/* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*- * vim:expandtab:shiftwidth=8:tabstop=8: * * Copyright (C) 2004 Cluster File Systems, Inc. * Author: Eric Barton * Author: Frank Zago * * This file is part of Lustre, http://www.lustre.org. * * Lustre is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License as published by the Free Software Foundation. * * Lustre is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Lustre; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #ifndef EXPORT_SYMTAB # define EXPORT_SYMTAB #endif #ifdef HAVE_KERNEL_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DEBUG_SUBSYSTEM S_LND #include #include #include /* CPU_{L,B}E #defines needed by Voltaire headers */ #include #ifdef __BIG_ENDIAN__ #define CPU_BE 1 #define CPU_LE 0 #endif #ifdef __LITTLE_ENDIAN__ #define CPU_BE 0 #define CPU_LE 1 #endif #include #include #include /* GCC 3.2.2, miscompiles this driver. * See http://gcc.gnu.org/bugzilla/show_bug.cgi?id=9853. */ #define GCC_VERSION ((__GNUC__*100 + __GNUC_MINOR__)*100 + __GNUC_PATCHLEVEL__) #if (GCC_VERSION >= 30000) && (GCC_VERSION < 30203) # error Invalid GCC version. Must use GCC < 3.0.0 || GCC >= 3.2.3 #endif #ifdef CONFIG_SMP # define IBNAL_N_SCHED num_online_cpus() /* # schedulers */ #else # define IBNAL_N_SCHED 1 /* # schedulers */ #endif #define IBNAL_USE_FMR 1 /* tunables fixed at compile time */ #define IBNAL_PEER_HASH_SIZE 101 /* # peer lists */ #define IBNAL_RESCHED 100 /* # scheduler loops before reschedule */ #define IBNAL_MSG_QUEUE_SIZE 8 /* # messages/RDMAs in-flight */ #define IBNAL_CREDIT_HIGHWATER 7 /* when eagerly to return credits */ #define IBNAL_MSG_SIZE (4<<10) /* max size of queued messages (inc hdr) */ /* constants derived from sdp-connection.c */ #define IBNAL_QKEY 0 #define IBNAL_PKEY 0xffff #define IBNAL_PKEY_IDX 0 #define IBNAL_SGID_IDX 0 #define IBNAL_SERVICE_LEVEL 0 #define IBNAL_STATIC_RATE 0 #define IBNAL_EE_FLOW_CNT 1 #define IBNAL_LOCAL_SUB 1 #define IBNAL_TRAFFIC_CLASS 0 #define IBNAL_SOURCE_PATH_BIT 0 #define IBNAL_OUS_DST_RD 1 #define IBNAL_IB_MTU vv_mtu_1024 /* constants derived from sdp-hca-params.h */ #define PATH_RATE_2_5GB 2 #define MLX_IPD_1x 1 #define MLX_IPD_4x 0 #define IBNAL_R_2_STATIC_RATE(r) ((r) == PATH_RATE_2_5GB ? MLX_IPD_1x : MLX_IPD_4x) /* other low-level IB constants */ #define IBNAL_PKT_LIFETIME 5 #define IBNAL_ARB_INITIATOR_DEPTH 0 #define IBNAL_ARB_RESP_RES 0 #define IBNAL_FAILOVER_ACCEPTED 0 /************************/ /* derived constants... */ /* TX messages (shared by all connections) */ #define IBNAL_TX_MSGS() (*kibnal_tunables.kib_ntx) #define IBNAL_TX_MSG_BYTES() (IBNAL_TX_MSGS() * IBNAL_MSG_SIZE) #define IBNAL_TX_MSG_PAGES() ((IBNAL_TX_MSG_BYTES() + PAGE_SIZE - 1)/PAGE_SIZE) #if IBNAL_USE_FMR # define IBNAL_MAX_RDMA_FRAGS 1 # define IBNAL_CONCURRENT_SENDS IBNAL_RX_MSGS #else # define IBNAL_MAX_RDMA_FRAGS LNET_MAX_IOV # define IBNAL_CONCURRENT_SENDS IBNAL_MSG_QUEUE_SIZE #endif /* RX messages (per connection) */ #define IBNAL_RX_MSGS (IBNAL_MSG_QUEUE_SIZE*2) #define IBNAL_RX_MSG_BYTES (IBNAL_RX_MSGS * IBNAL_MSG_SIZE) #define IBNAL_RX_MSG_PAGES ((IBNAL_RX_MSG_BYTES + PAGE_SIZE - 1)/PAGE_SIZE) #define IBNAL_CQ_ENTRIES() (IBNAL_TX_MSGS() * (1 + IBNAL_MAX_RDMA_FRAGS) + \ IBNAL_RX_MSGS * *kibnal_tunables.kib_concurrent_peers) typedef struct { unsigned int *kib_service_number; /* IB service number */ int *kib_min_reconnect_interval; /* first failed connection retry... */ int *kib_max_reconnect_interval; /* ...exponentially increasing to this */ int *kib_concurrent_peers; /* max # nodes all talking to me */ int *kib_cksum; /* checksum kib_msg_t? */ int *kib_timeout; /* comms timeout (seconds) */ int *kib_ntx; /* # tx descs */ int *kib_credits; /* # concurrent sends */ int *kib_peercredits; /* # concurrent sends to 1 peer */ int *kib_arp_retries; /* # times to retry ARP */ char **kib_hca_basename; /* HCA base name */ char **kib_ipif_basename; /* IPoIB interface base name */ int *kib_local_ack_timeout; /* IB RC QP ack timeout... */ int *kib_retry_cnt; /* ...and retry */ int *kib_rnr_cnt; /* RNR retries... */ int *kib_rnr_nak_timer; /* ...and interval */ int *kib_keepalive; /* keepalive interval */ int *kib_concurrent_sends; /* send work queue sizing */ #if IBNAL_USE_FMR int *kib_fmr_remaps; /* # FMR maps before unmap required */ #endif #if CONFIG_SYSCTL && !CFS_SYSFS_MODULE_PARM struct ctl_table_header *kib_sysctl; /* sysctl interface */ #endif } kib_tunables_t; typedef struct { int ibp_npages; /* # pages */ struct page *ibp_pages[0]; } kib_pages_t; #if IBNAL_USE_FMR typedef struct { vv_fmr_h_t md_fmrhandle; /* FMR handle */ int md_fmrcount; /* # mappings left */ int md_active; /* mapping in use? */ __u32 md_lkey; /* local key */ __u32 md_rkey; /* remote key */ __u64 md_addr; /* IO VM address */ } kib_md_t; #endif typedef struct { int kib_init; /* initialisation state */ __u64 kib_incarnation; /* which one am I */ int kib_shutdown; /* shut down? */ atomic_t kib_nthreads; /* # live threads */ lnet_ni_t *kib_ni; /* _the_ nal instance */ vv_gid_t kib_port_gid; /* device/port GID */ vv_p_key_t kib_port_pkey; /* device/port pkey */ cm_cep_handle_t kib_listen_handle; /* IB listen handle */ rwlock_t kib_global_lock; /* stabilize peer/conn ops */ int kib_ready; /* CQ callback fired */ int kib_checking_cq; /* a scheduler is checking the CQ */ struct list_head *kib_peers; /* hash table of all my known peers */ int kib_peer_hash_size; /* size of kib_peers */ atomic_t kib_npeers; /* # peers extant */ atomic_t kib_nconns; /* # connections extant */ void *kib_connd; /* the connd task (serialisation assertions) */ struct list_head kib_connd_peers; /* peers wanting to get connected */ struct list_head kib_connd_pcreqs; /* passive connection requests */ struct list_head kib_connd_conns; /* connections to setup/teardown */ struct list_head kib_connd_zombies; /* connections with zero refcount */ wait_queue_head_t kib_connd_waitq; /* connection daemon sleeps here */ spinlock_t kib_connd_lock; /* serialise */ wait_queue_head_t kib_sched_waitq; /* schedulers sleep here */ spinlock_t kib_sched_lock; /* serialise */ struct kib_tx *kib_tx_descs; /* all the tx descriptors */ kib_pages_t *kib_tx_pages; /* premapped tx msg pages */ struct list_head kib_idle_txs; /* idle tx descriptors */ __u64 kib_next_tx_cookie; /* RDMA completion cookie */ spinlock_t kib_tx_lock; /* serialise */ vv_hca_h_t kib_hca; /* The HCA */ vv_hca_attrib_t kib_hca_attrs; /* its properties */ int kib_port; /* port on the device */ vv_port_attrib_t kib_port_attr; /* its properties */ vv_pd_h_t kib_pd; /* protection domain */ vv_cq_h_t kib_cq; /* completion queue */ } kib_data_t; #define IBNAL_INIT_NOTHING 0 #define IBNAL_INIT_DATA 1 #define IBNAL_INIT_LIB 2 #define IBNAL_INIT_HCA 3 #define IBNAL_INIT_ASYNC 4 #define IBNAL_INIT_PD 5 #define IBNAL_INIT_TXD 6 #define IBNAL_INIT_CQ 7 #define IBNAL_INIT_ALL 8 #include "viblnd_wire.h" /***********************************************************************/ typedef struct kib_rx /* receive message */ { struct list_head rx_list; /* queue for attention */ struct kib_conn *rx_conn; /* owning conn */ int rx_nob; /* # bytes received (-1 while posted) */ vv_l_key_t rx_lkey; /* local key */ kib_msg_t *rx_msg; /* pre-mapped buffer (host vaddr) */ vv_wr_t rx_wrq; /* receive work item */ vv_scatgat_t rx_gl; /* and its memory */ } kib_rx_t; typedef struct kib_tx /* transmit message */ { struct list_head tx_list; /* queue on idle_txs ibc_tx_queue etc. */ struct kib_conn *tx_conn; /* owning conn */ int tx_sending; /* # tx callbacks outstanding */ int tx_queued; /* queued for sending */ int tx_waiting; /* waiting for peer */ int tx_status; /* completion status */ unsigned long tx_deadline; /* completion deadline */ __u64 tx_cookie; /* completion cookie */ lnet_msg_t *tx_lntmsg[2]; /* lnet msgs to finalize on completion */ vv_l_key_t tx_lkey; /* local key for message buffer */ kib_msg_t *tx_msg; /* message buffer (host vaddr) */ int tx_nwrq; /* # send work items */ #if IBNAL_USE_FMR vv_wr_t tx_wrq[2]; /* send work items... */ vv_scatgat_t tx_gl[2]; /* ...and their memory */ kib_rdma_desc_t tx_rd[1]; /* rdma descriptor */ kib_md_t tx_md; /* FMR mapping descriptor */ __u64 *tx_pages; /* page phys addrs */ #else vv_wr_t *tx_wrq; /* send work items... */ vv_scatgat_t *tx_gl; /* ...and their memory */ kib_rdma_desc_t *tx_rd; /* rdma descriptor (src buffers) */ #endif } kib_tx_t; /* Passive connection request (listener callback) queued for handling by connd */ typedef struct kib_pcreq { struct list_head pcr_list; /* queue for handling by connd */ cm_cep_handle_t pcr_cep; /* listening handle */ cm_request_data_t pcr_cmreq; /* request data */ } kib_pcreq_t; typedef struct kib_connvars { /* connection-in-progress variables */ __u32 cv_port; __u32 cv_pkey_index; __u32 cv_rnr_count; __u32 cv_sgid_index; __u32 cv_remote_qpn; __u32 cv_local_qpn; __u32 cv_rxpsn; __u32 cv_txpsn; ib_path_record_v2_t cv_path; ibat_arp_data_t cv_arp; ibat_stat_t cv_arprc; cm_conn_data_t cv_conndata; } kib_connvars_t; typedef struct kib_conn { struct kib_peer *ibc_peer; /* owning peer */ struct list_head ibc_list; /* stash on peer's conn list */ __u64 ibc_incarnation; /* which instance of the peer */ __u64 ibc_txseq; /* tx sequence number */ __u64 ibc_rxseq; /* rx sequence number */ __u32 ibc_version; /* peer protocol version */ atomic_t ibc_refcount; /* # users */ int ibc_state; /* what's happening */ int ibc_nsends_posted; /* # uncompleted sends */ int ibc_credits; /* # credits I have */ int ibc_outstanding_credits; /* # credits to return */ int ibc_reserved_credits; /* # credits for ACK/DONE msgs */ int ibc_disconnect; /* some disconnect callback fired */ int ibc_comms_error; /* set on comms error */ unsigned long ibc_last_send; /* time of last send */ struct list_head ibc_early_rxs; /* rxs completed before ESTABLISHED */ struct list_head ibc_tx_queue_nocred; /* sends that don't need a cred */ struct list_head ibc_tx_queue_rsrvd; /* sends that need a reserved cred */ struct list_head ibc_tx_queue; /* send queue */ struct list_head ibc_active_txs; /* active tx awaiting completion */ spinlock_t ibc_lock; /* serialise */ kib_rx_t *ibc_rxs; /* the rx descs */ kib_pages_t *ibc_rx_pages; /* premapped rx msg pages */ vv_qp_h_t ibc_qp; /* queue pair */ cm_cep_handle_t ibc_cep; /* connection endpoint */ kib_connvars_t *ibc_connvars; /* in-progress connection state */ } kib_conn_t; #define IBNAL_CONN_INIT_NOTHING 0 /* incomplete init */ #define IBNAL_CONN_INIT_QP 1 /* QP allocated */ #define IBNAL_CONN_INIT 2 /* completed init */ #define IBNAL_CONN_ACTIVE_ARP 3 /* active arping */ #define IBNAL_CONN_ACTIVE_CONNECT 4 /* active sending req */ #define IBNAL_CONN_ACTIVE_CHECK_REPLY 5 /* active checking reply */ #define IBNAL_CONN_ACTIVE_RTU 6 /* active sending rtu */ #define IBNAL_CONN_PASSIVE_WAIT 7 /* passive waiting for rtu */ #define IBNAL_CONN_ESTABLISHED 8 /* connection established */ #define IBNAL_CONN_DISCONNECT1 9 /* disconnect phase 1 */ #define IBNAL_CONN_DISCONNECT2 10 /* disconnect phase 2 */ #define IBNAL_CONN_DISCONNECTED 11 /* disconnect complete */ typedef struct kib_peer { struct list_head ibp_list; /* stash on global peer list */ struct list_head ibp_connd_list; /* schedule on kib_connd_peers */ lnet_nid_t ibp_nid; /* who's on the other end(s) */ __u32 ibp_ip; /* IP to query for peer conn params */ int ibp_port; /* port to qery for peer conn params */ __u64 ibp_incarnation; /* peer's incarnation */ atomic_t ibp_refcount; /* # users */ int ibp_persistence; /* "known" peer refs */ struct list_head ibp_conns; /* all active connections */ struct list_head ibp_tx_queue; /* msgs waiting for a conn */ int ibp_connecting; /* current active connection attempts */ int ibp_accepting; /* current passive connection attempts */ int ibp_arp_count; /* # arp attempts */ unsigned long ibp_reconnect_time; /* when reconnect may be attempted */ unsigned long ibp_reconnect_interval; /* exponential backoff */ int ibp_error; /* errno on closing this peer */ cfs_time_t ibp_last_alive; /* when (in jiffies) I was last alive */ } kib_peer_t; extern kib_data_t kibnal_data; extern kib_tunables_t kibnal_tunables; int kibnal_startup (lnet_ni_t *ni); void kibnal_shutdown (lnet_ni_t *ni); int kibnal_ctl(lnet_ni_t *ni, unsigned int cmd, void *arg); int kibnal_send (lnet_ni_t *ni, void *private, lnet_msg_t *lntmsg); extern int kibnal_eager_recv (lnet_ni_t *ni, void *private, lnet_msg_t *lntmsg, void **new_private); int kibnal_recv(lnet_ni_t *ni, void *private, lnet_msg_t *lntmsg, int delayed, unsigned int niov, struct iovec *iov, lnet_kiov_t *kiov, unsigned int offset, unsigned int mlen, unsigned int rlen); extern void kibnal_init_msg(kib_msg_t *msg, int type, int body_nob); extern void kibnal_pack_msg(kib_msg_t *msg, __u32 version, int credits, lnet_nid_t dstnid, __u64 dststamp, __u64 seq); extern int kibnal_unpack_msg(kib_msg_t *msg, __u32 expected_version, int nob); extern int kibnal_create_peer(kib_peer_t **peerp, lnet_nid_t nid); extern void kibnal_destroy_peer(kib_peer_t *peer); extern int kibnal_add_persistent_peer (lnet_nid_t nid, __u32 ip); extern int kibnal_del_peer(lnet_nid_t nid); extern kib_peer_t *kibnal_find_peer_locked(lnet_nid_t nid); extern void kibnal_unlink_peer_locked(kib_peer_t *peer); extern void kibnal_peer_alive(kib_peer_t *peer); extern int kibnal_close_stale_conns_locked(kib_peer_t *peer, __u64 incarnation); extern kib_conn_t *kibnal_create_conn(cm_cep_handle_t cep); extern void kibnal_listen_callback(cm_cep_handle_t cep, cm_conn_data_t *info, void *arg); extern int kibnal_alloc_pages(kib_pages_t **pp, int npages, int access); extern void kibnal_free_pages(kib_pages_t *p); extern void kibnal_check_sends(kib_conn_t *conn); extern void kibnal_close_conn_locked(kib_conn_t *conn, int error); extern void kibnal_destroy_conn(kib_conn_t *conn); extern int kibnal_thread_start(int (*fn)(void *arg), void *arg); extern int kibnal_scheduler(void *arg); extern int kibnal_connd(void *arg); extern void kibnal_init_tx_msg(kib_tx_t *tx, int type, int body_nob); extern void kibnal_close_conn(kib_conn_t *conn, int why); extern int kibnal_set_qp_state(kib_conn_t *conn, vv_qp_state_t new_state); extern void kibnal_async_callback(vv_event_record_t ev); extern void kibnal_cq_callback(unsigned long context); extern void kibnal_passive_connreq(kib_pcreq_t *pcr, int reject); extern void kibnal_txlist_done (struct list_head *txlist, int status); extern void kibnal_queue_tx(kib_tx_t *tx, kib_conn_t *conn); extern int kibnal_init_rdma(kib_tx_t *tx, int type, int nob, kib_rdma_desc_t *dstrd, __u64 dstcookie); extern int kibnal_tunables_init(void); extern void kibnal_tunables_fini(void); #define kibnal_conn_addref(conn) \ do { \ CDEBUG(D_NET, "conn[%p] (%d)++\n", \ (conn), atomic_read(&(conn)->ibc_refcount)); \ LASSERT(atomic_read(&(conn)->ibc_refcount) > 0); \ atomic_inc(&(conn)->ibc_refcount); \ } while (0) #define kibnal_conn_decref(conn) \ do { \ unsigned long flags; \ \ CDEBUG(D_NET, "conn[%p] (%d)--\n", \ (conn), atomic_read(&(conn)->ibc_refcount)); \ LASSERT(atomic_read(&(conn)->ibc_refcount) > 0); \ if (atomic_dec_and_test(&(conn)->ibc_refcount)) { \ spin_lock_irqsave(&kibnal_data.kib_connd_lock, flags); \ list_add_tail(&(conn)->ibc_list, \ &kibnal_data.kib_connd_zombies); \ wake_up(&kibnal_data.kib_connd_waitq); \ spin_unlock_irqrestore(&kibnal_data.kib_connd_lock, flags); \ } \ } while (0) #define kibnal_peer_addref(peer) \ do { \ CDEBUG(D_NET, "peer[%p] -> %s (%d)++\n", \ (peer), libcfs_nid2str((peer)->ibp_nid), \ atomic_read (&(peer)->ibp_refcount)); \ LASSERT(atomic_read(&(peer)->ibp_refcount) > 0); \ atomic_inc(&(peer)->ibp_refcount); \ } while (0) #define kibnal_peer_decref(peer) \ do { \ CDEBUG(D_NET, "peer[%p] -> %s (%d)--\n", \ (peer), libcfs_nid2str((peer)->ibp_nid), \ atomic_read (&(peer)->ibp_refcount)); \ LASSERT(atomic_read(&(peer)->ibp_refcount) > 0); \ if (atomic_dec_and_test(&(peer)->ibp_refcount)) \ kibnal_destroy_peer(peer); \ } while (0) static inline struct list_head * kibnal_nid2peerlist (lnet_nid_t nid) { unsigned int hash = ((unsigned int)nid) % kibnal_data.kib_peer_hash_size; return (&kibnal_data.kib_peers [hash]); } static inline int kibnal_peer_active (kib_peer_t *peer) { /* Am I in the peer hash table? */ return (!list_empty(&peer->ibp_list)); } static inline void kibnal_queue_tx_locked (kib_tx_t *tx, kib_conn_t *conn) { struct list_head *q; LASSERT (tx->tx_nwrq > 0); /* work items set up */ LASSERT (!tx->tx_queued); /* not queued for sending already */ tx->tx_queued = 1; tx->tx_deadline = jiffies + (*kibnal_tunables.kib_timeout * HZ); if (tx->tx_conn == NULL) { kibnal_conn_addref(conn); tx->tx_conn = conn; LASSERT (tx->tx_msg->ibm_type != IBNAL_MSG_PUT_DONE); } else { LASSERT (tx->tx_conn == conn); LASSERT (tx->tx_msg->ibm_type == IBNAL_MSG_PUT_DONE); } if (conn->ibc_version == IBNAL_MSG_VERSION_RDMAREPLYNOTRSRVD) { /* All messages have simple credit control */ q = &conn->ibc_tx_queue; } else { LASSERT (conn->ibc_version == IBNAL_MSG_VERSION); switch (tx->tx_msg->ibm_type) { case IBNAL_MSG_PUT_REQ: case IBNAL_MSG_GET_REQ: /* RDMA request: reserve a buffer for the RDMA reply * before sending */ q = &conn->ibc_tx_queue_rsrvd; break; case IBNAL_MSG_PUT_NAK: case IBNAL_MSG_PUT_ACK: case IBNAL_MSG_PUT_DONE: case IBNAL_MSG_GET_DONE: /* RDMA reply/completion: no credits; peer has reserved * a reply buffer */ q = &conn->ibc_tx_queue_nocred; break; case IBNAL_MSG_NOOP: case IBNAL_MSG_IMMEDIATE: /* Otherwise: consume a credit before sending */ q = &conn->ibc_tx_queue; break; default: LBUG(); q = NULL; } } list_add_tail(&tx->tx_list, q); } static inline int kibnal_send_keepalive(kib_conn_t *conn) { return (*kibnal_tunables.kib_keepalive > 0) && time_after(jiffies, conn->ibc_last_send + *kibnal_tunables.kib_keepalive*HZ); } #ifndef IBNAL_VOIDSTAR_SGADDR # define IBNAL_VOIDSTAR_SGADDR 0 #endif #if IBNAL_VOIDSTAR_SGADDR # if CONFIG_HIGHMEM # if CONFIG_X86 && CONFIG_HIGHMEM4G /* truncation to void* doesn't matter if 0 <= physmem < 4G * so allow x86 with 32 bit phys addrs */ # elif CONFIG_IA64 /* OK anyway on 64-bit arch */ # else # error "Can't support HIGHMEM when vv_scatgat_t::v_address is void *" # endif # endif # define KIBNAL_ADDR2SG(a) ((void *)((unsigned long)(a))) # define KIBNAL_SG2ADDR(a) ((__u64)((unsigned long)(a))) static inline __u64 kibnal_addr2net (__u64 addr) { void *netaddr; vv_return_t vvrc = vv_va2advertise_addr(kibnal_data.kib_hca, KIBNAL_ADDR2SG(addr), &netaddr); LASSERT (vvrc == vv_return_ok); return KIBNAL_SG2ADDR(netaddr); } #else # define KIBNAL_ADDR2SG(a) a # define KIBNAL_SG2ADDR(a) a static inline __u64 kibnal_addr2net (__u64 addr) { __u64 netaddr; vv_return_t vvrc = vv_va2advertise_addr(kibnal_data.kib_hca, addr, &netaddr); LASSERT (vvrc == vv_return_ok); return netaddr; } #endif /* CAVEAT EMPTOR: We rely on tx/rx descriptor alignment to allow us to use the * lowest 2 bits of the work request id to stash the work item type (the op * field is not valid when the wc completes in error). */ #define IBNAL_WID_TX 0 #define IBNAL_WID_RX 1 #define IBNAL_WID_RDMA 2 #define IBNAL_WID_MASK 3UL static inline vv_wr_id_t kibnal_ptr2wreqid (void *ptr, int type) { unsigned long lptr = (unsigned long)ptr; LASSERT ((lptr & IBNAL_WID_MASK) == 0); LASSERT ((type & ~IBNAL_WID_MASK) == 0); return (vv_wr_id_t)(lptr | type); } static inline void * kibnal_wreqid2ptr (vv_wr_id_t wreqid) { return (void *)(((unsigned long)wreqid) & ~IBNAL_WID_MASK); } static inline int kibnal_wreqid2type (vv_wr_id_t wreqid) { return (wreqid & IBNAL_WID_MASK); } static inline void kibnal_set_conn_state (kib_conn_t *conn, int state) { conn->ibc_state = state; mb(); } #if IBNAL_USE_FMR static inline int kibnal_rd_size (kib_rdma_desc_t *rd) { return rd->rd_nob; } #else static inline __u64 kibnal_rf_addr (kib_rdma_frag_t *rf) { return (((__u64)rf->rf_addr_hi)<<32) | ((__u64)rf->rf_addr_lo); } static inline void kibnal_rf_set (kib_rdma_frag_t *rf, __u64 addr, int nob) { rf->rf_addr_lo = addr & 0xffffffff; rf->rf_addr_hi = (addr >> 32) & 0xffffffff; rf->rf_nob = nob; } static inline int kibnal_rd_size (kib_rdma_desc_t *rd) { int i; int size; for (i = size = 0; i < rd->rd_nfrag; i++) size += rd->rd_frags[i].rf_nob; return size; } #endif