_sync_param {
	/** Array of pointers to BIS channels */
	struct bt_iso_chan **bis_channels;

	/** @brief Number channels in @p bis_channels
	*
	* Maximum number of channels in a single group is
	* BT_ISO_MAX_GROUP_ISO_COUNT
	*/
	uint8_t num_bis;

	/** Bitfield of the BISes to sync to
	*
	* The BIS indexes start from 0x01, so the lowest allowed bit is
	* BIT(1) that represents index 0x01. To synchronize to e.g. BIS
	* indexes 0x01 and 0x02, the bitfield value should be BIT(1) \| BIT(2).
	*/
	uint32_t bis_bitfield;

	/** @brief Maximum subevents
	*
	* The MSE (Maximum Subevents) parameter is the maximum number of
	* subevents that a Controller should use to receive data payloads
	* in each interval for a BIS.
	*
	* Value range is BT_ISO_SYNC_MSE_MIN to BT_ISO_SYNC_MSE_MAX, or
	* BT_ISO_SYNC_MSE_ANY to let the controller choose.
	*/
	uint32_t mse;

	/** @brief Synchronization timeout for the BIG (N * 10 MS)
	*
	* Value range is BT_ISO_SYNC_TIMEOUT_MIN to BT_ISO_SYNC_TIMEOUT_MAX.
	*/
	uint16_t sync_timeout;

	/** Whether or not the streams of the BIG are encrypted */
	bool encryption;

	/** @brief Broadcast code
	*
	* The code used to derive the session key that is used to encrypt and
	* decrypt BIS payloads.
	*/
	uint8_t bcode[BT_ISO_BROADCAST_CODE_SIZE];
	};

	struct bt_iso_biginfo {
	/** Address of the advertiser */
	const bt_addr_le_t *addr;

	/** Advertiser SID */
	uint8_t sid;

	/** Number of BISes in the BIG */
	uint8_t num_bis;

	/** Maximum number of subevents in each isochronous event */
	uint8_t sub_evt_count;

	/** Interval between two BIG anchor point (N * 1.25 ms) */
	uint16_t iso_interval;

	/** The number of new payloads in each BIS event */
	uint8_t burst_number;

	/** Offset used for pre-transmissions */
	uint8_t offset;

	/** The number of times a payload is transmitted in a BIS event */
	uint8_t rep_count;

	/** Maximum size, in octets, of the payload */
	uint16_t max_pdu;

	/** The interval, in microseconds, of periodic SDUs. */
	uint32_t sdu_interval;

	/** Maximum size of an SDU, in octets. */
	uint16_t max_sdu;

	/** Channel PHY */
	uint8_t phy;

	/** Channel framing mode */
	uint8_t framing;

	/** Whether or not the BIG is encrypted */
	bool encryption;
	};

	/** @brief ISO Channel operations structure. */
	struct bt_iso_chan_ops {
	/** @brief Channel connected callback
	*
	* If this callback is provided it will be called whenever the
	* connection completes.
	*
	* For a peripheral, the QoS values (see @ref bt_iso_chan_io_qos)
	* are set when this is called. The peripheral does not have any
	* information about the RTN though.
	*
	* @param chan The channel that has been connected
	*/
	void (connected)(struct bt_iso_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
	* @param reason BT_HCI_ERR_* reason for the disconnection.
	*/
	void (disconnected)(struct bt_iso_chan chan, uint8_t reason);

	/** @brief Channel alloc_buf callback
	*
	* If this callback is provided the channel will use it to allocate
	* buffers to store incoming data.
	*
	* @param chan The channel requesting a buffer.
	*
	* @return Allocated buffer.
	*/
	struct net_buf (alloc_buf)(struct bt_iso_chan *chan);

	/** @brief Channel recv callback
	*
	* @param chan The channel receiving data.
	* @param buf Buffer containing incoming data.
	* @param info Pointer to the metadata for the buffer. The lifetime of the
	* pointer is linked to the lifetime of the net_buf.
	* Metadata such as sequence number and timestamp can be
	* provided by the bluetooth controller.
	*/
	void (recv)(struct bt_iso_chan chan, const struct bt_iso_recv_info *info,
	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_iso_chan chan);
	};

	struct bt_iso_accept_info {
	/** The ACL connection that is requesting authorization */
	struct bt_conn *acl;

	/** @brief The ID of the connected isochronous group (CIG) on the central
	*
	* The ID is unique per ACL
	*/
	uint8_t cig_id;

	/** @brief The ID of the connected isochronous stream (CIS) on the central
	*
	* This ID is unique within a CIG
	*/
	uint8_t cis_id;
	};

	/** @brief ISO Server structure. */
	struct bt_iso_server {
	/** 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 info The ISO accept information structure
	* @param chan Pointer to receive the allocated channel
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int (accept)(const struct bt_iso_accept_info info,
	struct bt_iso_chan **chan);
	};

	/** @brief Register ISO server.
	*
	* Register ISO server, 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_iso_server_register(struct bt_iso_server *server);

	/** @brief Creates a CIG as a central
	*
	* This can called at any time, even before connecting to a remote device.
	* This must be called before any connected isochronous stream (CIS) channel
	* can be connected.
	*
	* Once a CIG is created, the channels supplied in the @p param can be
	* connected using bt_iso_chan_connect.
	*
	* @param[in] param The parameters used to create and enable the CIG.
	* @param[out] out_cig Connected Isochronous Group object on success.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_cig_create(const struct bt_iso_cig_param *param,
	struct bt_iso_cig **out_cig);

	/** @brief Reconfigure a CIG as a central
	*
	* This function can be used to update a CIG. It will update the group specific
	* parameters, and, if supplied, change the QoS parameters of the individual
	* CIS. If the cis_channels in @p param contains CIS that was not originally
	* in the call to bt_iso_cig_create(), these will be added to the group.
	* It is not possible to remove any CIS from the group after creation.
	*
	* This can be called at any time before connecting an ISO to a remote device.
	* Once any CIS in the group has connected, the group cannot be changed.
	*
	* Once a CIG is created, the channels supplied in the @p param can be
	* connected using bt_iso_chan_connect.
	*
	* @param cig Connected Isochronous Group object.
	* @param param The parameters used to reconfigure the CIG.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_cig_reconfigure(struct bt_iso_cig *cig,
	const struct bt_iso_cig_param *param);

	/** @brief Terminates a CIG as a central
	*
	* All the CIS in the CIG shall be disconnected first.
	*
	* @param cig Pointer to the CIG structure.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_cig_terminate(struct bt_iso_cig *cig);

	/** @brief Connect ISO channels on ACL connections
	*
	* Connect ISO channels. The ISO channels must have been initialized in a CIG
	* first by calling bt_iso_cig_create.
	*
	* Once the connection is completed the channels' connected() callback will be
	* called. If the connection is rejected disconnected() callback is called
	* instead.
	*
	* This function will also setup the ISO data path based on the @p path
	* parameter of the bt_iso_chan_io_qos for each channel.
	*
	* @param param Pointer to a connect parameter array with the ISO and ACL pointers.
	* @param count Number of connect parameters.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_chan_connect(const struct bt_iso_connect_param *param, size_t count);

	/** @brief Disconnect ISO channel
	*
	* Disconnect ISO 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_iso_chan_connect() API above.
	*
	* @param chan Channel object.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_chan_disconnect(struct bt_iso_chan *chan);

	/** @brief Send data to ISO 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_iso_chan_connect() API above.
	*
	* @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.
	*
	* @param chan Channel object.
	* @param buf Buffer containing data to be sent.
	*
	* @return Bytes sent in case of success or negative value in case of error.
	*/
	int bt_iso_chan_send(struct bt_iso_chan chan, struct net_buf buf);

	/** ISO channel Info Structure */
	struct bt_iso_info {
	/** Channel Type. */
	enum bt_iso_chan_type type;
	};

	/** @brief Get ISO channel info
	*
	* @param chan Channel object.
	* @param info Channel info object.
	*
	* @return Zero on success or (negative) error code on failure.
	*/
	int bt_iso_chan_get_info(const struct bt_iso_chan *chan,
	struct bt_iso_info *info);

	/** @brief Get the type of an ISO channel
	*
	* @param chan Channel object.
	*
	* @return enum bt_iso_chan_type The type of the channel. If @p is NULL this
	* will be BT_ISO_CHAN_TYPE_NONE.
	*/
	enum bt_iso_chan_type bt_iso_chan_get_type(const struct bt_iso_chan *chan);

	/** @brief Creates a BIG as a broadcaster
	*
	* @param[in] padv Pointer to the periodic advertising object the BIGInfo shall be sent on.
	* @param[in] param The parameters used to create and enable the BIG. The QOS parameters are
	* determined by the QOS field of the first BIS in the BIS list of this
	* parameter.
	* @param[out] out_big Broadcast Isochronous Group object on success.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_big_create(struct bt_le_ext_adv padv, struct bt_iso_big_create_param param,
	struct bt_iso_big **out_big);

	/** @brief Terminates a BIG as a broadcaster or receiver
	*
	* @param big Pointer to the BIG structure.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_big_terminate(struct bt_iso_big *big);

	/** @brief Creates a BIG as a receiver
	*
	* @param[in] sync Pointer to the periodic advertising sync object the BIGInfo was received on.
	* @param[in] param The parameters used to create and enable the BIG sync.
	* @param[out] out_big Broadcast Isochronous Group object on success.
	*
	* @return 0 in case of success or negative value in case of error.
	*/
	int bt_iso_big_sync(struct bt_le_per_adv_sync sync, struct bt_iso_big_sync_param param,
	struct bt_iso_big **out_big);

	#ifdef __cplusplus
	}
	#endif

	/**
	* @}
	*/

	#endif /* ZEPHYR_INCLUDE_BLUETOOTH_ISO_H_ */