/* * 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 (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2018, Joyent, Inc. * Copyright 2020 RackTop Systems, Inc. * Copyright 2023 Oxide Computer Company */ #ifndef _SYS_MAC_PROVIDER_H #define _SYS_MAC_PROVIDER_H #include #include #include #include #include #include #include /* * MAC Provider Interface */ #ifdef __cplusplus extern "C" { #endif /* * MAC version identifiers. Drivers compiled against the stable V1 version * of the API should register with MAC_VERSION_V1. ON drivers should use * MAC_VERSION. This is used by mac_alloc() mac_register() to * verify that incompatible drivers don't register. */ #define MAC_VERSION_V1 0x1 #define MAC_VERSION MAC_VERSION_V1 /* * Possible values for ETHER_STAT_XCVR_INUSE statistic. */ #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 #ifdef _KERNEL /* * Definitions for MAC Drivers Capabilities */ /* * 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 { /* * Public Capabilities (MAC_VERSION_V1) */ MAC_CAPAB_HCKSUM = 0x00000001, /* data is a uint32_t */ MAC_CAPAB_LSO = 0x00000008, /* data is mac_capab_lso_t */ /* * Reserved capabilities, do not use */ MAC_CAPAB_RESERVED1 = 0x00000002, MAC_CAPAB_RESERVED2 = 0x00000004, /* * Private driver capabilities */ MAC_CAPAB_RINGS = 0x00000010, /* data is mac_capab_rings_t */ MAC_CAPAB_SHARES = 0x00000020, /* data is mac_capab_share_t */ MAC_CAPAB_MULTIFACTADDR = 0x00000040, /* mac_data_multifactaddr_t */ /* * Private driver capabilities for use by the GLDv3 framework only */ MAC_CAPAB_VNIC = 0x00010000, /* data is mac_capab_vnic_t */ MAC_CAPAB_ANCHOR_VNIC = 0x00020000, /* boolean only, no data */ MAC_CAPAB_AGGR = 0x00040000, /* data is mac_capab_aggr_t */ MAC_CAPAB_NO_NATIVEVLAN = 0x00080000, /* boolean only, no data */ MAC_CAPAB_NO_ZCOPY = 0x00100000, /* boolean only, no data */ MAC_CAPAB_LEGACY = 0x00200000, /* data is mac_capab_legacy_t */ MAC_CAPAB_VRRP = 0x00400000, /* data is mac_capab_vrrp_t */ MAC_CAPAB_OVERLAY = 0x00800000, /* boolean only, no data */ MAC_CAPAB_TRANSCEIVER = 0x01000000, /* mac_capab_transceiver_t */ MAC_CAPAB_LED = 0x02000000 /* data is mac_capab_led_t */ } mac_capab_t; /* * LSO capability */ typedef struct lso_basic_tcp_ipv4_s { t_uscalar_t lso_max; /* maximum payload */ } lso_basic_tcp_ipv4_t; typedef struct lso_basic_tcp_ipv6_s { t_uscalar_t lso_max; /* maximum payload */ } lso_basic_tcp_ipv6_t; /* * Currently supported flags for LSO. */ #define LSO_TX_BASIC_TCP_IPV4 0x01 /* TCPv4 LSO capability */ #define LSO_TX_BASIC_TCP_IPV6 0x02 /* TCPv6 LSO capability */ /* * 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; lso_basic_tcp_ipv6_t lso_basic_tcp_ipv6; /* Add future lso capabilities here */ } mac_capab_lso_t; /* * Multiple Factory MAC Addresses Capability */ typedef struct mac_capab_multifactaddr_s { /* * Number of factory addresses */ uint_t mcm_naddr; /* * Callbacks to query all the factory addresses. */ void (*mcm_getaddr)(void *, uint_t, uint8_t *); } mac_capab_multifactaddr_t; /* * Info and callbacks of 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; boolean_t (*ml_active_set)(void *); void (*ml_active_clear)(void *); int (*ml_fastpath_disable)(void *); void (*ml_fastpath_enable)(void *); } mac_capab_legacy_t; typedef struct __mac_prop_info_handle *mac_prop_info_handle_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, void *); typedef void (*mac_prop_info_t)(void *, const char *, mac_prop_id_t, mac_prop_info_handle_t); /* * Driver callbacks. The following capabilities are optional, and if * implemented by the driver, must have a corresponding MC_ flag set * in the mc_callbacks field. * * 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 */ void *mc_reserved; /* Reserved, do not use */ 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_prop_info_t mc_propinfo; } mac_callbacks_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_RESERVED 0x0001 #define MC_IOCTL 0x0002 #define MC_GETCAPAB 0x0004 #define MC_OPEN 0x0008 #define MC_CLOSE 0x0010 #define MC_SETPROP 0x0020 #define MC_GETPROP 0x0040 #define MC_PROPINFO 0x0080 #define MC_PROPERTIES (MC_SETPROP | MC_GETPROP | MC_PROPINFO) /* * Virtualization Capabilities */ /* * The type of ring classification. This is used by MAC to determine * what, if any, processing it has to do upon receiving traffic on a * particular Rx ring. * * MAC_NO_CLASSIFIER * * No classification has been set. No traffic should cross an Rx * ring in this state. * * MAC_SW_CLASSIFIER * * The driver delivers traffic for multiple clients to this ring. * All traffic must be software classified by MAC to guarantee * delivery to the correct client. This classification type may * be chosen for several reasons. * * o The driver provides only one group and there are multiple * clients using the MAC. * * o The driver provides some hardware filtering but not enough * to fully classify the traffic. E.g., a VLAN VNIC requires L2 * unicast address filtering as well as VLAN filtering, but * some drivers may only support the former. * * o The ring belongs to the default group. The default group * acts as a spillover for all clients that can't reserve an * exclusive group. It also handles multicast traffic for all * clients. For these reasons, the default group's rings are * always software classified. * * MAC_HW_CLASSIFIER * * The driver delivers traffic for a single MAC client across * this ring. With this guarantee, MAC can simply pass the * traffic up the stack or even allow polling of the ring. * * MAC_PASSTHRU_CLASSIFIER * * The ring is in "passthru" mode. In this mode we bypass all of * the typical MAC processing and pass the traffic directly to * the mr_pt_fn callback, see mac_rx_common(). This is used in * cases where there is another module acting as MAC provider on * behalf of the driver. E.g., link aggregations use this mode to * take full control of the port's rings; allowing it to enforce * LACP protocols and aggregate rings across discrete drivers. */ typedef enum { MAC_NO_CLASSIFIER = 0, MAC_SW_CLASSIFIER, MAC_HW_CLASSIFIER, MAC_PASSTHRU_CLASSIFIER } mac_classify_type_t; typedef void (*mac_rx_func_t)(void *, mac_resource_handle_t, mblk_t *, boolean_t); /* * The virtualization level conveys the extent of the NIC hardware assistance * for traffic steering employed for virtualization: * * MAC_VIRT_NONE: No assist for v12n. * * MAC_VIRT_LEVEL1: Multiple Rx rings with MAC address level * classification between groups of rings. * Requires the support of the MAC_CAPAB_RINGS * capability. * * MAC_VIRT_HIO: Hybrid I/O capable MAC. Require the support * of the MAC_CAPAB_SHARES capability. */ #define MAC_VIRT_NONE 0x0 #define MAC_VIRT_LEVEL1 0x1 #define MAC_VIRT_HIO 0x2 typedef enum { MAC_RING_TYPE_RX = 1, /* Receive ring */ MAC_RING_TYPE_TX /* Transmit ring */ } mac_ring_type_t; /* * The value VLAN_ID_NONE (VID 0) means a client does not have * membership to any VLAN. However, this statement is true for both * untagged packets and priority tagged packets leading to confusion * over what semantic is intended. To the provider, VID 0 is a valid * VID when priority tagging is in play. To MAC and everything above * VLAN_ID_NONE almost universally implies untagged traffic. Thus, we * convert VLAN_ID_NONE to a sentinel value (MAC_VLAN_UNTAGGED) at the * border between MAC and MAC provider. This informs the provider that * the client is interested in untagged traffic and the provider * should set any relevant bits to receive such traffic. * * Currently, the API between MAC and the provider passes the VID as a * unit16_t. In the future this could actually be the entire TCI mask * (PCP, DEI, and VID). This current scheme is safe in that potential * future world as well; as 0xFFFF is not a valid TCI (the 0xFFF VID * is reserved and never transmitted across networks). */ #define MAC_VLAN_UNTAGGED UINT16_MAX #define MAC_VLAN_UNTAGGED_VID(vid) \ (((vid) == VLAN_ID_NONE) ? MAC_VLAN_UNTAGGED : (vid)) /* * 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 /* Dynamic ring group */ } mac_group_type_t; typedef struct __mac_ring_driver *mac_ring_driver_t; typedef struct __mac_group_driver *mac_group_driver_t; typedef struct mac_ring_info_s mac_ring_info_t; typedef struct mac_group_info_s mac_group_info_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: Rx vs Tx */ mac_group_type_t mr_group_type; /* Dynamic vs static grouping */ 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_gaddring; /* Add ring into a group */ mac_group_rem_ring_t mr_gremring; /* 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, uint64_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 int (*mac_ring_stat_t)(mac_ring_driver_t, uint_t, uint64_t *); typedef struct mac_ring_info_s { mac_ring_driver_t mri_driver; mac_ring_start_t mri_start; mac_ring_stop_t mri_stop; mac_intr_t mri_intr; union { mac_ring_send_t send; mac_ring_poll_t poll; } mrfunion; mac_ring_stat_t mri_stat; /* * mri_flags will have some bits set to indicate some special * property/feature of a ring like serialization needed for a * Tx ring or packets should always need enqueuing on Rx side, * etc. */ uint_t mri_flags; } mac_ring_info_s; #define mri_tx mrfunion.send #define mri_poll mrfunion.poll /* * #defines for mri_flags. The flags are temporary flags that are provided * only to workaround issues in specific drivers, and they will be * removed in the future. * * These are consumed only by sun4v and neptune (nxge). */ #define MAC_RING_TX_SERIALIZE 0x1 #define MAC_RING_RX_ENQUEUE 0x2 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 *); typedef int (*mac_add_vlan_filter_t)(mac_group_driver_t, uint16_t); typedef int (*mac_rem_vlan_filter_t)(mac_group_driver_t, uint16_t); struct mac_group_info_s { mac_group_driver_t mgi_driver; /* Driver reference */ mac_group_start_t mgi_start; /* Start the group */ mac_group_stop_t mgi_stop; /* Stop the group */ uint_t mgi_count; /* Count of rings */ mac_intr_t mgi_intr; /* Optional per-group intr */ /* Only used for Rx groups */ mac_add_mac_addr_t mgi_addmac; /* Add a MAC address */ mac_rem_mac_addr_t mgi_remmac; /* Remove a MAC address */ mac_add_vlan_filter_t mgi_addvlan; /* Add a VLAN filter */ mac_rem_vlan_filter_t mgi_remvlan; /* Remove a VLAN filter */ }; /* * Share management functions. */ typedef uint64_t mac_share_handle_t; /* * Allocate and free a share. Returns ENOSPC if all shares have been * previously allocated. */ typedef int (*mac_alloc_share_t)(void *, mac_share_handle_t *); typedef void (*mac_free_share_t)(mac_share_handle_t); /* * Bind and unbind a share. Binding a share allows a domain * to have direct access to the groups and rings associated with * that share. */ typedef int (*mac_bind_share_t)(mac_share_handle_t, uint64_t, uint64_t *); typedef void (*mac_unbind_share_t)(mac_share_handle_t); /* * Return information on about a share. */ typedef void (*mac_share_query_t)(mac_share_handle_t, mac_ring_type_t, mac_ring_handle_t *, uint_t *); /* * 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 groups and their rings will be shared with the guest * as soon as the share is bound. */ typedef int (*mac_share_add_group_t)(mac_share_handle_t, mac_group_driver_t); typedef int (*mac_share_rem_group_t)(mac_share_handle_t, mac_group_driver_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_bind_share_t ms_sbind; /* Bind a share */ mac_unbind_share_t ms_sunbind; /* Unbind a share */ } mac_capab_share_t; typedef struct mac_capab_vrrp_s { /* IPv6 or IPv4? */ int mcv_af; } mac_capab_vrrp_t; /* * Transceiver capability */ typedef struct mac_transceiver_info mac_transceiver_info_t; typedef struct mac_capab_transceiver { uint_t mct_flags; uint_t mct_ntransceivers; int (*mct_info)(void *, uint_t, mac_transceiver_info_t *); int (*mct_read)(void *, uint_t, uint_t, void *, size_t, off_t, size_t *); } mac_capab_transceiver_t; /* * LED capability */ typedef struct mac_capab_led { uint_t mcl_flags; mac_led_mode_t mcl_modes; int (*mcl_set)(void *, mac_led_mode_t, uint_t); } mac_capab_led_t; /* * MAC registration interface */ 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; char **m_priv_props; uint32_t m_margin; uint32_t m_v12n; /* Virtualization level */ uint_t m_multicast_sdu; } mac_register_t; /* * Driver interface functions. */ extern mac_protect_t *mac_protect_get(mac_handle_t); extern void mac_sdu_get(mac_handle_t, uint_t *, uint_t *); extern void mac_sdu_get2(mac_handle_t, uint_t *, uint_t *, uint_t *); extern int mac_maxsdu_update(mac_handle_t, uint_t); extern int mac_maxsdu_update2(mac_handle_t, uint_t, uint_t); 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_nowait(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_rx_ring(mac_handle_t, mac_ring_handle_t, mblk_t *, uint64_t); extern void mac_link_update(mac_handle_t, link_state_t); extern void mac_link_redo(mac_handle_t, link_state_t); extern void mac_unicst_update(mac_handle_t, const uint8_t *); extern void mac_dst_update(mac_handle_t, const uint8_t *); extern void mac_tx_update(mac_handle_t); extern void mac_tx_ring_update(mac_handle_t, mac_ring_handle_t); extern void mac_capab_update(mac_handle_t); extern int mac_pdata_update(mac_handle_t, void *, size_t); extern void mac_multicast_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 int mac_devt_to_instance(dev_t); extern int mac_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); extern minor_t mac_private_minor(void); extern void mac_ring_intr_set(mac_ring_handle_t, ddi_intr_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 boolean_t mac_unicst_verify(mac_handle_t, const uint8_t *, uint_t); extern int mac_group_add_ring(mac_group_handle_t, int); extern void mac_group_rem_ring(mac_group_handle_t, mac_ring_handle_t); extern mac_ring_handle_t mac_find_ring(mac_group_handle_t, int); extern void mac_prop_info_set_default_uint8( mac_prop_info_handle_t, uint8_t); extern void mac_prop_info_set_default_str( mac_prop_info_handle_t, const char *); extern void mac_prop_info_set_default_uint64( mac_prop_info_handle_t, uint64_t); extern void mac_prop_info_set_default_uint32( mac_prop_info_handle_t, uint32_t); extern void mac_prop_info_set_default_link_flowctrl( mac_prop_info_handle_t, link_flowctrl_t); extern void mac_prop_info_set_default_fec( mac_prop_info_handle_t, link_fec_t); extern void mac_prop_info_set_range_uint32( mac_prop_info_handle_t, uint32_t, uint32_t); extern void mac_prop_info_set_perm(mac_prop_info_handle_t, uint8_t); extern void mac_hcksum_get(const mblk_t *, uint32_t *, uint32_t *, uint32_t *, uint32_t *, uint32_t *); extern void mac_hcksum_set(mblk_t *, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t); extern void mac_hcksum_clone(const mblk_t *, mblk_t *); extern void mac_lso_get(mblk_t *, uint32_t *, uint32_t *); extern void mac_transceiver_info_set_present( mac_transceiver_info_t *, boolean_t); extern void mac_transceiver_info_set_usable( mac_transceiver_info_t *, boolean_t); /* * This represents a provisional set of currently illumos-private APIs to get * information about a mblk_t chain's type. This is an evolving interface. */ typedef enum mac_ether_offload_flags { MEOI_L2INFO_SET = 1 << 0, MEOI_VLAN_TAGGED = 1 << 1, MEOI_L3INFO_SET = 1 << 2, MEOI_L4INFO_SET = 1 << 3 } mac_ether_offload_flags_t; typedef struct mac_ether_offload_info { mac_ether_offload_flags_t meoi_flags; /* What's valid? */ size_t meoi_len; /* Total message length */ uint8_t meoi_l2hlen; /* How long is the Ethernet header? */ uint16_t meoi_l3proto; /* What's the Ethertype */ uint8_t meoi_l3hlen; /* How long is the header? */ uint8_t meoi_l4proto; /* What is the payload type? */ uint8_t meoi_l4hlen; /* How long is the L4 header */ } mac_ether_offload_info_t; extern int mac_ether_offload_info(mblk_t *, mac_ether_offload_info_t *); #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_MAC_PROVIDER_H */