xref: /illumos-gate/usr/src/uts/common/sys/mac.h (revision ca9327a6de44d69ddab3668cc1e143ce781387a3)

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License (the "License").
 * You may not use this file except in compliance with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */
/*
 * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#ifndef	_SYS_MAC_H
#define	_SYS_MAC_H

#pragma ident	"%Z%%M%	%I%	%E% SMI"

#include <sys/types.h>
#include <sys/ddi.h>
#include <sys/sunddi.h>
#include <sys/stream.h>
#include <sys/dld.h>

/*
 * MAC Services Module
 */

#ifdef	__cplusplus
extern "C" {
#endif

/*
 * MAC Information (text emitted by modinfo(1m))
 */
#define	MAC_INFO	"MAC Services"

/*
 * MAC version identifier.  This is used by mac_alloc() mac_register() to
 * verify that incompatible drivers don't register.
 */
#define	MAC_VERSION	0x1

/*
 * MAC-Type version identifier.  This is used by mactype_alloc() and
 * mactype_register() to verify that incompatible MAC-Type plugins don't
 * register.
 */
#define	MACTYPE_VERSION	0x1

/*
 * Statistics
 */

#define	XCVR_UNDEFINED		0
#define	XCVR_NONE		1
#define	XCVR_10			2
#define	XCVR_100T4		3
#define	XCVR_100X		4
#define	XCVR_100T2		5
#define	XCVR_1000X		6
#define	XCVR_1000T		7

typedef enum {
	LINK_STATE_UNKNOWN = -1,
	LINK_STATE_DOWN,
	LINK_STATE_UP
} link_state_t;

typedef enum {
	LINK_DUPLEX_UNKNOWN = 0,
	LINK_DUPLEX_HALF,
	LINK_DUPLEX_FULL
} link_duplex_t;

#define	DATALINK_INVALID_LINKID	0
#define	DATALINK_ALL_LINKID	0
#define	DATALINK_MAX_LINKID	0xffffffff

typedef enum {
	LINK_FLOWCTRL_NONE = 0,
	LINK_FLOWCTRL_RX,
	LINK_FLOWCTRL_TX,
	LINK_FLOWCTRL_BI
} link_flowctrl_t;

/*
 * Maximum MAC address length
 */
#define	MAXMACADDRLEN	20

#ifdef	_KERNEL

typedef struct mac_stat_info_s {
	uint_t		msi_stat;
	char		*msi_name;
	uint_t		msi_type;	/* as defined in kstat_named_init(9F) */
	uint64_t	msi_default;
} mac_stat_info_t;

/*
 * There are three ranges of statistics values.  0 to 1 - MAC_STAT_MIN are
 * interface statistics maintained by the mac module.  MAC_STAT_MIN to 1 -
 * MACTYPE_STAT_MIN are common MAC statistics defined by the mac module and
 * maintained by each driver.  MACTYPE_STAT_MIN and above are statistics
 * defined by MAC-Type plugins and maintained by each driver.
 */
#define	MAC_STAT_MIN		1000
#define	MACTYPE_STAT_MIN	2000

#define	IS_MAC_STAT(stat)	\
	(stat >= MAC_STAT_MIN && stat < MACTYPE_STAT_MIN)
#define	IS_MACTYPE_STAT(stat)	(stat >= MACTYPE_STAT_MIN)

/*
 * Statistics maintained by the mac module, and possibly populated as link
 * statistics.
 */
enum mac_mod_stat {
	MAC_STAT_LINK_STATE,
	MAC_STAT_LINK_UP,
	MAC_STAT_PROMISC
};

/*
 * Do not reorder, and add only to the end of this list.
 */
enum mac_driver_stat {
	/* MIB-II stats (RFC 1213 and RFC 1573) */
	MAC_STAT_IFSPEED = MAC_STAT_MIN,
	MAC_STAT_MULTIRCV,
	MAC_STAT_BRDCSTRCV,
	MAC_STAT_MULTIXMT,
	MAC_STAT_BRDCSTXMT,
	MAC_STAT_NORCVBUF,
	MAC_STAT_IERRORS,
	MAC_STAT_UNKNOWNS,
	MAC_STAT_NOXMTBUF,
	MAC_STAT_OERRORS,
	MAC_STAT_COLLISIONS,
	MAC_STAT_RBYTES,
	MAC_STAT_IPACKETS,
	MAC_STAT_OBYTES,
	MAC_STAT_OPACKETS,
	MAC_STAT_UNDERFLOWS,
	MAC_STAT_OVERFLOWS
};

#define	MAC_NSTAT	(MAC_STAT_OVERFLOWS - MAC_STAT_IFSPEED + 1)

#define	MAC_STAT_ISACOUNTER(_stat) (		\
	    (_stat) == MAC_STAT_MULTIRCV ||	\
	    (_stat) == MAC_STAT_BRDCSTRCV ||	\
	    (_stat) == MAC_STAT_MULTIXMT ||	\
	    (_stat) == MAC_STAT_BRDCSTXMT ||	\
	    (_stat) == MAC_STAT_NORCVBUF ||	\
	    (_stat) == MAC_STAT_IERRORS ||	\
	    (_stat) == MAC_STAT_UNKNOWNS ||	\
	    (_stat) == MAC_STAT_NOXMTBUF ||	\
	    (_stat) == MAC_STAT_OERRORS ||	\
	    (_stat) == MAC_STAT_COLLISIONS ||	\
	    (_stat) == MAC_STAT_RBYTES ||	\
	    (_stat) == MAC_STAT_IPACKETS ||	\
	    (_stat) == MAC_STAT_OBYTES ||	\
	    (_stat) == MAC_STAT_OPACKETS ||	\
	    (_stat) == MAC_STAT_UNDERFLOWS ||	\
	    (_stat) == MAC_STAT_OVERFLOWS)

/*
 * Immutable information. (This may not be modified after registration).
 */
typedef struct mac_info_s {
	uint_t		mi_media;
	uint_t		mi_nativemedia;
	uint_t		mi_addr_length;
	uint8_t		*mi_unicst_addr;
	uint8_t		*mi_brdcst_addr;
} mac_info_t;

/*
 * LSO capability
 */
typedef struct lso_basic_tcp_ipv4_s {
	t_uscalar_t	lso_max;		/* maximum payload */
} lso_basic_tcp_ipv4_t;

/*
 * Future LSO capabilities can be added at the end of the mac_capab_lso_t.
 * When such capability is added to the GLDv3 framework, the size of the
 * mac_capab_lso_t it allocates and passes to the drivers increases. Older
 * drivers wil access only the (upper) sections of that structure, that is the
 * sections carrying the capabilities they understand. This ensures the
 * interface can be safely extended in a binary compatible way.
 */
typedef	struct mac_capab_lso_s {
	t_uscalar_t		lso_flags;
	lso_basic_tcp_ipv4_t	lso_basic_tcp_ipv4;
	/* Add future lso capabilities here */
} mac_capab_lso_t;

/*
 * Information for legacy devices.
 */
typedef struct mac_capab_legacy_s {
	/*
	 * Notifications that the legacy device does not support.
	 */
	uint32_t	ml_unsup_note;
	/*
	 * dev_t of the legacy device; can be held to force attach.
	 */
	dev_t		ml_dev;
} mac_capab_legacy_t;

/*
 * MAC layer capabilities.  These capabilities are handled by the drivers'
 * mc_capab_get() callbacks.  Some capabilities require the driver to fill
 * in a given data structure, and others are simply boolean capabilities.
 * Note that capability values must be powers of 2 so that consumers and
 * providers of this interface can keep track of which capabilities they
 * care about by keeping a bitfield of these things around somewhere.
 */
typedef enum {
	MAC_CAPAB_HCKSUM	= 0x01, /* data is a uint32_t for the txflags */
	MAC_CAPAB_POLL		= 0x02,	/* boolean only, no data */
	MAC_CAPAB_MULTIADDRESS	= 0x04, /* data is multiaddress_capab_t */
	MAC_CAPAB_LSO		= 0x08, /* data is mac_capab_lso_t */
	MAC_CAPAB_NO_NATIVEVLAN	= 0x10, /* boolean only, no data */
	MAC_CAPAB_NO_ZCOPY	= 0x20, /* boolean only, no data */
	/* add new capabilities here */
	MAC_CAPAB_RINGS		= 0x100, /* data is mac_capab_rings_t */
	MAC_CAPAB_SHARES	= 0x200, /* data is mac_capab_share_t */

	/* The following capabilities are specific to softmac. */
	MAC_CAPAB_LEGACY	= 0x8001, /* data is mac_capab_legacy_t */
} mac_capab_t;

typedef int mac_addr_slot_t;

/* mma_flags values */
#define	MMAC_SLOT_USED		0x1   /* address slot used */
#define	MMAC_SLOT_UNUSED	0x2   /* free address slot */
#define	MMAC_VENDOR_ADDR	0x4   /* address returned is vendor supplied */

typedef struct mac_multi_address_s {
	mac_addr_slot_t	mma_slot;	/* slot for add/remove/get/set */
	uint_t		mma_addrlen;
	uint8_t		mma_addr[MAXMACADDRLEN];
	uint_t		mma_flags;
} mac_multi_addr_t;

typedef int	(*maddr_reserve_t)(void *, mac_multi_addr_t *);
typedef int	(*maddr_add_t)(void *, mac_multi_addr_t *);
typedef int	(*maddr_remove_t)(void *, mac_addr_slot_t);
typedef int	(*maddr_modify_t)(void *, mac_multi_addr_t *);
typedef int	(*maddr_get_t)(void *, mac_multi_addr_t *);

/* maddr_flag values */
#define	MADDR_VENDOR_ADDR	0x01	/* addr returned is vendor supplied */

/* multiple mac address: add/remove/set/get mac address */
typedef struct multiaddress_capab_s {
	int		maddr_naddr;	/* total addresses */
	int		maddr_naddrfree;	/* free address slots */
	uint_t		maddr_flag;	/* MADDR_VENDOR_ADDR bit can be set */
	/* driver entry points */
	void		*maddr_handle;	/* cookie to be used for the calls */
	maddr_reserve_t	maddr_reserve;	/* reserve a factory address */
	maddr_add_t	maddr_add;	/* add a new unicst address */
	maddr_remove_t	maddr_remove;	/* remove an added address */
	maddr_modify_t	maddr_modify;	/* modify an added address */
	maddr_get_t	maddr_get;	/* get address from specified slot */
} multiaddress_capab_t;

/*
 * MAC driver entry point types.
 */
typedef int		(*mac_getstat_t)(void *, uint_t, uint64_t *);
typedef	int		(*mac_start_t)(void *);
typedef void		(*mac_stop_t)(void *);
typedef int		(*mac_setpromisc_t)(void *, boolean_t);
typedef int		(*mac_multicst_t)(void *, boolean_t, const uint8_t *);
typedef int		(*mac_unicst_t)(void *, const uint8_t *);
typedef void		(*mac_ioctl_t)(void *, queue_t *, mblk_t *);
typedef void		(*mac_resources_t)(void *);
typedef mblk_t		*(*mac_tx_t)(void *, mblk_t *);
typedef	boolean_t	(*mac_getcapab_t)(void *, mac_capab_t, void *);
typedef	int		(*mac_open_t)(void *);
typedef void		(*mac_close_t)(void *);
typedef	int		(*mac_set_prop_t)(void *, const char *, mac_prop_id_t,
    uint_t, const void *);
typedef	int		(*mac_get_prop_t)(void *, const char *, mac_prop_id_t,
    uint_t, uint_t, void *);

/*
 * Drivers must set all of these callbacks except for mc_resources,
 * mc_ioctl, and mc_getcapab, which are optional.  If any of these optional
 * callbacks are set, their appropriate flags must be set in mc_callbacks.
 * Any future additions to this list must also be accompanied by an
 * associated mc_callbacks flag so that the framework can grow without
 * affecting the binary compatibility of the interface.
 */
typedef struct mac_callbacks_s {
	uint_t		mc_callbacks;	/* Denotes which callbacks are set */
	mac_getstat_t	mc_getstat;	/* Get the value of a statistic */
	mac_start_t	mc_start;	/* Start the device */
	mac_stop_t	mc_stop;	/* Stop the device */
	mac_setpromisc_t mc_setpromisc;	/* Enable or disable promiscuous mode */
	mac_multicst_t	mc_multicst;	/* Enable or disable a multicast addr */
	mac_unicst_t	mc_unicst;	/* Set the unicast MAC address */
	mac_tx_t	mc_tx;		/* Transmit a packet */
	mac_resources_t	mc_resources;	/* Get the device resources */
	mac_ioctl_t	mc_ioctl;	/* Process an unknown ioctl */
	mac_getcapab_t	mc_getcapab;	/* Get capability information */
	mac_open_t	mc_open;	/* Open the device */
	mac_close_t	mc_close;	/* Close the device */
	mac_set_prop_t	mc_setprop;
	mac_get_prop_t	mc_getprop;
} mac_callbacks_t;

typedef struct mac_priv_prop_s {
	char	mpp_name[MAXLINKPROPNAME];
	uint_t	mpp_flags;
} mac_priv_prop_t;

/*
 * Multiple Rings capability
 */
typedef enum {
	MAC_RING_TYPE_RX	= 1,	/* Receive ring */
	MAC_RING_TYPE_TX	= 2	/* Transmit ring */
} mac_ring_type_t;

/*
 * Grouping type of a ring group
 *
 * MAC_GROUP_TYPE_STATIC: The ring group can not be re-grouped.
 * MAC_GROUP_TYPE_DYNAMIC: The ring group support dynamic re-grouping
 */
typedef enum {
	MAC_GROUP_TYPE_STATIC	= 1,	/* Static ring group */
	MAC_GROUP_TYPE_DYNAMIC	= 2	/* Dynamic ring group */
} mac_group_type_t;

typedef	struct __mac_ring_driver	*mac_ring_driver_t;
typedef	struct __mac_ring_handle	*mac_ring_handle_t;
typedef	struct __mac_group_driver	*mac_group_driver_t;
typedef	struct __mac_group_handle	*mac_group_handle_t;
typedef	struct __mac_intr_handle	*mac_intr_handle_t;

typedef	struct mac_ring_info_s mac_ring_info_t;
typedef	struct mac_group_info_s mac_group_info_t;

typedef	int	(*mac_intr_enable_t)(mac_intr_handle_t);
typedef	int	(*mac_intr_disable_t)(mac_intr_handle_t);

typedef	struct mac_intr_s {
	mac_intr_handle_t	mi_handle;
	mac_intr_enable_t	mi_enable;
	mac_intr_disable_t	mi_disable;
} mac_intr_t;

typedef void	(*mac_get_ring_t)(void *, mac_ring_type_t, const int, const int,
    mac_ring_info_t *, mac_ring_handle_t);
typedef void	(*mac_get_group_t)(void *, mac_ring_type_t, const int,
    mac_group_info_t *, mac_group_handle_t);

typedef void	(*mac_group_add_ring_t)(mac_group_driver_t,
    mac_ring_driver_t, mac_ring_type_t);
typedef void	(*mac_group_rem_ring_t)(mac_group_driver_t,
    mac_ring_driver_t, mac_ring_type_t);

/*
 * Multiple Rings Capability
 */
typedef struct	mac_capab_rings_s {
	mac_ring_type_t		mr_type;	/* Ring type */
	mac_group_type_t	mr_group_type;	/* Grouping type */
	void			*mr_handle;	/* Group Driver Handle. */
	uint_t			mr_rnum;	/* Number of rings */
	uint_t			mr_gnum;	/* Number of ring groups */
	mac_get_ring_t		mr_rget;	/* Get ring from driver */
	mac_get_group_t		mr_gget;	/* Get ring group from driver */
	mac_group_add_ring_t	mr_gadd_ring;	/* Add ring into a group */
	mac_group_rem_ring_t	mr_grem_ring;	/* Remove ring from a group */
} mac_capab_rings_t;

/*
 * Common ring functions and driver interfaces
 */
typedef	int	(*mac_ring_start_t)(mac_ring_driver_t);
typedef	void	(*mac_ring_stop_t)(mac_ring_driver_t);

typedef	mblk_t	*(*mac_ring_send_t)(void *, mblk_t *);
typedef	mblk_t *(*mac_ring_poll_t)(void *, int);

typedef struct mac_ring_info_s {
	mac_ring_driver_t	mr_driver;
	mac_ring_start_t	mr_start;
	mac_ring_stop_t		mr_stop;
	mac_intr_t		mr_intr;
	union {
		mac_ring_send_t	send;
		mac_ring_poll_t	poll;
	} mrfunion;
} mac_ring_info_s;

#define	mr_send		mrfunion.send
#define	mr_poll		mrfunion.poll

typedef	int	(*mac_group_start_t)(mac_group_driver_t);
typedef	void	(*mac_group_stop_t)(mac_group_driver_t);
typedef	int	(*mac_add_mac_addr_t)(void *, const uint8_t *);
typedef	int	(*mac_rem_mac_addr_t)(void *, const uint8_t *);

struct mac_group_info_s {
	mac_group_driver_t	mrg_driver;	/* Driver reference */
	mac_group_start_t	mrg_start;	/* Start the group */
	mac_group_stop_t	mrg_stop;	/* Stop the group */
	uint_t			mrg_count;	/* Count of rings */
	mac_intr_t		mrg_intr;	/* Optional per-group intr */

	/* Only used for rx groups */
	mac_add_mac_addr_t	mrg_addmac;	/* Add a MAC address */
	mac_rem_mac_addr_t	mrg_remmac;	/* Remove a MAC address */
};

/*
 * Share management functions.
 */
typedef uint64_t mac_share_handle_t;

/*
 * Returns a Share handle to the client calling from above.
 */
typedef int    (*mac_alloc_share_t)(void *, uint64_t cookie,
    uint64_t *rcookie, mac_share_handle_t *);

/*
 * Destroys the share previously allocated and unallocates
 * all share resources (e.g. DMA's assigned to the share).
 */
typedef void (*mac_free_share_t)(mac_share_handle_t);

typedef void (*mac_share_query_t)(mac_share_handle_t shdl,
    mac_ring_type_t type, uint32_t *rmin, uint32_t *rmax,
    uint64_t *rmap, uint64_t *gnum);

/*
 * Basic idea, bind previously created ring groups to shares
 * for them to be exported (or shared) by another domain.
 * These interfaces bind/unbind the ring group to a share.  The
 * of doing such causes the resources to be shared with the guest.
 */
typedef int (*mac_share_add_group_t)(mac_share_handle_t,
    mac_group_handle_t);
typedef int (*mac_share_rem_group_t)(mac_share_handle_t,
    mac_group_handle_t);

typedef struct  mac_capab_share_s {
	uint_t			ms_snum;	/* Number of shares (vr's) */
	void			*ms_handle;	/* Handle to driver. */
	mac_alloc_share_t	ms_salloc;	/* Get a share from driver. */
	mac_free_share_t	ms_sfree;	/* Return a share to driver. */
	mac_share_add_group_t	ms_sadd;	/* Add a group to the share. */
	mac_share_rem_group_t	ms_sremove;	/* Remove group from share. */
	mac_share_query_t	ms_squery;	/* Query share constraints */
} mac_capab_share_t;

/*
 * Flags for mc_callbacks.  Requiring drivers to set the flags associated
 * with optional callbacks initialized in the structure allows the mac
 * module to add optional callbacks in the future without requiring drivers
 * to recompile.
 */
#define	MC_RESOURCES	0x001
#define	MC_IOCTL	0x002
#define	MC_GETCAPAB	0x004
#define	MC_OPEN		0x008
#define	MC_CLOSE	0x010
#define	MC_SETPROP	0x020
#define	MC_GETPROP	0x040

#define	MAC_MAX_MINOR	1000

typedef struct mac_register_s {
	uint_t			m_version;	/* set by mac_alloc() */
	const char		*m_type_ident;
	void			*m_driver;	/* Driver private data */
	dev_info_t		*m_dip;
	uint_t			m_instance;
	uint8_t			*m_src_addr;
	uint8_t			*m_dst_addr;
	mac_callbacks_t		*m_callbacks;
	uint_t			m_min_sdu;
	uint_t			m_max_sdu;
	void			*m_pdata;
	size_t			m_pdata_size;
	uint32_t		m_margin;
	mac_priv_prop_t		*m_priv_props;
	size_t			m_priv_prop_count;
} mac_register_t;


/*
 * Opaque handle types.
 */
typedef	struct mac_t			*mac_handle_t;
typedef struct __mac_notify_handle	*mac_notify_handle_t;
typedef struct __mac_rx_handle		*mac_rx_handle_t;
typedef struct __mac_txloop_handle	*mac_txloop_handle_t;
typedef struct __mac_resource_handle	*mac_resource_handle_t;

/*
 * MAC interface callback types.
 */
typedef enum {
	MAC_NOTE_LINK,
	MAC_NOTE_PROMISC,
	MAC_NOTE_UNICST,
	MAC_NOTE_TX,
	MAC_NOTE_RESOURCE,
	MAC_NOTE_DEVPROMISC,
	MAC_NOTE_FASTPATH_FLUSH,
	MAC_NOTE_SDU_SIZE,
	MAC_NOTE_VNIC,
	MAC_NOTE_MARGIN,
	MAC_NNOTE	/* must be the last entry */
} mac_notify_type_t;

typedef void		(*mac_notify_t)(void *, mac_notify_type_t);
typedef void		(*mac_rx_t)(void *, mac_resource_handle_t, mblk_t *);
typedef void		(*mac_txloop_t)(void *, mblk_t *);
typedef void		(*mac_blank_t)(void *, time_t, uint_t);

/*
 * MAC promiscuous types
 */
typedef enum {
	MAC_PROMISC = 0x01,		/* MAC instance is promiscuous */
	MAC_DEVPROMISC = 0x02		/* Device is promiscuous */
} mac_promisc_type_t;

/*
 * MAC resource types
 */
typedef enum {
	MAC_RX_FIFO = 1
} mac_resource_type_t;

typedef struct mac_rx_fifo_s {
	mac_resource_type_t	mrf_type;	/* MAC_RX_FIFO */
	mac_blank_t		mrf_blank;
	void			*mrf_arg;
	time_t			mrf_normal_blank_time;
	uint_t			mrf_normal_pkt_count;
} mac_rx_fifo_t;

typedef struct mac_txinfo_s {
	mac_tx_t		mt_fn;
	void			*mt_arg;
} mac_txinfo_t;

typedef union mac_resource_u {
	mac_resource_type_t	mr_type;
	mac_rx_fifo_t		mr_fifo;
} mac_resource_t;

typedef mac_resource_handle_t	(*mac_resource_add_t)(void *, mac_resource_t *);

typedef enum {
	MAC_ADDRTYPE_UNICAST,
	MAC_ADDRTYPE_MULTICAST,
	MAC_ADDRTYPE_BROADCAST
} mac_addrtype_t;

typedef struct mac_header_info_s {
	size_t		mhi_hdrsize;
	size_t		mhi_pktsize;
	const uint8_t	*mhi_daddr;
	const uint8_t	*mhi_saddr;
	uint32_t	mhi_origsap;
	uint32_t	mhi_bindsap;
	mac_addrtype_t	mhi_dsttype;
	uint16_t	mhi_tci;
	uint_t		mhi_istagged:1,
			mhi_prom_looped:1;
} mac_header_info_t;

/*
 * MAC-Type plugin interfaces
 */

typedef int		(*mtops_addr_verify_t)(const void *, void *);
typedef boolean_t	(*mtops_sap_verify_t)(uint32_t, uint32_t *, void *);
typedef mblk_t		*(*mtops_header_t)(const void *, const void *,
    uint32_t, void *, mblk_t *, size_t);
typedef int		(*mtops_header_info_t)(mblk_t *, void *,
    mac_header_info_t *);
typedef boolean_t	(*mtops_pdata_verify_t)(void *, size_t);
typedef	mblk_t		*(*mtops_header_modify_t)(mblk_t *, void *);
typedef void		(*mtops_link_details_t)(char *, size_t, mac_handle_t,
    void *);

typedef struct mactype_ops_s {
	uint_t			mtops_ops;
	/*
	 * mtops_unicst_verify() returns 0 if the given address is a valid
	 * unicast address, or a non-zero errno otherwise.
	 */
	mtops_addr_verify_t	mtops_unicst_verify;
	/*
	 * mtops_multicst_verify() returns 0 if the given address is a
	 * valid multicast address, or a non-zero errno otherwise.  If the
	 * media doesn't support multicast, ENOTSUP should be returned (for
	 * example).
	 */
	mtops_addr_verify_t	mtops_multicst_verify;
	/*
	 * mtops_sap_verify() returns B_TRUE if the given SAP is a valid
	 * SAP value, or B_FALSE otherwise.
	 */
	mtops_sap_verify_t	mtops_sap_verify;
	/*
	 * mtops_header() is used to allocate and construct a MAC header.
	 */
	mtops_header_t		mtops_header;
	/*
	 * mtops_header_info() is used to gather information on a given MAC
	 * header.
	 */
	mtops_header_info_t	mtops_header_info;
	/*
	 * mtops_pdata_verify() is used to verify the validity of MAC
	 * plugin data.  It is called by mac_register() if the driver has
	 * supplied MAC plugin data, and also by mac_pdata_update() when
	 * drivers update the data.
	 */
	mtops_pdata_verify_t	mtops_pdata_verify;
	/*
	 * mtops_header_cook() is an optional callback that converts (or
	 * "cooks") the given raw header (as sent by a raw DLPI consumer)
	 * into one that is appropriate to send down to the MAC driver.
	 * Following the example above, an Ethernet header sent down by a
	 * DLPI consumer would be converted to whatever header the MAC
	 * driver expects.
	 */
	mtops_header_modify_t	mtops_header_cook;
	/*
	 * mtops_header_uncook() is an optional callback that does the
	 * opposite of mtops_header_cook().  It "uncooks" a given MAC
	 * header (as received from the driver) for consumption by raw DLPI
	 * consumers.  For example, for a non-Ethernet plugin that wants
	 * raw DLPI consumers to be fooled into thinking that the device
	 * provides Ethernet access, this callback would modify the given
	 * mblk_t such that the MAC header is converted to an Ethernet
	 * header.
	 */
	mtops_header_modify_t	mtops_header_uncook;
	/*
	 * mtops_link_details() is an optional callback that provides
	 * extended information about the link state.  Its primary purpose
	 * is to provide type-specific support for syslog contents on
	 * link up events.  If no implementation is provided, then a default
	 * implementation will be used.
	 */
	mtops_link_details_t	mtops_link_details;
} mactype_ops_t;

/*
 * mtops_ops exists for the plugin to enumerate the optional callback
 * entrypoints it has defined.  This allows the mac module to define
 * additional plugin entrypoints in mactype_ops_t without breaking backward
 * compatibility with old plugins.
 */
#define	MTOPS_PDATA_VERIFY	0x001
#define	MTOPS_HEADER_COOK	0x002
#define	MTOPS_HEADER_UNCOOK	0x004
#define	MTOPS_LINK_DETAILS	0x008

/*
 * Provide mapping for legacy ndd ioctls relevant to that mactype.
 * Note that the ndd ioctls are obsolete, and may be removed in a future
 * release of Solaris. The ndd ioctls are not typically used in legacy
 * ethernet drivers. New datalink drivers of all link-types should use
 * dladm(1m) interfaces for administering tunables and not have to provide
 * a mapping.
 */
typedef struct mac_ndd_mapping_s {
	char		*mp_name;
	union {
		mac_prop_id_t   u_id;
		uint_t		u_kstat;
	} u_mp_id;
	long		mp_minval;
	long		mp_maxval;
	size_t		mp_valsize;
	int		mp_flags;
} mac_ndd_mapping_t;

#define	mp_prop_id	u_mp_id.u_id
#define	mp_kstat	u_mp_id.u_kstat

/*
 * Flags to figure out r/w status of legacy ndd props.
 */
#define	MAC_PROP_PERM_READ		0x0001
#define	MAC_PROP_PERM_WRITE		0x0010
#define	MAC_PROP_MAP_KSTAT		0x0100
#define	MAC_PROP_PERM_RW		(MAC_PROP_PERM_READ|MAC_PROP_PERM_WRITE)
#define	MAC_PROP_FLAGS_RK		(MAC_PROP_PERM_READ|MAC_PROP_MAP_KSTAT)

typedef struct mactype_register_s {
	uint_t		mtr_version;	/* set by mactype_alloc() */
	const char	*mtr_ident;
	mactype_ops_t	*mtr_ops;
	uint_t		mtr_mactype;
	uint_t		mtr_nativetype;
	uint_t		mtr_addrlen;
	uint8_t		*mtr_brdcst_addr;
	mac_stat_info_t	*mtr_stats;
	size_t		mtr_statcount;
	mac_ndd_mapping_t *mtr_mapping;
	size_t		mtr_mappingcount;
} mactype_register_t;

typedef struct mac_prop_s {
	mac_prop_id_t	mp_id;
	char		*mp_name;
	uint_t		mp_flags;
} mac_prop_t;

/*
 * Client interface functions.
 */
extern int			mac_open(const char *, mac_handle_t *);
extern int			mac_open_by_linkid(datalink_id_t,
				    mac_handle_t *);
extern int			mac_open_by_linkname(const char *,
				    mac_handle_t *);
extern void			mac_close(mac_handle_t);
extern const mac_info_t		*mac_info(mac_handle_t);
extern boolean_t		mac_info_get(const char *, mac_info_t *);
extern uint64_t			mac_stat_get(mac_handle_t, uint_t);
extern int			mac_start(mac_handle_t);
extern void			mac_stop(mac_handle_t);
extern int			mac_promisc_set(mac_handle_t, boolean_t,
				    mac_promisc_type_t);
extern boolean_t		mac_promisc_get(mac_handle_t,
				    mac_promisc_type_t);
extern int 			mac_multicst_add(mac_handle_t, const uint8_t *);
extern int 			mac_multicst_remove(mac_handle_t,
				    const uint8_t *);
extern boolean_t		mac_unicst_verify(mac_handle_t,
				    const uint8_t *, uint_t);
extern int			mac_unicst_set(mac_handle_t, const uint8_t *);
extern void			mac_unicst_get(mac_handle_t, uint8_t *);
extern void			mac_dest_get(mac_handle_t, uint8_t *);
extern void			mac_sdu_get(mac_handle_t, uint_t *, uint_t *);
extern void			mac_resources(mac_handle_t);
extern void			mac_ioctl(mac_handle_t, queue_t *, mblk_t *);
extern const mac_txinfo_t	*mac_tx_get(mac_handle_t);
extern const mac_txinfo_t	*mac_vnic_tx_get(mac_handle_t);
extern link_state_t		mac_link_get(mac_handle_t);
extern mac_notify_handle_t	mac_notify_add(mac_handle_t, mac_notify_t,
				    void *);
extern void			mac_notify_remove(mac_handle_t,
				    mac_notify_handle_t);
extern void			mac_notify(mac_handle_t);
extern mac_rx_handle_t		mac_rx_add(mac_handle_t, mac_rx_t, void *);
extern mac_rx_handle_t		mac_active_rx_add(mac_handle_t, mac_rx_t,
				    void *);
extern void			mac_rx_remove(mac_handle_t, mac_rx_handle_t,
				    boolean_t);
extern void			mac_rx_remove_wait(mac_handle_t);
extern mblk_t			*mac_txloop(void *, mblk_t *);
extern mac_txloop_handle_t	mac_txloop_add(mac_handle_t, mac_txloop_t,
				    void *);
extern void			mac_txloop_remove(mac_handle_t,
				    mac_txloop_handle_t);
extern boolean_t		mac_active_set(mac_handle_t);
extern boolean_t		mac_active_shareable_set(mac_handle_t);
extern void			mac_active_clear(mac_handle_t);
extern void			mac_active_rx(void *, mac_resource_handle_t,
				    mblk_t *);
extern boolean_t		mac_vnic_set(mac_handle_t, mac_txinfo_t *,
				    mac_getcapab_t, void *);
extern void			mac_vnic_clear(mac_handle_t);
extern void			mac_resource_set(mac_handle_t,
				    mac_resource_add_t, void *);
extern dev_info_t		*mac_devinfo_get(mac_handle_t);
extern const char		*mac_name(mac_handle_t);
extern minor_t			mac_minor(mac_handle_t);
extern boolean_t		mac_capab_get(mac_handle_t, mac_capab_t,
				    void *);
extern boolean_t		mac_vnic_capab_get(mac_handle_t, mac_capab_t,
				    void *);
extern boolean_t		mac_sap_verify(mac_handle_t, uint32_t,
				    uint32_t *);
extern mblk_t			*mac_header(mac_handle_t, const uint8_t *,
				    uint32_t, mblk_t *, size_t);
extern int			mac_header_info(mac_handle_t, mblk_t *,
				    mac_header_info_t *);
extern mblk_t			*mac_header_cook(mac_handle_t, mblk_t *);
extern mblk_t			*mac_header_uncook(mac_handle_t, mblk_t *);
extern minor_t			mac_minor_hold(boolean_t);
extern void			mac_minor_rele(minor_t);

/*
 * Driver interface functions.
 */
extern mac_register_t		*mac_alloc(uint_t);
extern void			mac_free(mac_register_t *);
extern int			mac_register(mac_register_t *, mac_handle_t *);
extern int			mac_disable(mac_handle_t);
extern int  			mac_unregister(mac_handle_t);
extern void 			mac_rx(mac_handle_t, mac_resource_handle_t,
				    mblk_t *);
extern void 			mac_link_update(mac_handle_t, link_state_t);
extern void 			mac_unicst_update(mac_handle_t,
				    const uint8_t *);
extern void			mac_tx_update(mac_handle_t);
extern void			mac_resource_update(mac_handle_t);
extern mac_resource_handle_t	mac_resource_add(mac_handle_t,
				    mac_resource_t *);
extern int			mac_maxsdu_update(mac_handle_t, uint_t);
extern int			mac_pdata_update(mac_handle_t, void *,
				    size_t);
extern void			mac_multicst_refresh(mac_handle_t,
				    mac_multicst_t, void *, boolean_t);
extern void			mac_unicst_refresh(mac_handle_t, mac_unicst_t,
				    void *);
extern void			mac_promisc_refresh(mac_handle_t,
				    mac_setpromisc_t, void *);
extern boolean_t		mac_margin_update(mac_handle_t, uint32_t);
extern void			mac_margin_get(mac_handle_t, uint32_t *);
extern int			mac_margin_remove(mac_handle_t, uint32_t);
extern int			mac_margin_add(mac_handle_t, uint32_t *,
				    boolean_t);
extern void			mac_init_ops(struct dev_ops *, const char *);
extern void			mac_fini_ops(struct dev_ops *);
extern uint32_t			mac_no_notification(mac_handle_t);
extern boolean_t		mac_is_legacy(mac_handle_t);
extern int			mac_hold_exclusive(mac_handle_t);
extern void			mac_rele_exclusive(mac_handle_t);

extern mactype_register_t	*mactype_alloc(uint_t);
extern void			mactype_free(mactype_register_t *);
extern int			mactype_register(mactype_register_t *);
extern int			mactype_unregister(const char *);
extern int			mac_set_prop(mac_handle_t, mac_prop_t *,
    void *, uint_t);
extern int			mac_get_prop(mac_handle_t, mac_prop_t *,
    void *, uint_t);

#endif	/* _KERNEL */

#ifdef	__cplusplus
}
#endif

#endif /* _SYS_MAC_H */