/* * 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) 2005, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2014, Joyent, Inc. All rights reserved. */ #ifndef _SYS_MAC_IMPL_H #define _SYS_MAC_IMPL_H #include #include #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * This is the first minor number available for MAC provider private * use. This makes it possible to deliver a driver that is both a MAC * provider and a regular character/block device. See PSARC 2009/380 * for more detail about the construction of such devices. The value * chosen leaves half of the 32-bit minor numbers (which are really * only 18 bits wide) available for driver private use. Drivers can * easily identify their private number by the presence of this value * in the bits that make up the minor number, since its just the * highest bit available for such minor numbers. */ #define MAC_PRIVATE_MINOR ((MAXMIN32 + 1) / 2) /* * The maximum minor number that corresponds to a real instance. This * limits the number of physical ports that a mac provider can offer. * Note that this macro must be synchronized with DLS_MAX_MINOR in * */ #define MAC_MAX_MINOR 1000 typedef struct mac_margin_req_s mac_margin_req_t; struct mac_margin_req_s { mac_margin_req_t *mmr_nextp; uint_t mmr_ref; uint32_t mmr_margin; }; typedef struct mac_mtu_req_s mac_mtu_req_t; struct mac_mtu_req_s { mac_mtu_req_t *mtr_nextp; uint_t mtr_ref; uint32_t mtr_mtu; }; /* Generic linked chain type */ typedef struct mac_chain_s { struct mac_chain_s *next; void *item; } mac_chain_t; /* * Generic mac callback list manipulation structures and macros. The mac_cb_t * represents a general callback list element embedded in a particular * data structure such as a mac_notify_cb_t or a mac_promisc_impl_t. * The mac_cb_info_t represents general information about list walkers. * Please see the comments above mac_callback_add for more information. */ /* mcb_flags */ #define MCB_CONDEMNED 0x1 /* Logically deleted */ #define MCB_NOTIFY_CB_T 0x2 #define MCB_TX_NOTIFY_CB_T 0x4 extern boolean_t mac_tx_serialize; typedef struct mac_cb_s { struct mac_cb_s *mcb_nextp; /* Linked list of callbacks */ void *mcb_objp; /* Ptr to enclosing object */ size_t mcb_objsize; /* Sizeof the enclosing obj */ uint_t mcb_flags; } mac_cb_t; typedef struct mac_cb_info_s { kmutex_t *mcbi_lockp; kcondvar_t mcbi_cv; uint_t mcbi_del_cnt; /* Deleted callback cnt */ uint_t mcbi_walker_cnt; /* List walker count */ } mac_cb_info_t; typedef struct mac_notify_cb_s { mac_cb_t mncb_link; /* Linked list of callbacks */ mac_notify_t mncb_fn; /* callback function */ void *mncb_arg; /* callback argument */ struct mac_impl_s *mncb_mip; } mac_notify_cb_t; /* * mac_callback_add(listinfo, listhead, listelement) * mac_callback_remove(listinfo, listhead, listelement) */ typedef boolean_t (*mcb_func_t)(mac_cb_info_t *, mac_cb_t **, mac_cb_t *); #define MAC_CALLBACK_WALKER_INC(mcbi) { \ mutex_enter((mcbi)->mcbi_lockp); \ (mcbi)->mcbi_walker_cnt++; \ mutex_exit((mcbi)->mcbi_lockp); \ } #define MAC_CALLBACK_WALKER_INC_HELD(mcbi) (mcbi)->mcbi_walker_cnt++; #define MAC_CALLBACK_WALKER_DCR(mcbi, headp) { \ mac_cb_t *rmlist; \ \ mutex_enter((mcbi)->mcbi_lockp); \ if (--(mcbi)->mcbi_walker_cnt == 0 && (mcbi)->mcbi_del_cnt != 0) { \ rmlist = mac_callback_walker_cleanup((mcbi), headp); \ mac_callback_free(rmlist); \ cv_broadcast(&(mcbi)->mcbi_cv); \ } \ mutex_exit((mcbi)->mcbi_lockp); \ } #define MAC_PROMISC_WALKER_INC(mip) \ MAC_CALLBACK_WALKER_INC(&(mip)->mi_promisc_cb_info) #define MAC_PROMISC_WALKER_DCR(mip) { \ mac_cb_info_t *mcbi; \ \ mcbi = &(mip)->mi_promisc_cb_info; \ mutex_enter(mcbi->mcbi_lockp); \ if (--mcbi->mcbi_walker_cnt == 0 && mcbi->mcbi_del_cnt != 0) { \ i_mac_promisc_walker_cleanup(mip); \ cv_broadcast(&mcbi->mcbi_cv); \ } \ mutex_exit(mcbi->mcbi_lockp); \ } typedef struct mactype_s { const char *mt_ident; uint32_t mt_ref; uint_t mt_type; uint_t mt_nativetype; size_t mt_addr_length; uint8_t *mt_brdcst_addr; mactype_ops_t mt_ops; mac_stat_info_t *mt_stats; /* array of mac_stat_info_t elements */ size_t mt_statcount; /* number of elements in mt_stats */ mac_ndd_mapping_t *mt_mapping; size_t mt_mappingcount; } mactype_t; /* * Multiple rings implementation. */ typedef enum { MAC_GROUP_STATE_UNINIT = 0, /* initial state of data structure */ MAC_GROUP_STATE_REGISTERED, /* hooked with h/w group */ MAC_GROUP_STATE_RESERVED, /* group is reserved and opened */ MAC_GROUP_STATE_SHARED /* default group shared among */ /* multiple mac clients */ } mac_group_state_t; typedef struct mac_ring_s mac_ring_t; typedef struct mac_group_s mac_group_t; /* * Ring data structure for ring control and management. */ typedef enum { MR_FREE, /* Available for assignment to flows */ MR_NEWLY_ADDED, /* Just assigned to another group */ MR_INUSE /* Assigned to an SRS */ } mac_ring_state_t; /* mr_flag values */ #define MR_INCIPIENT 0x1 #define MR_CONDEMNED 0x2 #define MR_QUIESCE 0x4 typedef struct mac_impl_s mac_impl_t; struct mac_ring_s { int mr_index; /* index in the original list */ mac_ring_type_t mr_type; /* ring type */ mac_ring_t *mr_next; /* next ring in the chain */ mac_group_handle_t mr_gh; /* reference to group */ mac_classify_type_t mr_classify_type; /* HW vs SW */ struct mac_soft_ring_set_s *mr_srs; /* associated SRS */ mac_ring_handle_t mr_prh; /* associated pseudo ring hdl */ uint_t mr_refcnt; /* Ring references */ /* ring generation no. to guard against drivers using stale rings */ uint64_t mr_gen_num; kstat_t *mr_ksp; /* ring kstats */ mac_impl_t *mr_mip; /* pointer to primary's mip */ kmutex_t mr_lock; kcondvar_t mr_cv; /* mr_lock */ mac_ring_state_t mr_state; /* mr_lock */ uint_t mr_flag; /* mr_lock */ mac_ring_info_t mr_info; /* driver supplied info */ }; #define mr_driver mr_info.mri_driver #define mr_start mr_info.mri_start #define mr_stop mr_info.mri_stop #define mr_stat mr_info.mri_stat #define MAC_RING_MARK(mr, flag) \ (mr)->mr_flag |= flag; #define MAC_RING_UNMARK(mr, flag) \ (mr)->mr_flag &= ~flag; /* * Reference hold and release on mac_ring_t 'mr' */ #define MR_REFHOLD_LOCKED(mr) { \ ASSERT(MUTEX_HELD(&mr->mr_lock)); \ (mr)->mr_refcnt++; \ } #define MR_REFRELE(mr) { \ mutex_enter(&(mr)->mr_lock); \ ASSERT((mr)->mr_refcnt != 0); \ (mr)->mr_refcnt--; \ if ((mr)->mr_refcnt == 0 && \ ((mr)->mr_flag & (MR_CONDEMNED | MR_QUIESCE))) \ cv_signal(&(mr)->mr_cv); \ mutex_exit(&(mr)->mr_lock); \ } /* * Per mac client flow information associated with a RX group. * The entire structure is SL protected. */ typedef struct mac_grp_client { struct mac_grp_client *mgc_next; struct mac_client_impl_s *mgc_client; } mac_grp_client_t; #define MAC_GROUP_NO_CLIENT(g) ((g)->mrg_clients == NULL) #define MAC_GROUP_ONLY_CLIENT(g) \ ((((g)->mrg_clients != NULL) && \ ((g)->mrg_clients->mgc_next == NULL)) ? \ (g)->mrg_clients->mgc_client : NULL) /* * Common ring group data structure for ring control and management. * The entire structure is SL protected */ struct mac_group_s { int mrg_index; /* index in the list */ mac_ring_type_t mrg_type; /* ring type */ mac_group_state_t mrg_state; /* state of the group */ mac_group_t *mrg_next; /* next ring in the chain */ mac_handle_t mrg_mh; /* reference to MAC */ mac_ring_t *mrg_rings; /* grouped rings */ uint_t mrg_cur_count; /* actual size of group */ mac_grp_client_t *mrg_clients; /* clients list */ mac_group_info_t mrg_info; /* driver supplied info */ }; #define mrg_driver mrg_info.mgi_driver #define mrg_start mrg_info.mgi_start #define mrg_stop mrg_info.mgi_stop #define GROUP_INTR_HANDLE(g) (g)->mrg_info.mgi_intr.mi_handle #define GROUP_INTR_ENABLE_FUNC(g) (g)->mrg_info.mgi_intr.mi_enable #define GROUP_INTR_DISABLE_FUNC(g) (g)->mrg_info.mgi_intr.mi_disable #define MAC_RING_TX(mhp, rh, mp, rest) { \ mac_ring_handle_t mrh = rh; \ mac_impl_t *mimpl = (mac_impl_t *)mhp; \ /* \ * Send packets through a selected tx ring, or through the \ * default handler if there is no selected ring. \ */ \ if (mrh == NULL) \ mrh = mimpl->mi_default_tx_ring; \ if (mrh == NULL) { \ rest = mimpl->mi_tx(mimpl->mi_driver, mp); \ } else { \ rest = mac_hwring_tx(mrh, mp); \ } \ } /* * This is the final stop before reaching the underlying driver * or aggregation, so this is where the bridging hook is implemented. * Packets that are bridged will return through mac_bridge_tx(), with * rh nulled out if the bridge chooses to send output on a different * link due to forwarding. */ #define MAC_TX(mip, rh, mp, src_mcip) { \ mac_ring_handle_t rhandle = (rh); \ /* \ * If there is a bound Hybrid I/O share, send packets through \ * the default tx ring. (When there's a bound Hybrid I/O share, \ * the tx rings of this client are mapped in the guest domain \ * and not accessible from here.) \ */ \ _NOTE(CONSTANTCONDITION) \ if ((src_mcip)->mci_state_flags & MCIS_SHARE_BOUND) \ rhandle = (mip)->mi_default_tx_ring; \ if (mip->mi_promisc_list != NULL) \ mac_promisc_dispatch(mip, mp, src_mcip); \ /* \ * Grab the proper transmit pointer and handle. Special \ * optimization: we can test mi_bridge_link itself atomically, \ * and if that indicates no bridge send packets through tx ring.\ */ \ if (mip->mi_bridge_link == NULL) { \ MAC_RING_TX(mip, rhandle, mp, mp); \ } else { \ mp = mac_bridge_tx(mip, rhandle, mp); \ } \ } /* mci_tx_flag */ #define MCI_TX_QUIESCE 0x1 typedef struct mac_factory_addr_s { boolean_t mfa_in_use; uint8_t mfa_addr[MAXMACADDRLEN]; struct mac_client_impl_s *mfa_client; } mac_factory_addr_t; typedef struct mac_mcast_addrs_s { struct mac_mcast_addrs_s *mma_next; uint8_t mma_addr[MAXMACADDRLEN]; int mma_ref; } mac_mcast_addrs_t; typedef enum { MAC_ADDRESS_TYPE_UNICAST_CLASSIFIED = 1, /* hardware steering */ MAC_ADDRESS_TYPE_UNICAST_PROMISC /* promiscuous mode */ } mac_address_type_t; typedef struct mac_address_s { mac_address_type_t ma_type; /* address type */ int ma_nusers; /* number of users */ /* of that address */ struct mac_address_s *ma_next; /* next address */ uint8_t ma_addr[MAXMACADDRLEN]; /* address value */ size_t ma_len; /* address length */ mac_group_t *ma_group; /* asscociated group */ mac_impl_t *ma_mip; /* MAC handle */ } mac_address_t; extern krwlock_t i_mac_impl_lock; extern mod_hash_t *i_mac_impl_hash; extern kmem_cache_t *i_mac_impl_cachep; extern uint_t i_mac_impl_count; /* * Each registered MAC is associated with a mac_impl_t structure. The * structure represents the undelying hardware, in terms of definition, * resources (transmit, receive rings etc.), callback functions etc. It * also holds the table of MAC clients that are configured on the device. * The table is used for classifying incoming packets in software. * * The protection scheme uses 2 elements, a coarse serialization mechanism * called perimeter and a finer traditional lock based scheme. More details * can be found in the big block comment in mac.c. * * The protection scheme for each member of the mac_impl_t is described below. * * Write Once Only (WO): Typically these don't change for the lifetime of the * data structure. For example something in mac_impl_t that stays the same * from mac_register to mac_unregister, or something in a mac_client_impl_t * that stays the same from mac_client_open to mac_client_close. * * Serializer (SL): Protected by the Serializer. All SLOP operations on a * mac endpoint go through the serializer. MTOPs don't care about reading * these fields atomically. * * Lock: Traditional mutex/rw lock. Modify operations still go through the * mac serializer, the lock helps synchronize readers with writers. */ struct mac_impl_s { krwlock_t mi_rw_lock; list_node_t mi_node; char mi_name[LIFNAMSIZ]; /* WO */ uint32_t mi_state_flags; void *mi_driver; /* Driver private, WO */ mac_info_t mi_info; /* WO */ mactype_t *mi_type; /* WO */ void *mi_pdata; /* WO */ size_t mi_pdata_size; /* WO */ mac_callbacks_t *mi_callbacks; /* WO */ dev_info_t *mi_dip; /* WO */ uint32_t mi_ref; /* i_mac_impl_lock */ uint_t mi_active; /* SL */ link_state_t mi_linkstate; /* none */ link_state_t mi_lowlinkstate; /* none */ link_state_t mi_lastlowlinkstate; /* none */ uint_t mi_devpromisc; /* SL */ uint8_t mi_addr[MAXMACADDRLEN]; /* mi_rw_lock */ uint8_t mi_dstaddr[MAXMACADDRLEN]; /* mi_rw_lock */ boolean_t mi_dstaddr_set; /* * The mac perimeter. All client initiated create/modify operations * on a mac end point go through this. */ kmutex_t mi_perim_lock; kthread_t *mi_perim_owner; /* mi_perim_lock */ uint_t mi_perim_ocnt; /* mi_perim_lock */ kcondvar_t mi_perim_cv; /* mi_perim_lock */ /* mac notification callbacks */ kmutex_t mi_notify_lock; mac_cb_info_t mi_notify_cb_info; /* mi_notify_lock */ mac_cb_t *mi_notify_cb_list; /* mi_notify_lock */ kthread_t *mi_notify_thread; /* mi_notify_lock */ uint_t mi_notify_bits; /* mi_notify_lock */ uint32_t mi_v12n_level; /* Virt'ion readiness */ /* * RX groups, ring capability * Fields of this block are SL protected. */ mac_group_type_t mi_rx_group_type; /* grouping type */ uint_t mi_rx_group_count; mac_group_t *mi_rx_groups; mac_group_t *mi_rx_donor_grp; uint_t mi_rxrings_rsvd; uint_t mi_rxrings_avail; uint_t mi_rxhwclnt_avail; uint_t mi_rxhwclnt_used; mac_capab_rings_t mi_rx_rings_cap; /* * TX groups and ring capability, SL Protected. */ mac_group_type_t mi_tx_group_type; /* grouping type */ uint_t mi_tx_group_count; uint_t mi_tx_group_free; mac_group_t *mi_tx_groups; mac_capab_rings_t mi_tx_rings_cap; uint_t mi_txrings_rsvd; uint_t mi_txrings_avail; uint_t mi_txhwclnt_avail; uint_t mi_txhwclnt_used; mac_ring_handle_t mi_default_tx_ring; /* * MAC address list. SL protected. */ mac_address_t *mi_addresses; /* * This MAC's table of sub-flows */ flow_tab_t *mi_flow_tab; /* WO */ kstat_t *mi_ksp; /* WO */ uint_t mi_kstat_count; /* WO */ uint_t mi_nactiveclients; /* SL */ /* for broadcast and multicast support */ struct mac_mcast_addrs_s *mi_mcast_addrs; /* mi_rw_lock */ struct mac_bcast_grp_s *mi_bcast_grp; /* mi_rw_lock */ uint_t mi_bcast_ngrps; /* mi_rw_lock */ /* list of MAC clients which opened this MAC */ struct mac_client_impl_s *mi_clients_list; /* mi_rw_lock */ uint_t mi_nclients; /* mi_rw_lock */ struct mac_client_impl_s *mi_single_active_client; /* mi_rw_lock */ uint32_t mi_margin; /* mi_rw_lock */ uint_t mi_sdu_min; /* mi_rw_lock */ uint_t mi_sdu_max; /* mi_rw_lock */ uint_t mi_sdu_multicast; /* mi_rw_lock */ /* * Cache of factory MAC addresses provided by the driver. If * the driver doesn't provide multiple factory MAC addresses, * the mi_factory_addr is set to NULL, and mi_factory_addr_num * is set to zero. */ mac_factory_addr_t *mi_factory_addr; /* mi_rw_lock */ uint_t mi_factory_addr_num; /* mi_rw_lock */ /* for promiscuous mode support */ kmutex_t mi_promisc_lock; mac_cb_t *mi_promisc_list; /* mi_promisc_lock */ mac_cb_info_t mi_promisc_cb_info; /* mi_promisc_lock */ /* cache of rings over this mac_impl */ kmutex_t mi_ring_lock; mac_ring_t *mi_ring_freelist; /* mi_ring_lock */ /* * These are used for caching the properties, if any, for the * primary MAC client. If the MAC client is not yet in place * when the properties are set then we cache them here to be * applied to the MAC client when it is created. */ mac_resource_props_t mi_resource_props; /* SL */ uint16_t mi_pvid; /* SL */ minor_t mi_minor; /* WO */ uint32_t mi_oref; /* SL */ mac_capab_legacy_t mi_capab_legacy; /* WO */ dev_t mi_phy_dev; /* WO */ /* * List of margin value requests added by mac clients. This list is * sorted: the first one has the greatest value. */ mac_margin_req_t *mi_mmrp; mac_mtu_req_t *mi_mtrp; char **mi_priv_prop; uint_t mi_priv_prop_count; /* * Hybrid I/O related definitions. */ mac_capab_share_t mi_share_capab; /* * Bridging hooks and limit values. Uses mutex and reference counts * (bridging only) for data path. Limits need no synchronization. */ mac_handle_t mi_bridge_link; kmutex_t mi_bridge_lock; uint32_t mi_llimit; uint32_t mi_ldecay; /* This should be the last block in this structure */ #ifdef DEBUG #define MAC_PERIM_STACK_DEPTH 15 int mi_perim_stack_depth; pc_t mi_perim_stack[MAC_PERIM_STACK_DEPTH]; #endif }; /* * The default TX group is the last one in the list. */ #define MAC_DEFAULT_TX_GROUP(mip) \ (mip)->mi_tx_groups + (mip)->mi_tx_group_count /* * The default RX group is the first one in the list */ #define MAC_DEFAULT_RX_GROUP(mip) (mip)->mi_rx_groups /* Reserved RX rings */ #define MAC_RX_RING_RESERVED(m, cnt) { \ ASSERT((m)->mi_rxrings_avail >= (cnt)); \ (m)->mi_rxrings_rsvd += (cnt); \ (m)->mi_rxrings_avail -= (cnt); \ } /* Released RX rings */ #define MAC_RX_RING_RELEASED(m, cnt) { \ ASSERT((m)->mi_rxrings_rsvd >= (cnt)); \ (m)->mi_rxrings_rsvd -= (cnt); \ (m)->mi_rxrings_avail += (cnt); \ } /* Reserved a RX group */ #define MAC_RX_GRP_RESERVED(m) { \ ASSERT((m)->mi_rxhwclnt_avail > 0); \ (m)->mi_rxhwclnt_avail--; \ (m)->mi_rxhwclnt_used++; \ } /* Released a RX group */ #define MAC_RX_GRP_RELEASED(m) { \ ASSERT((m)->mi_rxhwclnt_used > 0); \ (m)->mi_rxhwclnt_avail++; \ (m)->mi_rxhwclnt_used--; \ } /* Reserved TX rings */ #define MAC_TX_RING_RESERVED(m, cnt) { \ ASSERT((m)->mi_txrings_avail >= (cnt)); \ (m)->mi_txrings_rsvd += (cnt); \ (m)->mi_txrings_avail -= (cnt); \ } /* Released TX rings */ #define MAC_TX_RING_RELEASED(m, cnt) { \ ASSERT((m)->mi_txrings_rsvd >= (cnt)); \ (m)->mi_txrings_rsvd -= (cnt); \ (m)->mi_txrings_avail += (cnt); \ } /* Reserved a TX group */ #define MAC_TX_GRP_RESERVED(m) { \ ASSERT((m)->mi_txhwclnt_avail > 0); \ (m)->mi_txhwclnt_avail--; \ (m)->mi_txhwclnt_used++; \ } /* Released a TX group */ #define MAC_TX_GRP_RELEASED(m) { \ ASSERT((m)->mi_txhwclnt_used > 0); \ (m)->mi_txhwclnt_avail++; \ (m)->mi_txhwclnt_used--; \ } /* for mi_state_flags */ #define MIS_DISABLED 0x0001 #define MIS_IS_VNIC 0x0002 #define MIS_IS_AGGR 0x0004 #define MIS_NOTIFY_DONE 0x0008 #define MIS_EXCLUSIVE 0x0010 #define MIS_EXCLUSIVE_HELD 0x0020 #define MIS_LEGACY 0x0040 #define MIS_NO_ACTIVE 0x0080 #define MIS_POLL_DISABLE 0x0100 #define mi_getstat mi_callbacks->mc_getstat #define mi_start mi_callbacks->mc_start #define mi_stop mi_callbacks->mc_stop #define mi_open mi_callbacks->mc_open #define mi_close mi_callbacks->mc_close #define mi_setpromisc mi_callbacks->mc_setpromisc #define mi_multicst mi_callbacks->mc_multicst #define mi_unicst mi_callbacks->mc_unicst #define mi_tx mi_callbacks->mc_tx #define mi_ioctl mi_callbacks->mc_ioctl #define mi_getcapab mi_callbacks->mc_getcapab typedef struct mac_notify_task_arg { mac_impl_t *mnt_mip; mac_notify_type_t mnt_type; mac_ring_t *mnt_ring; } mac_notify_task_arg_t; /* * XXX All MAC_DBG_PRTs must be replaced with call to dtrace probes. For now * it may be easier to have these printfs for easier debugging */ #ifdef DEBUG extern int mac_dbg; #define MAC_DBG_PRT(a) if (mac_dbg > 0) {(void) printf a; } #else #define MAC_DBG_PRT(a) #endif /* * The mac_perim_handle_t is an opaque type that encodes the 'mip' pointer * and whether internally a mac_open was done when acquiring the perimeter. */ #define MAC_ENCODE_MPH(mph, mh, need_close) \ (mph) = (mac_perim_handle_t)((uintptr_t)(mh) | need_close) #define MAC_DECODE_MPH(mph, mip, need_close) { \ mip = (mac_impl_t *)(((uintptr_t)mph) & ~0x1); \ (need_close) = ((uintptr_t)mph & 0x1); \ } /* * Type of property information that can be returned by a driver. * Valid flags of the pr_flags of the mac_prop_info_t data structure. */ #define MAC_PROP_INFO_DEFAULT 0x0001 #define MAC_PROP_INFO_RANGE 0x0002 #define MAC_PROP_INFO_PERM 0x0004 /* * Property information. pr_flags is a combination of one of the * MAC_PROP_INFO_* flags, it is reset by the framework before invoking * the driver's prefix_propinfo() entry point. * * Drivers should use MAC_PROP_INFO_SET_*() macros to provide * information about a property. */ typedef struct mac_prop_info_state_s { uint8_t pr_flags; uint8_t pr_perm; uint8_t pr_errno; void *pr_default; size_t pr_default_size; mac_propval_range_t *pr_range; uint_t pr_range_cur_count; } mac_prop_info_state_t; #define MAC_PROTECT_ENABLED(mcip, type) \ (((mcip)->mci_flent-> \ fe_resource_props.mrp_mask & MRP_PROTECT) != 0 && \ ((mcip)->mci_flent-> \ fe_resource_props.mrp_protect.mp_types & (type)) != 0) typedef struct mac_client_impl_s mac_client_impl_t; extern void mac_init(void); extern int mac_fini(void); extern void mac_ndd_ioctl(mac_impl_t *, queue_t *, mblk_t *); extern boolean_t mac_ip_hdr_length_v6(ip6_t *, uint8_t *, uint16_t *, uint8_t *, ip6_frag_t **); extern mblk_t *mac_copymsgchain_cksum(mblk_t *); extern mblk_t *mac_fix_cksum(mblk_t *); extern void mac_packet_print(mac_handle_t, mblk_t *); extern void mac_rx_deliver(void *, mac_resource_handle_t, mblk_t *, mac_header_info_t *); extern void mac_tx_notify(mac_impl_t *); extern boolean_t mac_callback_find(mac_cb_info_t *, mac_cb_t **, mac_cb_t *); extern void mac_callback_add(mac_cb_info_t *, mac_cb_t **, mac_cb_t *); extern boolean_t mac_callback_remove(mac_cb_info_t *, mac_cb_t **, mac_cb_t *); extern void mac_callback_remove_wait(mac_cb_info_t *); extern void mac_callback_free(mac_cb_t *); extern mac_cb_t *mac_callback_walker_cleanup(mac_cb_info_t *, mac_cb_t **); /* in mac_bcast.c */ extern void mac_bcast_init(void); extern void mac_bcast_fini(void); extern mac_impl_t *mac_bcast_grp_mip(void *); extern int mac_bcast_add(mac_client_impl_t *, const uint8_t *, uint16_t, mac_addrtype_t); extern void mac_bcast_delete(mac_client_impl_t *, const uint8_t *, uint16_t); extern void mac_bcast_send(void *, void *, mblk_t *, boolean_t); extern void mac_bcast_grp_free(void *); extern void mac_bcast_refresh(mac_impl_t *, mac_multicst_t, void *, boolean_t); extern void mac_client_bcast_refresh(mac_client_impl_t *, mac_multicst_t, void *, boolean_t); /* * Grouping functions are used internally by MAC layer. */ extern int mac_group_addmac(mac_group_t *, const uint8_t *); extern int mac_group_remmac(mac_group_t *, const uint8_t *); extern int mac_rx_group_add_flow(mac_client_impl_t *, flow_entry_t *, mac_group_t *); extern mblk_t *mac_hwring_tx(mac_ring_handle_t, mblk_t *); extern mblk_t *mac_bridge_tx(mac_impl_t *, mac_ring_handle_t, mblk_t *); extern mac_group_t *mac_reserve_rx_group(mac_client_impl_t *, uint8_t *, boolean_t); extern void mac_release_rx_group(mac_client_impl_t *, mac_group_t *); extern int mac_rx_switch_group(mac_client_impl_t *, mac_group_t *, mac_group_t *); extern mac_ring_t *mac_reserve_tx_ring(mac_impl_t *, mac_ring_t *); extern mac_group_t *mac_reserve_tx_group(mac_client_impl_t *, boolean_t); extern void mac_release_tx_group(mac_client_impl_t *, mac_group_t *); extern void mac_tx_switch_group(mac_client_impl_t *, mac_group_t *, mac_group_t *); extern void mac_rx_switch_grp_to_sw(mac_group_t *); /* * MAC address functions are used internally by MAC layer. */ extern mac_address_t *mac_find_macaddr(mac_impl_t *, uint8_t *); extern boolean_t mac_check_macaddr_shared(mac_address_t *); extern int mac_update_macaddr(mac_address_t *, uint8_t *); extern void mac_freshen_macaddr(mac_address_t *, uint8_t *); extern void mac_retrieve_macaddr(mac_address_t *, uint8_t *); extern void mac_init_macaddr(mac_impl_t *); extern void mac_fini_macaddr(mac_impl_t *); /* * Flow construction/destruction routines. * Not meant to be used by mac clients. */ extern int mac_link_flow_init(mac_client_handle_t, flow_entry_t *); extern void mac_link_flow_clean(mac_client_handle_t, flow_entry_t *); /* * Fanout update routines called when the link speed of the NIC changes * or when a MAC client's share is unbound. */ extern void mac_fanout_recompute_client(mac_client_impl_t *, cpupart_t *); extern void mac_fanout_recompute(mac_impl_t *); /* * The following functions are used internally by the MAC layer to * add/remove/update flows associated with a mac_impl_t. They should * never be used directly by MAC clients. */ extern int mac_datapath_setup(mac_client_impl_t *, flow_entry_t *, uint32_t); extern void mac_datapath_teardown(mac_client_impl_t *, flow_entry_t *, uint32_t); extern void mac_rx_srs_group_setup(mac_client_impl_t *, flow_entry_t *, uint32_t); extern void mac_tx_srs_group_setup(mac_client_impl_t *, flow_entry_t *, uint32_t); extern void mac_rx_srs_group_teardown(flow_entry_t *, boolean_t); extern void mac_tx_srs_group_teardown(mac_client_impl_t *, flow_entry_t *, uint32_t); extern int mac_rx_classify_flow_quiesce(flow_entry_t *, void *); extern int mac_rx_classify_flow_restart(flow_entry_t *, void *); extern void mac_client_quiesce(mac_client_impl_t *); extern void mac_client_restart(mac_client_impl_t *); extern void mac_flow_update_priority(mac_client_impl_t *, flow_entry_t *); extern void mac_flow_rem_subflow(flow_entry_t *); extern void mac_rename_flow(flow_entry_t *, const char *); extern void mac_flow_set_name(flow_entry_t *, const char *); extern mblk_t *mac_add_vlan_tag(mblk_t *, uint_t, uint16_t); extern mblk_t *mac_add_vlan_tag_chain(mblk_t *, uint_t, uint16_t); extern mblk_t *mac_strip_vlan_tag_chain(mblk_t *); extern void mac_pkt_drop(void *, mac_resource_handle_t, mblk_t *, boolean_t); extern mblk_t *mac_rx_flow(mac_handle_t, mac_resource_handle_t, mblk_t *); extern void i_mac_share_alloc(mac_client_impl_t *); extern void i_mac_share_free(mac_client_impl_t *); extern void i_mac_perim_enter(mac_impl_t *); extern void i_mac_perim_exit(mac_impl_t *); extern int i_mac_perim_enter_nowait(mac_impl_t *); extern void i_mac_tx_srs_notify(mac_impl_t *, mac_ring_handle_t); extern int mac_hold(const char *, mac_impl_t **); extern void mac_rele(mac_impl_t *); extern int i_mac_disable(mac_impl_t *); extern void i_mac_notify(mac_impl_t *, mac_notify_type_t); extern void i_mac_notify_exit(mac_impl_t *); extern void mac_rx_group_unmark(mac_group_t *, uint_t); extern void mac_tx_client_flush(mac_client_impl_t *); extern void mac_tx_client_block(mac_client_impl_t *); extern void mac_tx_client_unblock(mac_client_impl_t *); extern void mac_tx_invoke_callbacks(mac_client_impl_t *, mac_tx_cookie_t); extern int i_mac_promisc_set(mac_impl_t *, boolean_t); extern void i_mac_promisc_walker_cleanup(mac_impl_t *); extern mactype_t *mactype_getplugin(const char *); extern void mac_addr_factory_init(mac_impl_t *); extern void mac_addr_factory_fini(mac_impl_t *); extern void mac_register_priv_prop(mac_impl_t *, char **); extern void mac_unregister_priv_prop(mac_impl_t *); extern int mac_init_rings(mac_impl_t *, mac_ring_type_t); extern void mac_free_rings(mac_impl_t *, mac_ring_type_t); extern void mac_compare_ddi_handle(mac_group_t *, uint_t, mac_ring_t *); extern int mac_start_group(mac_group_t *); extern void mac_stop_group(mac_group_t *); extern int mac_start_ring(mac_ring_t *); extern void mac_stop_ring(mac_ring_t *); extern int mac_add_macaddr(mac_impl_t *, mac_group_t *, uint8_t *, boolean_t); extern int mac_remove_macaddr(mac_address_t *); extern void mac_set_group_state(mac_group_t *, mac_group_state_t); extern void mac_group_add_client(mac_group_t *, mac_client_impl_t *); extern void mac_group_remove_client(mac_group_t *, mac_client_impl_t *); extern int i_mac_group_add_ring(mac_group_t *, mac_ring_t *, int); extern void i_mac_group_rem_ring(mac_group_t *, mac_ring_t *, boolean_t); extern int mac_group_ring_modify(mac_client_impl_t *, mac_group_t *, mac_group_t *); extern void mac_poll_state_change(mac_handle_t, boolean_t); extern mac_group_state_t mac_group_next_state(mac_group_t *, mac_client_impl_t **, mac_group_t *, boolean_t); extern mblk_t *mac_protect_check(mac_client_handle_t, mblk_t *); extern int mac_protect_set(mac_client_handle_t, mac_resource_props_t *); extern boolean_t mac_protect_enabled(mac_client_handle_t, uint32_t); extern int mac_protect_validate(mac_resource_props_t *); extern void mac_protect_update(mac_resource_props_t *, mac_resource_props_t *); extern void mac_protect_update_v6_local_addr(mac_client_impl_t *); extern void mac_protect_intercept_dhcp(mac_client_impl_t *, mblk_t *); extern void mac_protect_flush_dhcp(mac_client_impl_t *); extern void mac_protect_cancel_timer(mac_client_impl_t *); extern void mac_protect_init(mac_client_impl_t *); extern void mac_protect_fini(mac_client_impl_t *); extern int mac_set_resources(mac_handle_t, mac_resource_props_t *); extern void mac_get_resources(mac_handle_t, mac_resource_props_t *); extern void mac_get_effective_resources(mac_handle_t, mac_resource_props_t *); extern void mac_set_promisc_filtered(mac_client_handle_t, boolean_t); extern boolean_t mac_get_promisc_filtered(mac_client_handle_t); extern cpupart_t *mac_pset_find(mac_resource_props_t *, boolean_t *); extern void mac_set_pool_effective(boolean_t, cpupart_t *, mac_resource_props_t *, mac_resource_props_t *); extern void mac_set_rings_effective(mac_client_impl_t *); extern mac_client_impl_t *mac_check_primary_relocation(mac_client_impl_t *, boolean_t); /* Global callbacks into the bridging module (when loaded) */ extern mac_bridge_tx_t mac_bridge_tx_cb; extern mac_bridge_rx_t mac_bridge_rx_cb; extern mac_bridge_ref_t mac_bridge_ref_cb; extern mac_bridge_ls_t mac_bridge_ls_cb; #ifdef __cplusplus } #endif #endif /* _SYS_MAC_IMPL_H */