/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_IB_CLIENTS_IBD_H #define _SYS_IB_CLIENTS_IBD_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif /* * IETF defined IPoIB encapsulation header, with 2b of ethertype * followed by 2 reserved bytes. This is at the start of the * datagram sent to and received over the wire by the driver. */ typedef struct ipoib_header { ushort_t ipoib_type; ushort_t ipoib_mbz; } ipoib_hdr_t; #define IPOIB_HDRSIZE sizeof (struct ipoib_header) /* * IETF defined IPoIB link address; IBA QPN, followed by GID, * which has a prefix and suffix, as reported via ARP. */ typedef struct ipoib_mac { uint32_t ipoib_qpn; uint32_t ipoib_gidpref[2]; uint32_t ipoib_gidsuff[2]; } ipoib_mac_t; #define IPOIB_ADDRL sizeof (struct ipoib_mac) /* * Pseudo header prepended to datagram in DLIOCRAW transmit path * and when GLD hands the datagram to the gldm_send entry point. */ typedef struct ipoib_ptxhdr { ipoib_mac_t ipoib_dest; ipoib_hdr_t ipoib_rhdr; } ipoib_ptxhdr_t; #define IPOIBDLSAP(p, offset) ((ipoib_ptxhdr_t *)((caddr_t)(p)+offset)) /* * The pseudo-GRH structure that sits before the data in the * receive buffer, and is overlaid on top of the real GRH. * The driver sets the ipoib_vertcflow to 0 if the pseudo-GRH * does not hold valid information. If it is indicated valid, * the driver must additionally provide the sender's qpn in * network byte order in ipoib_sqpn, and not touch the * remaining parts which were DMA'ed in by the IBA hardware. */ typedef struct ipoib_pgrh { uint32_t ipoib_vertcflow; uint32_t ipoib_sqpn; uint32_t ipoib_sgid_pref[2]; uint32_t ipoib_sgid_suff[2]; uint32_t ipoib_dgid_pref[2]; uint32_t ipoib_dgid_suff[2]; } ipoib_pgrh_t; /* * The GRH is also dma'ed into recv buffers, thus space needs * to be allocated for them. */ #define IPOIB_GRH_SIZE sizeof (ipoib_pgrh_t) #if defined(_KERNEL) && !defined(_BOOT) #include #include #include #include #include #define IBD_HIWAT (64*1024) /* drv flow control high water */ #define IBD_LOWAT (1024) /* drv flow control low water */ #define IBD_IDNUM 0 /* ibd module ID; zero works */ #define IBD_MAX_SQSEG 3 #define IBD_MAX_RQSEG 1 typedef struct ibd_copybuf_s { ibt_mr_hdl_t ic_mr_hdl; ibt_wr_ds_t ic_sgl; ibt_mr_desc_t ic_mr_desc; uint8_t *ic_bufaddr; } ibd_copybuf_t; typedef struct ibd_mblkbuf_s { ibt_mr_hdl_t im_mr_hdl; ibt_mr_desc_t im_mr_desc; } ibd_mblkbuf_t; /* * Structure to encapsulate various types of async requests. */ typedef struct ibd_acache_rq { struct list_node rq_list; /* list of pending work */ int rq_op; /* what operation */ ipoib_mac_t rq_mac; ib_gid_t rq_gid; void *rq_ptr; } ibd_req_t; typedef struct ibd_mcache { struct list_node mc_list; /* full/non list */ uint8_t mc_jstate; boolean_t mc_fullreap; ibt_mcg_info_t mc_info; ibd_req_t mc_req; /* to queue LEAVE req */ } ibd_mce_t; typedef struct ibd_acache_s { struct list_node ac_list; /* free/active list */ ibt_ud_dest_hdl_t ac_dest; ipoib_mac_t ac_mac; uint32_t ac_ref; ibd_mce_t *ac_mce; /* for MCG AHs */ } ibd_ace_t; typedef enum {IBD_WQE_SEND, IBD_WQE_RECV} ibd_wqe_type_t; typedef struct ibd_wqe_s { struct ibd_wqe_s *w_next; struct ibd_wqe_s *w_prev; ibd_wqe_type_t w_type; ibd_copybuf_t w_copybuf; mblk_t *im_mblk; } ibd_wqe_t; typedef struct ibd_swqe_s { ibd_wqe_t w_ibd_swqe; ibt_send_wr_t w_swr; ibt_wr_ds_t w_smblk_sgl[IBD_MAX_SQSEG]; ibd_mblkbuf_t w_smblkbuf[IBD_MAX_SQSEG]; ibd_ace_t *w_ahandle; void *w_mdtinfo; } ibd_swqe_t; #define swqe_next w_ibd_swqe.w_next #define swqe_prev w_ibd_swqe.w_prev #define swqe_type w_ibd_swqe.w_type #define swqe_copybuf w_ibd_swqe.w_copybuf #define swqe_im_mblk w_ibd_swqe.im_mblk #define SWQE_TO_WQE(swqe) (ibd_wqe_t *)&((swqe)->w_ibd_swqe) #define WQE_TO_SWQE(wqe) (ibd_swqe_t *)wqe typedef struct ibd_rwqe_s { ibd_wqe_t w_ibd_rwqe; struct ibd_state_s *w_state; ibt_recv_wr_t w_rwr; boolean_t w_freeing_wqe; frtn_t w_freemsg_cb; } ibd_rwqe_t; #define rwqe_next w_ibd_rwqe.w_next #define rwqe_prev w_ibd_rwqe.w_prev #define rwqe_type w_ibd_rwqe.w_type #define rwqe_copybuf w_ibd_rwqe.w_copybuf #define rwqe_im_mblk w_ibd_rwqe.im_mblk #define RWQE_TO_WQE(rwqe) (ibd_wqe_t *)&((rwqe)->w_ibd_rwqe) #define WQE_TO_RWQE(wqe) (ibd_rwqe_t *)wqe typedef struct ibd_list_s { ibd_wqe_t *dl_head; ibd_wqe_t *dl_tail; union { boolean_t pending_sends; uint32_t bufs_outstanding; } ustat; uint32_t dl_cnt; kmutex_t dl_mutex; } ibd_list_t; #define dl_pending_sends ustat.pending_sends #define dl_bufs_outstanding ustat.bufs_outstanding /* * This structure maintains information per port per HCA * (per network interface). */ typedef struct ibd_state_s { dev_info_t *id_dip; ibt_clnt_hdl_t id_ibt_hdl; ibt_hca_hdl_t id_hca_hdl; ibt_pd_hdl_t id_pd_hdl; uint32_t id_max_sqseg; ibd_list_t id_tx_list; uint32_t id_tx_sends; kmutex_t id_txcomp_lock; ibt_cq_hdl_t id_scq_hdl; ibt_wc_t *id_txwcs; uint32_t id_num_rwqe; ibd_list_t id_rx_list; ibt_cq_hdl_t id_rcq_hdl; void *id_fifos; int id_nfifos; ibt_wc_t *id_wcs; ibt_channel_hdl_t id_chnl_hdl; ib_pkey_t id_pkey; uint16_t id_pkix; uint8_t id_port; ibt_mcg_info_t *id_mcinfo; gld_mac_info_t *id_macinfo; ib_gid_t id_sgid; ib_qpn_t id_qpnum; ipoib_mac_t id_macaddr; ib_gid_t id_mgid; ipoib_mac_t id_bcaddr; int id_mtu; uchar_t id_scope; struct list id_req_list; kmutex_t id_acache_req_lock; kcondvar_t id_acache_req_cv; kt_did_t id_async_thrid; kmutex_t id_ac_mutex; mod_hash_t *id_ah_active_hash; struct list id_ah_free; struct list id_ah_active; ipoib_mac_t id_ah_addr; ibd_req_t id_ah_req; char id_ah_op; ibd_ace_t *id_ac_list; kmutex_t id_mc_mutex; struct list id_mc_full; struct list id_mc_non; ibd_req_t id_multi_req; ipoib_mac_t id_multi_addr; char id_multi_op; boolean_t id_multi_queued; kmutex_t id_trap_lock; kcondvar_t id_trap_cv; boolean_t id_trap_stop; uint32_t id_trap_inprog; int id_prom_op; ibd_req_t id_prom_req; kmutex_t id_sched_lock; boolean_t id_sched_queued; ibd_req_t id_sched_req; kmutex_t id_link_mutex; int32_t id_link_state; uint64_t id_link_speed; uint64_t id_ah_error; uint64_t id_rx_short; uint64_t id_num_intrs; uint64_t id_tx_short; uint32_t id_num_swqe; } ibd_state_t; #endif /* _KERNEL && !_BOOT */ #ifdef __cplusplus } #endif #endif /* _SYS_IB_CLIENTS_IBD_H */