srpt_ioc.c revision 191c289b86668766245f78ec1f87557319bc46a1
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * CDDL HEADER START
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * The contents of this file are subject to the terms of the
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Common Development and Distribution License (the "License").
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * You may not use this file except in compliance with the License.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * See the License for the specific language governing permissions
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * and limitations under the License.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * When distributing Covered Code, include this CDDL HEADER in each
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * If applicable, add the following below this CDDL HEADER, with the
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * fields enclosed by brackets "[]" replaced with your own identifying
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * information: Portions Copyright [yyyy] [name of copyright owner]
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * CDDL HEADER END
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Use is subject to license terms.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * I/O Controller functions for the Solaris COMSTAR SCSI RDMA Protocol
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Target (SRPT) port provider.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_srq_size - Tunable parameter that specifies the number
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * of receive WQ entries that can be posted to the IOC shared
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * receive queue.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonuint32_t srpt_ioc_srq_size = SRPT_DEFAULT_IOC_SRQ_SIZE;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson/* IOC profile capabilities mask must be big-endian */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson#error One of _BIT_FIELDS_LTOH or _BIT_FIELDS_HTOL must be defined
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesontypedef union {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * vmem arena variables - values derived from iSER
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson/* use less memory on 32-bit kernels as it's much more constrained */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson#define SRPT_BUF_MR_CHUNKSIZE 0x1000000 /* 16MB */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson IBT_MR_ENABLE_LOCAL_WRITE | IBT_MR_ENABLE_REMOTE_WRITE |
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonvoid srpt_ioc_ib_async_hdlr(void *clnt, ibt_hca_hdl_t hdl,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ibt_async_code_t code, ibt_async_event_t *event);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic struct ibt_clnt_modinfo_s srpt_ibt_modinfo = {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic srpt_ioc_t *srpt_ioc_init(ib_guid_t guid);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic srpt_vmem_pool_t *srpt_vmem_create(const char *name, srpt_ioc_t *ioc,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ib_memlen_t chunksize, uint64_t maxsize, ibt_mr_flags_t flags);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void *srpt_vmem_alloc(srpt_vmem_pool_t *vm_pool, size_t size);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic int srpt_vmem_mr_compare(const void *a, const void *b);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic srpt_mr_t *srpt_vmem_chunk_alloc(srpt_vmem_pool_t *ioc,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void srpt_vmem_destroy(srpt_vmem_pool_t *vm_pool);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void srpt_vmem_free(srpt_vmem_pool_t *vm_pool, void *vaddr, size_t size);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic srpt_mr_t *srpt_reg_mem(srpt_vmem_pool_t *vm_pool, ib_vaddr_t vaddr,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void srpt_vmem_chunk_free(srpt_vmem_pool_t *vm_pool, srpt_mr_t *mr);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void srpt_dereg_mem(srpt_ioc_t *ioc, srpt_mr_t *mr);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic int srpt_vmem_mr(srpt_vmem_pool_t *vm_pool, void *vaddr, size_t size,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_attach() - I/O Controller attach
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Attach to IBTF and initialize I/O controllers. The srpt_ctxt->sc_rwlock
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * should be held outside of this call.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Attach to IBTF and initialize a list of IB devices. Each
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * HCA will be represented by an I/O Controller.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_attach(&srpt_ibt_modinfo, srpt_ctxt->sc_dip,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_attach, ibt_attach failed (0x%x)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson list_create(&srpt_ctxt->sc_ioc_list, sizeof (srpt_ioc_t),
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson for (hca_ndx = 0; hca_ndx < hca_cnt; hca_ndx++) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " Controller (%016llx)", (u_longlong_t)guid[hca_ndx]);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_attach, ioc_init GUID(%016llx)"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_attach, I/O Controller ibt HCA hdl (%p)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L3("ioc_attach, added %d I/O Controller(s)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_detach() - I/O Controller detach
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ctxt->sc_rwlock should be held outside of this call.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson while ((ioc = list_head(&srpt_ctxt->sc_ioc_list)) != NULL) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_detach, removing I/O Controller(%p)"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " (%016llx), ibt_hdl(%p)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_init() - I/O Controller initialization
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Requires srpt_ctxt->rw_lock be held outside of call.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, HCA query error (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, HCA already exists");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc = kmem_zalloc(sizeof (srpt_ioc_t), KM_SLEEP);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson rw_init(&ioc->ioc_rwlock, NULL, RW_DRIVER, NULL);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson bcopy(&hca_attr, &ioc->ioc_attr, sizeof (ibt_hca_attr_t));
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_init, HCA max mr=%d, mrlen=%lld",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson hca_attr.hca_max_memr, (u_longlong_t)hca_attr.hca_max_memr_len);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_open_hca(srpt_ctxt->sc_ibt_hdl, guid, &ioc->ioc_ibt_hdl);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, IBT open failed (%d)", status);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_alloc_pd(ioc->ioc_ibt_hdl, IBT_PD_NO_FLAGS,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, IBT create PD failed (%d)", status);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * We require hardware support for SRQs. We use a common SRQ to
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * reduce channel memory consumption.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if ((ioc->ioc_attr.hca_flags & IBT_HCA_SRQ) == 0) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L0("ioc_init, no SRQ capability, not supported");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L3("ioc_init, Using shared receive queues, max srq work"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " queue size(%d), def size = %d", ioc->ioc_attr.hca_max_srqs_sz,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_alloc_srq(ioc->ioc_ibt_hdl, IBT_SRQ_NO_FLAGS,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, IBT create SRQ failed(%d)", status);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_init, SRQ WR size(%d), SG size(%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_srq_attr.srq_wr_sz, ioc->ioc_srq_attr.srq_sgl_sz);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Allocate a pool of SRP IU message buffers and post them to
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * the I/O Controller SRQ. We let the SRQ manage the free IU
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_iu_pool = kmem_zalloc(sizeof (srpt_iu_t) *
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_iu_bufs = kmem_alloc(SRPT_DEFAULT_SEND_MSG_SIZE *
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if ((ioc->ioc_iu_pool == NULL) || (ioc->ioc_iu_bufs == NULL)) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, failed to allocate SRQ IUs");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson mr_attr.mr_vaddr = (ib_vaddr_t)(uintptr_t)ioc->ioc_iu_bufs;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson mr_attr.mr_len = SRPT_DEFAULT_SEND_MSG_SIZE * ioc->ioc_num_iu_entries;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_register_mr(ioc->ioc_ibt_hdl, ioc->ioc_pd_hdl,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, IU buffer pool MR err(%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson for (iu_ndx = 0, iu = ioc->ioc_iu_pool; iu_ndx <
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson iu_offset = (iu_ndx * SRPT_DEFAULT_SEND_MSG_SIZE);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson iu->iu_buf = (void *)((uintptr_t)ioc->ioc_iu_bufs + iu_offset);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson mutex_init(&iu->iu_lock, NULL, MUTEX_DRIVER, NULL);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson iu->iu_sge.ds_va = mr_desc.md_vaddr + iu_offset;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = srpt_ioc_post_recv_iu(ioc, &ioc->ioc_iu_pool[iu_ndx]);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, SRQ IU post err(%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Initialize the dbuf vmem arena
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_dbuf_pool = srpt_vmem_create(namebuf, ioc,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_BUF_MR_CHUNKSIZE, SRPT_BUF_POOL_MAX, srpt_dbuf_mr_flags);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Allocate the I/O Controller STMF data buffer allocator. The
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * data store will span all targets associated with this IOC.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_stmf_ds = stmf_alloc(STMF_STRUCT_DBUF_STORE, 0, 0);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_attach, STMF DBUF alloc failure for IOC");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_stmf_ds->ds_alloc_data_buf = &srpt_ioc_ds_alloc_dbuf;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_stmf_ds->ds_free_data_buf = &srpt_ioc_ds_free_dbuf;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson for (err_ndx = 0, iu = ioc->ioc_iu_pool; err_ndx < iu_ndx;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson kmem_free(ioc->ioc_iu_bufs, SRPT_DEFAULT_SEND_MSG_SIZE *
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, error freeing SRQ (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_free_pd(ioc->ioc_ibt_hdl, ioc->ioc_pd_hdl);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, free PD error (%d)", status);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_init, close ioc error (%d)", status);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_fini() - I/O Controller Cleanup
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Requires srpt_ctxt->sc_rwlock be held outside of call.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Note driver flows will have already taken all SRP
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * services running on the I/O Controller off-line.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson kmem_free(ioc->ioc_iu_bufs, SRPT_DEFAULT_SEND_MSG_SIZE *
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L4("ioc_fini, freeing IU entries");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson for (ndx = 0; ndx < ioc->ioc_num_iu_entries; ndx++) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L4("ioc_fini, free IU pool struct");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson sizeof (srpt_iu_t) * (ioc->ioc_num_iu_entries));
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_port_active() - I/O Controller port active
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L3("ioc_port_active event handler, invoked");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Find the HCA in question and if the HCA has completed
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * initialization, and the SRP Target service for the
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * the I/O Controller exists, then bind this port.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_port_active, I/O Controller not"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_port_active, no I/O Controller target"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " undefined");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * We take the target lock here to serialize this operation
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * with any STMF initiated target state transitions. If
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * SRP is off-line then the service handle is NULL.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (ioc->ioc_tgt_port->tp_ibt_svc_hdl != NULL) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = srpt_ioc_svc_bind(ioc->ioc_tgt_port, event->ev_port);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_port_active, bind failed (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_port_down()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L3("ioc_port_down event handler, invoked");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Find the HCA in question and if the HCA has completed
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * initialization, and the SRP Target service for the
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * the I/O Controller exists, then logout initiators
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * through this port.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_port_down, I/O Controller not"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * We only have one target now, but we could go through all
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * SCSI target ports if more are added.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_port_down, no I/O Controller target"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " undefined");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * For all channel's logged in through this port, initiate a
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * disconnect.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (ch->ch_session && (ch->ch_session->ss_hw_port ==
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_ib_async_hdlr - I/O Controller IB asynchronous events
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson/* ARGSUSED */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_ib_async_hdlr(void *clnt, ibt_hca_hdl_t hdl,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ibt_async_code_t code, ibt_async_event_t *event)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " event failed to initialize HCA (0x%016llx)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("HCA_ATTACH_EVENT: I/O Controller"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " ibt hdl (%p)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_tgt_port = srpt_stp_alloc_port(ioc, ioc->ioc_guid);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_ib_async_hdlr, alloc SCSI "
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson "target port error for HCA (0x%016llx)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * New HCA added with default SCSI Target Port, SRP service
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * will be started when SCSI Target Port is brought
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * on-line by STMF.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson "ioc_iob_async_hdlr, HCA_DETACH_EVENT received.");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* Channel in ERROR state is now empty */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ch = (srpt_channel_t *)ibt_get_chan_private(event->ev_chan_hdl);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson "ioc_iob_async_hdlr, received empty channel error on %p",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_svc_bind()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_svc_bind(srpt_target_port_t *tgt, uint_t portnum)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_bind, NULL SCSI target port"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " service");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_bind, bad port (%d)", portnum);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_query_hca_ports(ioc->ioc_ibt_hdl, portnum,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_svc_bind, query port error (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * If port is not active do nothing, caller should attempt to bind
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * after the port goes active.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_bind, port %d not in active state",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * If previously bound and the port GID has changed,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * rebind to the new GID.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (new_gid.gid_guid != port->hwp_gid.gid_guid ||
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson new_gid.gid_prefix != port->hwp_gid.gid_prefix) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_bind, unregister current"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_bind, bind service, %016llx:%016llx",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Pass SCSI Target Port as CM private data, the target will always
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * exist while this service is bound.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_bind_service(tgt->tp_ibt_svc_hdl, new_gid, NULL, tgt,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (status != IBT_SUCCESS && status != IBT_CM_SERVICE_EXISTS) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_svc_bind, bind error (%d)", status);
191c289b86668766245f78ec1f87557319bc46a1Charles Ting /* setting up a transient structure for the dtrace probe. */
191c289b86668766245f78ec1f87557319bc46a1Charles Ting ALIAS_STR(sess.ss_t_gid, new_gid.gid_prefix, new_gid.gid_guid);
191c289b86668766245f78ec1f87557319bc46a1Charles Ting DTRACE_SRP_1(service__up, srpt_session_t, &sess);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_svc_unbind()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_svc_unbind(srpt_target_port_t *tgt, uint_t portnum)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_unbind, SCSI target does not exist");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_unbind, bad port (%d)", portnum);
191c289b86668766245f78ec1f87557319bc46a1Charles Ting /* setting up a transient structure for the dtrace probe. */
191c289b86668766245f78ec1f87557319bc46a1Charles Ting ALIAS_STR(sess.ss_t_gid, port->hwp_gid.gid_prefix,
191c289b86668766245f78ec1f87557319bc46a1Charles Ting DTRACE_SRP_1(service__down, srpt_session_t, &sess);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (tgt->tp_ibt_svc_hdl != NULL && port->hwp_bind_hdl != NULL) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_unbind, unregister current bind");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ibt_unbind_service(tgt->tp_ibt_svc_hdl, port->hwp_bind_hdl);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_svc_unbind_all()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_svc_unbind_all, NULL SCSI target port"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " specified");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson for (portnum = 1; portnum <= tgt->tp_nports; portnum++) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_get_locked()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Requires srpt_ctxt->rw_lock be held outside of call.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_get()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_post_recv_iu()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_post_recv_iu(srpt_ioc_t *ioc, srpt_iu_t *iu)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_post_srq(ioc->ioc_srq_hdl, &wr, 1, &posted);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_post_recv_iu, post error (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_repost_recv_iu()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_repost_recv_iu(srpt_ioc_t *ioc, srpt_iu_t *iu)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Some additional sanity checks while in debug state, all STMF
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * related task activities should be complete prior to returning
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * this IU to the available pool.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Very bad, we should initiate a shutdown of the I/O
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Controller here, off-lining any targets associated
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * with this I/O Controller (and therefore disconnecting
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * any logins that remain).
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * In practice this should never happen so we put
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * the code near the bottom of the implementation list.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L0("ioc_repost_recv_iu, error RX IU (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_init_profile()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * SRP I/O Controller serialization lock must be held when this
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * routine is invoked.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_guid = h2b64(ioc->ioc_guid);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Note vendor ID and subsystem ID are 24 bit values. Low order
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * 8 bits in vendor ID field is slot and is initialized to zero.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Low order 8 bits of subsystem ID is a reserved field and
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * initialized to zero.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson h2b32((uint32_t)(ioc->ioc_attr.hca_vendor_id << 8));
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson h2b32((uint32_t)(ioc->ioc_attr.hca_vendor_id << 8));
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_io_class = h2b16(SRP_REV_16A_IO_CLASS);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_io_subclass = h2b16(SRP_IO_SUBCLASS);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_protocol = h2b16(SRP_PROTOCOL);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_protocol_ver = h2b16(SRP_PROTOCOL_VERSION);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_send_msg_qdepth = h2b16(srpt_send_msg_depth);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_send_msg_sz = h2b32(SRPT_DEFAULT_SEND_MSG_SIZE);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_rdma_xfer_sz = h2b32(SRPT_DEFAULT_MAX_RDMA_SIZE);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson capmask.bits.st = 1; /* Messages can be sent to IOC */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson capmask.bits.sf = 1; /* Messages can be sent from IOC */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson capmask.bits.rf = 1; /* RDMA Reads can be sent from IOC */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson capmask.bits.wf = 1; /* RDMA Writes can be sent from IOC */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson ioc->ioc_profile.ioc_ctrl_opcap_mask = capmask.mask;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * We currently only have one target, but if we had a list we would
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * go through that list and only count those that are ONLINE when
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * setting the services count and entries.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * srpt_ioc_ds_alloc_dbuf()
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson/* ARGSUSED */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_ds_alloc_dbuf(struct scsi_task *task, uint32_t size,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L4("ioc_ds_alloc_dbuf, invoked ioc(%p)"
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson " size(%d), flags(%x)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson buf = srpt_vmem_alloc(ioc->ioc_dbuf_pool, size);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (srpt_vmem_mr(ioc->ioc_dbuf_pool, buf, size, &mr) != 0) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson stmf_dbuf = stmf_alloc(STMF_STRUCT_DATA_BUF, sizeof (srpt_ds_dbuf_t),
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("ioc_ds_alloc_dbuf, stmf_alloc failed");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_ioc_ds_free_dbuf(struct stmf_dbuf_store *ds,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L4("ioc_ds_free_dbuf, invoked buf (%p)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson srpt_vmem_free(ioc->ioc_dbuf_pool, dbuf->db_sglist[0].seg_addr,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson/* Memory arena routines */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_create(const char *name, srpt_ioc_t *ioc, ib_memlen_t chunksize,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson result = kmem_zalloc(sizeof (srpt_vmem_pool_t), KM_SLEEP);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson rw_init(&result->svp_lock, NULL, RW_DRIVER, NULL);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson avl_create(&result->svp_mr_list, srpt_vmem_mr_compare,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson sizeof (srpt_mr_t), offsetof(srpt_mr_t, mr_avl));
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson chunk = srpt_vmem_chunk_alloc(result, chunksize);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonstatic void *
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_alloc(srpt_vmem_pool_t *vm_pool, size_t size)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* memory successfully allocated */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* need more vmem */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (vm_pool->svp_total_size >= vm_pool->svp_max_size) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* no more room to alloc */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if ((vm_pool->svp_total_size + chunklen) > vm_pool->svp_max_size) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson chunklen = vm_pool->svp_max_size - vm_pool->svp_total_size;
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson next = srpt_vmem_chunk_alloc(vm_pool, chunklen);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * Note that the size of the chunk we got
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * may not be the size we requested. Use the
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson * length returned in the chunk itself.
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson if (vmem_add(vm_pool->svp_vmem, (void*)(uintptr_t)next->mr_va,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson result = vmem_alloc(vm_pool->svp_vmem, size, VM_NOSLEEP | VM_FIRSTFIT);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_free(srpt_vmem_pool_t *vm_pool, void *vaddr, size_t size)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_mr(srpt_vmem_pool_t *vm_pool, void *vaddr, size_t size,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson nearest = avl_find(&vm_pool->svp_mr_list, &chunk, &where);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson nearest = avl_nearest(&vm_pool->svp_mr_list, where,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* Verify this chunk contains the specified address range */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_chunk_alloc(srpt_vmem_pool_t *vm_pool, ib_memlen_t chunksize)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson while ((chunk == NULL) && (chunksize >= SRPT_MIN_CHUNKSIZE)) {
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson "failed to alloc chunk of %d, trying %d",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson result = srpt_reg_mem(vm_pool, (ib_vaddr_t)(uintptr_t)chunk,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson "chunk registration failed");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_chunk_free(srpt_vmem_pool_t *vm_pool, srpt_mr_t *mr)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_reg_mem(srpt_vmem_pool_t *vm_pool, ib_vaddr_t vaddr, ib_memlen_t len)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson result = kmem_zalloc(sizeof (srpt_mr_t), KM_NOSLEEP);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("srpt_reg_mem: failed to allocate");
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_register_mr(ioc->ioc_ibt_hdl, ioc->ioc_pd_hdl,
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L2("srpt_reg_mem: ibt_register_mr "
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson status = ibt_deregister_mr(ioc->ioc_ibt_hdl, mr->mr_hdl);
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson SRPT_DPRINTF_L1("ioc_fini, error deregistering MR (%d)",
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleesonsrpt_vmem_mr_compare(const void *a, const void *b)
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson /* sort and match by virtual address */
1bdd6c0e3710e91cb1f31aa78de33cb638494480Sue Gleeson return (-1);