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struct fc_lport *lport; struct qedf_ioreq *els_req; struct qedf_mp_req *mp_req; struct fc_frame_header *fc_hdr; struct fcoe_task_context *task; int rc = 0; uint32_t did, sid; uint16_t xid; struct fcoe_wqe *sqe; unsigned long flags; u16 sqe_idx; if (!fcport) { QEDF_ERR(NULL, "fcport is NULL"); rc = -EINVAL; goto els_err; } qedf = fcport->qedf; lport = qedf->lport; QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Sending ELS\n"); rc = fc_remote_port_chkready(fcport->rport); if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "els 0x%x: rport not ready\n", op); rc = -EAGAIN; goto els_err; } if (lport->state != LPORT_ST_READY || !(lport->link_up)) { QEDF_ERR(&(qedf->dbg_ctx), "els 0x%x: link is not ready\n", op); rc = -EAGAIN; goto els_err; } if (!test_bit(QEDF_RPORT_SESSION_READY, &fcport->flags)) { QEDF_ERR(&(qedf->dbg_ctx), "els 0x%x: fcport not ready\n", op); rc = -EINVAL; goto els_err; } els_req = qedf_alloc_cmd(fcport, QEDF_ELS); if (!els_req) { QEDF_INFO(&qedf->dbg_ctx, QEDF_LOG_ELS, "Failed to alloc ELS request 0x%x\n", op); rc = -ENOMEM; goto els_err; } QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "initiate_els els_req = " "0x%p cb_arg = %p xid = %x\n", els_req, cb_arg, els_req->xid); els_req->sc_cmd = NULL; els_req->cmd_type = QEDF_ELS; els_req->fcport = fcport; els_req->cb_func = cb_func; cb_arg->io_req = els_req; cb_arg->op = op; els_req->cb_arg = cb_arg; els_req->data_xfer_len = data_len; /* Record which cpu this request is associated with */ els_req->cpu = smp_processor_id(); mp_req = (struct qedf_mp_req *)&(els_req->mp_req); rc = qedf_init_mp_req(els_req); if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "ELS MP request init failed\n"); kref_put(&els_req->refcount, qedf_release_cmd); goto els_err; } else { rc = 0; } /* Fill ELS Payload */ if ((op >= ELS_LS_RJT) && (op <= ELS_AUTH_ELS)) { memcpy(mp_req->req_buf, data, data_len); } else { QEDF_ERR(&(qedf->dbg_ctx), "Invalid ELS op 0x%x\n", op); els_req->cb_func = NULL; els_req->cb_arg = NULL; kref_put(&els_req->refcount, qedf_release_cmd); rc = -EINVAL; } if (rc) goto els_err; /* Fill FC header */ fc_hdr = &(mp_req->req_fc_hdr); did = fcport->rdata->ids.port_id; sid = fcport->sid; __fc_fill_fc_hdr(fc_hdr, FC_RCTL_ELS_REQ, did, sid, FC_TYPE_ELS, FC_FC_FIRST_SEQ | FC_FC_END_SEQ | FC_FC_SEQ_INIT, 0); /* Obtain exchange id */ xid = els_req->xid; spin_lock_irqsave(&fcport->rport_lock, flags); sqe_idx = qedf_get_sqe_idx(fcport); sqe = &fcport->sq[sqe_idx]; memset(sqe, 0, sizeof(struct fcoe_wqe)); /* Initialize task context for this IO request */ task = qedf_get_task_mem(&qedf->tasks, xid); qedf_init_mp_task(els_req, task, sqe); /* Put timer on els request */ if (timer_msec) qedf_cmd_timer_set(qedf, els_req, timer_msec); /* Ring doorbell */ QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Ringing doorbell for ELS " "req\n"); qedf_ring_doorbell(fcport); set_bit(QEDF_CMD_OUTSTANDING, &els_req->flags); spin_unlock_irqrestore(&fcport->rport_lock, flags); els_err: return rc; } void qedf_process_els_compl(struct qedf_ctx *qedf, struct fcoe_cqe *cqe, struct qedf_ioreq *els_req) { struct fcoe_cqe_midpath_info *mp_info; struct qedf_rport *fcport; QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Entered with xid = 0x%x" " cmd_type = %d.\n", els_req->xid, els_req->cmd_type); if ((els_req->event == QEDF_IOREQ_EV_ELS_FLUSH) || (els_req->event == QEDF_IOREQ_EV_CLEANUP_SUCCESS) || (els_req->event == QEDF_IOREQ_EV_CLEANUP_FAILED)) { QEDF_INFO(&qedf->dbg_ctx, QEDF_LOG_IO, "ELS completion xid=0x%x after flush event=0x%x", els_req->xid, els_req->event); return; } fcport = els_req->fcport; /* When flush is active, * let the cmds be completed from the cleanup context */ if (test_bit(QEDF_RPORT_IN_TARGET_RESET, &fcport->flags) || test_bit(QEDF_RPORT_IN_LUN_RESET, &fcport->flags)) { QEDF_INFO(&qedf->dbg_ctx, QEDF_LOG_IO, "Dropping ELS completion xid=0x%x as fcport is flushing", els_req->xid); return; } clear_bit(QEDF_CMD_OUTSTANDING, &els_req->flags); /* Kill the ELS timer */ cancel_delayed_work(&els_req->timeout_work); /* Get ELS response length from CQE */ mp_info = &cqe->cqe_info.midpath_info; els_req->mp_req.resp_len = mp_info->data_placement_size; /* Parse ELS response */ if ((els_req->cb_func) && (els_req->cb_arg)) { els_req->cb_func(els_req->cb_arg); els_req->cb_arg = NULL; } kref_put(&els_req->refcount, qedf_release_cmd); } static void qedf_rrq_compl(struct qedf_els_cb_arg *cb_arg) { struct qedf_ioreq *orig_io_req; struct qedf_ioreq *rrq_req; struct qedf_ctx *qedf; int refcount; rrq_req = cb_arg->io_req; qedf = rrq_req->fcport->qedf; QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Entered.\n"); orig_io_req = cb_arg->aborted_io_req; if (!orig_io_req) { QEDF_ERR(&qedf->dbg_ctx, "Original io_req is NULL, rrq_req = %p.\n", rrq_req); goto out_free; } refcount = kref_read(&orig_io_req->refcount); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "rrq_compl: orig io = %p," " orig xid = 0x%x, rrq_xid = 0x%x, refcount=%d\n", orig_io_req, orig_io_req->xid, rrq_req->xid, refcount); /* * This should return the aborted io_req to the command pool. Note that * we need to check the refcound in case the original request was * flushed but we get a completion on this xid. */ if (orig_io_req && refcount > 0) kref_put(&orig_io_req->refcount, qedf_release_cmd); out_free: /* * Release a reference to the rrq request if we timed out as the * rrq completion handler is called directly from the timeout handler * and not from els_compl where the reference would have normally been * released. */ if (rrq_req->event == QEDF_IOREQ_EV_ELS_TMO) kref_put(&rrq_req->refcount, qedf_release_cmd); kfree(cb_arg); } /* Assumes kref is already held by caller */ int qedf_send_rrq(struct qedf_ioreq *aborted_io_req) { struct fc_els_rrq rrq; struct qedf_rport *fcport; struct fc_lport *lport; struct qedf_els_cb_arg *cb_arg = NULL; struct qedf_ctx *qedf; uint32_t sid; uint32_t r_a_tov; int rc; int refcount; if (!aborted_io_req) { QEDF_ERR(NULL, "abort_io_req is NULL.\n"); return -EINVAL; } fcport = aborted_io_req->fcport; if (!fcport) { refcount = kref_read(&aborted_io_req->refcount); QEDF_ERR(NULL, "RRQ work was queued prior to a flush xid=0x%x, refcount=%d.\n", aborted_io_req->xid, refcount); kref_put(&aborted_io_req->refcount, qedf_release_cmd); return -EINVAL; } /* Check that fcport is still offloaded */ if (!test_bit(QEDF_RPORT_SESSION_READY, &fcport->flags)) { QEDF_ERR(NULL, "fcport is no longer offloaded.\n"); return -EINVAL; } if (!fcport->qedf) { QEDF_ERR(NULL, "fcport->qedf is NULL.\n"); return -EINVAL; } qedf = fcport->qedf; /* * Sanity check that we can send a RRQ to make sure that refcount isn't * 0 */ refcount = kref_read(&aborted_io_req->refcount); if (refcount != 1) { QEDF_INFO(&qedf->dbg_ctx, QEDF_LOG_ELS, "refcount for xid=%x io_req=%p refcount=%d is not 1.\n", aborted_io_req->xid, aborted_io_req, refcount); return -EINVAL; } lport = qedf->lport; sid = fcport->sid; r_a_tov = lport->r_a_tov; QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Sending RRQ orig " "io = %p, orig_xid = 0x%x\n", aborted_io_req, aborted_io_req->xid); memset(&rrq, 0, sizeof(rrq)); cb_arg = kzalloc(sizeof(struct qedf_els_cb_arg), GFP_NOIO); if (!cb_arg) { QEDF_ERR(&(qedf->dbg_ctx), "Unable to allocate cb_arg for " "RRQ\n"); rc = -ENOMEM; goto rrq_err; } cb_arg->aborted_io_req = aborted_io_req; rrq.rrq_cmd = ELS_RRQ; hton24(rrq.rrq_s_id, sid); rrq.rrq_ox_id = htons(aborted_io_req->xid); rrq.rrq_rx_id = htons(aborted_io_req->task->tstorm_st_context.read_write.rx_id); rc = qedf_initiate_els(fcport, ELS_RRQ, &rrq, sizeof(rrq), qedf_rrq_compl, cb_arg, r_a_tov); rrq_err: if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "RRQ failed - release orig io " "req 0x%x\n", aborted_io_req->xid); kfree(cb_arg); kref_put(&aborted_io_req->refcount, qedf_release_cmd); } return rc; } static void qedf_process_l2_frame_compl(struct qedf_rport *fcport, struct fc_frame *fp, u16 l2_oxid) { struct fc_lport *lport = fcport->qedf->lport; struct fc_frame_header *fh; u32 crc; fh = (struct fc_frame_header *)fc_frame_header_get(fp); /* Set the OXID we return to what libfc used */ if (l2_oxid != FC_XID_UNKNOWN) fh->fh_ox_id = htons(l2_oxid); /* Setup header fields */ fh->fh_r_ctl = FC_RCTL_ELS_REP; fh->fh_type = FC_TYPE_ELS; /* Last sequence, end sequence */ fh->fh_f_ctl[0] = 0x98; hton24(fh->fh_d_id, lport->port_id); hton24(fh->fh_s_id, fcport->rdata->ids.port_id); fh->fh_rx_id = 0xffff; /* Set frame attributes */ crc = fcoe_fc_crc(fp); fc_frame_init(fp); fr_dev(fp) = lport; fr_sof(fp) = FC_SOF_I3; fr_eof(fp) = FC_EOF_T; fr_crc(fp) = cpu_to_le32(~crc); /* Send completed request to libfc */ fc_exch_recv(lport, fp); } /* * In instances where an ELS command times out we may need to restart the * rport by logging out and then logging back in. */ void qedf_restart_rport(struct qedf_rport *fcport) { struct fc_lport *lport; struct fc_rport_priv *rdata; u32 port_id; unsigned long flags; if (!fcport) { QEDF_ERR(NULL, "fcport is NULL.\n"); return; } spin_lock_irqsave(&fcport->rport_lock, flags); if (test_bit(QEDF_RPORT_IN_RESET, &fcport->flags) || !test_bit(QEDF_RPORT_SESSION_READY, &fcport->flags) || test_bit(QEDF_RPORT_UPLOADING_CONNECTION, &fcport->flags)) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "fcport %p already in reset or not offloaded.\n", fcport); spin_unlock_irqrestore(&fcport->rport_lock, flags); return; } /* Set that we are now in reset */ set_bit(QEDF_RPORT_IN_RESET, &fcport->flags); spin_unlock_irqrestore(&fcport->rport_lock, flags); rdata = fcport->rdata; if (rdata && !kref_get_unless_zero(&rdata->kref)) { fcport->rdata = NULL; rdata = NULL; } if (rdata && rdata->rp_state == RPORT_ST_READY) { lport = fcport->qedf->lport; port_id = rdata->ids.port_id; QEDF_ERR(&(fcport->qedf->dbg_ctx), "LOGO port_id=%x.\n", port_id); fc_rport_logoff(rdata); kref_put(&rdata->kref, fc_rport_destroy); mutex_lock(&lport->disc.disc_mutex); /* Recreate the rport and log back in */ rdata = fc_rport_create(lport, port_id); mutex_unlock(&lport->disc.disc_mutex); if (rdata) fc_rport_login(rdata); fcport->rdata = rdata; } clear_bit(QEDF_RPORT_IN_RESET, &fcport->flags); } static void qedf_l2_els_compl(struct qedf_els_cb_arg *cb_arg) { struct qedf_ioreq *els_req; struct qedf_rport *fcport; struct qedf_mp_req *mp_req; struct fc_frame *fp; struct fc_frame_header *fh, *mp_fc_hdr; void *resp_buf, *fc_payload; u32 resp_len; u16 l2_oxid; l2_oxid = cb_arg->l2_oxid; els_req = cb_arg->io_req; if (!els_req) { QEDF_ERR(NULL, "els_req is NULL.\n"); goto free_arg; } /* * If we are flushing the command just free the cb_arg as none of the * response data will be valid. */ if (els_req->event == QEDF_IOREQ_EV_ELS_FLUSH) { QEDF_ERR(NULL, "els_req xid=0x%x event is flush.\n", els_req->xid); goto free_arg; } fcport = els_req->fcport; mp_req = &(els_req->mp_req); mp_fc_hdr = &(mp_req->resp_fc_hdr); resp_len = mp_req->resp_len; resp_buf = mp_req->resp_buf; /* * If a middle path ELS command times out, don't try to return * the command but rather do any internal cleanup and then libfc * timeout the command and clean up its internal resources. */ if (els_req->event == QEDF_IOREQ_EV_ELS_TMO) { /* * If ADISC times out, libfc will timeout the exchange and then * try to send a PLOGI which will timeout since the session is * still offloaded. Force libfc to logout the session which * will offload the connection and allow the PLOGI response to * flow over the LL2 path. */ if (cb_arg->op == ELS_ADISC) qedf_restart_rport(fcport); return; } if (sizeof(struct fc_frame_header) + resp_len > QEDF_PAGE_SIZE) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "resp_len is " "beyond page size.\n"); goto free_arg; } fp = fc_frame_alloc(fcport->qedf->lport, resp_len); if (!fp) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "fc_frame_alloc failure.\n"); return; } /* Copy frame header from firmware into fp */ fh = (struct fc_frame_header *)fc_frame_header_get(fp); memcpy(fh, mp_fc_hdr, sizeof(struct fc_frame_header)); /* Copy payload from firmware into fp */ fc_payload = fc_frame_payload_get(fp, resp_len); memcpy(fc_payload, resp_buf, resp_len); QEDF_INFO(&(fcport->qedf->dbg_ctx), QEDF_LOG_ELS, "Completing OX_ID 0x%x back to libfc.\n", l2_oxid); qedf_process_l2_frame_compl(fcport, fp, l2_oxid); free_arg: kfree(cb_arg); } int qedf_send_adisc(struct qedf_rport *fcport, struct fc_frame *fp) { struct fc_els_adisc *adisc; struct fc_frame_header *fh; struct fc_lport *lport = fcport->qedf->lport; struct qedf_els_cb_arg *cb_arg = NULL; struct qedf_ctx *qedf; uint32_t r_a_tov = lport->r_a_tov; int rc; qedf = fcport->qedf; fh = fc_frame_header_get(fp); cb_arg = kzalloc(sizeof(struct qedf_els_cb_arg), GFP_NOIO); if (!cb_arg) { QEDF_ERR(&(qedf->dbg_ctx), "Unable to allocate cb_arg for " "ADISC\n"); rc = -ENOMEM; goto adisc_err; } cb_arg->l2_oxid = ntohs(fh->fh_ox_id); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Sending ADISC ox_id=0x%x.\n", cb_arg->l2_oxid); adisc = fc_frame_payload_get(fp, sizeof(*adisc)); rc = qedf_initiate_els(fcport, ELS_ADISC, adisc, sizeof(*adisc), qedf_l2_els_compl, cb_arg, r_a_tov); adisc_err: if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "ADISC failed.\n"); kfree(cb_arg); } return rc; } static void qedf_srr_compl(struct qedf_els_cb_arg *cb_arg) { struct qedf_ioreq *orig_io_req; struct qedf_ioreq *srr_req; struct qedf_mp_req *mp_req; struct fc_frame_header *mp_fc_hdr, *fh; struct fc_frame *fp; void *resp_buf, *fc_payload; u32 resp_len; struct fc_lport *lport; struct qedf_ctx *qedf; int refcount; u8 opcode; srr_req = cb_arg->io_req; qedf = srr_req->fcport->qedf; lport = qedf->lport; orig_io_req = cb_arg->aborted_io_req; if (!orig_io_req) { QEDF_ERR(NULL, "orig_io_req is NULL.\n"); goto out_free; } clear_bit(QEDF_CMD_SRR_SENT, &orig_io_req->flags); if (srr_req->event != QEDF_IOREQ_EV_ELS_TMO && srr_req->event != QEDF_IOREQ_EV_ELS_ERR_DETECT) cancel_delayed_work_sync(&orig_io_req->timeout_work); refcount = kref_read(&orig_io_req->refcount); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Entered: orig_io=%p," " orig_io_xid=0x%x, rec_xid=0x%x, refcount=%d\n", orig_io_req, orig_io_req->xid, srr_req->xid, refcount); /* If a SRR times out, simply free resources */ if (srr_req->event == QEDF_IOREQ_EV_ELS_TMO) { QEDF_ERR(&qedf->dbg_ctx, "ELS timeout rec_xid=0x%x.\n", srr_req->xid); goto out_put; } /* Normalize response data into struct fc_frame */ mp_req = &(srr_req->mp_req); mp_fc_hdr = &(mp_req->resp_fc_hdr); resp_len = mp_req->resp_len; resp_buf = mp_req->resp_buf; fp = fc_frame_alloc(lport, resp_len); if (!fp) { QEDF_ERR(&(qedf->dbg_ctx), "fc_frame_alloc failure.\n"); goto out_put; } /* Copy frame header from firmware into fp */ fh = (struct fc_frame_header *)fc_frame_header_get(fp); memcpy(fh, mp_fc_hdr, sizeof(struct fc_frame_header)); /* Copy payload from firmware into fp */ fc_payload = fc_frame_payload_get(fp, resp_len); memcpy(fc_payload, resp_buf, resp_len); opcode = fc_frame_payload_op(fp); switch (opcode) { case ELS_LS_ACC: QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "SRR success.\n"); break; case ELS_LS_RJT: QEDF_INFO(&qedf->dbg_ctx, QEDF_LOG_ELS, "SRR rejected.\n"); qedf_initiate_abts(orig_io_req, true); break; } fc_frame_free(fp); out_put: /* Put reference for original command since SRR completed */ kref_put(&orig_io_req->refcount, qedf_release_cmd); out_free: kfree(cb_arg); } static int qedf_send_srr(struct qedf_ioreq *orig_io_req, u32 offset, u8 r_ctl) { struct fcp_srr srr; struct qedf_ctx *qedf; struct qedf_rport *fcport; struct fc_lport *lport; struct qedf_els_cb_arg *cb_arg = NULL; u32 r_a_tov; int rc; if (!orig_io_req) { QEDF_ERR(NULL, "orig_io_req is NULL.\n"); return -EINVAL; } fcport = orig_io_req->fcport; /* Check that fcport is still offloaded */ if (!test_bit(QEDF_RPORT_SESSION_READY, &fcport->flags)) { QEDF_ERR(NULL, "fcport is no longer offloaded.\n"); return -EINVAL; } if (!fcport->qedf) { QEDF_ERR(NULL, "fcport->qedf is NULL.\n"); return -EINVAL; } /* Take reference until SRR command completion */ kref_get(&orig_io_req->refcount); qedf = fcport->qedf; lport = qedf->lport; r_a_tov = lport->r_a_tov; QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Sending SRR orig_io=%p, " "orig_xid=0x%x\n", orig_io_req, orig_io_req->xid); memset(&srr, 0, sizeof(srr)); cb_arg = kzalloc(sizeof(struct qedf_els_cb_arg), GFP_NOIO); if (!cb_arg) { QEDF_ERR(&(qedf->dbg_ctx), "Unable to allocate cb_arg for " "SRR\n"); rc = -ENOMEM; goto srr_err; } cb_arg->aborted_io_req = orig_io_req; srr.srr_op = ELS_SRR; srr.srr_ox_id = htons(orig_io_req->xid); srr.srr_rx_id = htons(orig_io_req->rx_id); srr.srr_rel_off = htonl(offset); srr.srr_r_ctl = r_ctl; rc = qedf_initiate_els(fcport, ELS_SRR, &srr, sizeof(srr), qedf_srr_compl, cb_arg, r_a_tov); srr_err: if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "SRR failed - release orig_io_req" "=0x%x\n", orig_io_req->xid); kfree(cb_arg); /* If we fail to queue SRR, send ABTS to orig_io */ qedf_initiate_abts(orig_io_req, true); kref_put(&orig_io_req->refcount, qedf_release_cmd); } else /* Tell other threads that SRR is in progress */ set_bit(QEDF_CMD_SRR_SENT, &orig_io_req->flags); return rc; } static void qedf_initiate_seq_cleanup(struct qedf_ioreq *orig_io_req, u32 offset, u8 r_ctl) { struct qedf_rport *fcport; unsigned long flags; struct qedf_els_cb_arg *cb_arg; struct fcoe_wqe *sqe; u16 sqe_idx; fcport = orig_io_req->fcport; QEDF_INFO(&(fcport->qedf->dbg_ctx), QEDF_LOG_ELS, "Doing sequence cleanup for xid=0x%x offset=%u.\n", orig_io_req->xid, offset); cb_arg = kzalloc(sizeof(struct qedf_els_cb_arg), GFP_NOIO); if (!cb_arg) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "Unable to allocate cb_arg " "for sequence cleanup\n"); return; } /* Get reference for cleanup request */ kref_get(&orig_io_req->refcount); orig_io_req->cmd_type = QEDF_SEQ_CLEANUP; cb_arg->offset = offset; cb_arg->r_ctl = r_ctl; orig_io_req->cb_arg = cb_arg; qedf_cmd_timer_set(fcport->qedf, orig_io_req, QEDF_CLEANUP_TIMEOUT * HZ); spin_lock_irqsave(&fcport->rport_lock, flags); sqe_idx = qedf_get_sqe_idx(fcport); sqe = &fcport->sq[sqe_idx]; memset(sqe, 0, sizeof(struct fcoe_wqe)); orig_io_req->task_params->sqe = sqe; init_initiator_sequence_recovery_fcoe_task(orig_io_req->task_params, offset); qedf_ring_doorbell(fcport); spin_unlock_irqrestore(&fcport->rport_lock, flags); } void qedf_process_seq_cleanup_compl(struct qedf_ctx *qedf, struct fcoe_cqe *cqe, struct qedf_ioreq *io_req) { int rc; struct qedf_els_cb_arg *cb_arg; cb_arg = io_req->cb_arg; /* If we timed out just free resources */ if (io_req->event == QEDF_IOREQ_EV_ELS_TMO || !cqe) { QEDF_ERR(&qedf->dbg_ctx, "cqe is NULL or timeout event (0x%x)", io_req->event); goto free; } /* Kill the timer we put on the request */ cancel_delayed_work_sync(&io_req->timeout_work); rc = qedf_send_srr(io_req, cb_arg->offset, cb_arg->r_ctl); if (rc) QEDF_ERR(&(qedf->dbg_ctx), "Unable to send SRR, I/O will " "abort, xid=0x%x.\n", io_req->xid); free: kfree(cb_arg); kref_put(&io_req->refcount, qedf_release_cmd); } static bool qedf_requeue_io_req(struct qedf_ioreq *orig_io_req) { struct qedf_rport *fcport; struct qedf_ioreq *new_io_req; unsigned long flags; bool rc = false; fcport = orig_io_req->fcport; if (!fcport) { QEDF_ERR(NULL, "fcport is NULL.\n"); goto out; } if (!orig_io_req->sc_cmd) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "sc_cmd is NULL for " "xid=0x%x.\n", orig_io_req->xid); goto out; } new_io_req = qedf_alloc_cmd(fcport, QEDF_SCSI_CMD); if (!new_io_req) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "Could not allocate new " "io_req.\n"); goto out; } new_io_req->sc_cmd = orig_io_req->sc_cmd; /* * This keeps the sc_cmd struct from being returned to the tape * driver and being requeued twice. We do need to put a reference * for the original I/O request since we will not do a SCSI completion * for it. */ orig_io_req->sc_cmd = NULL; kref_put(&orig_io_req->refcount, qedf_release_cmd); spin_lock_irqsave(&fcport->rport_lock, flags); /* kref for new command released in qedf_post_io_req on error */ if (qedf_post_io_req(fcport, new_io_req)) { QEDF_ERR(&(fcport->qedf->dbg_ctx), "Unable to post io_req\n"); /* Return SQE to pool */ atomic_inc(&fcport->free_sqes); } else { QEDF_INFO(&(fcport->qedf->dbg_ctx), QEDF_LOG_ELS, "Reissued SCSI command from orig_xid=0x%x on " "new_xid=0x%x.\n", orig_io_req->xid, new_io_req->xid); /* * Abort the original I/O but do not return SCSI command as * it has been reissued on another OX_ID. */ spin_unlock_irqrestore(&fcport->rport_lock, flags); qedf_initiate_abts(orig_io_req, false); goto out; } spin_unlock_irqrestore(&fcport->rport_lock, flags); out: return rc; } static void qedf_rec_compl(struct qedf_els_cb_arg *cb_arg) { struct qedf_ioreq *orig_io_req; struct qedf_ioreq *rec_req; struct qedf_mp_req *mp_req; struct fc_frame_header *mp_fc_hdr, *fh; struct fc_frame *fp; void *resp_buf, *fc_payload; u32 resp_len; struct fc_lport *lport; struct qedf_ctx *qedf; int refcount; enum fc_rctl r_ctl; struct fc_els_ls_rjt *rjt; struct fc_els_rec_acc *acc; u8 opcode; u32 offset, e_stat; struct scsi_cmnd *sc_cmd; bool srr_needed = false; rec_req = cb_arg->io_req; qedf = rec_req->fcport->qedf; lport = qedf->lport; orig_io_req = cb_arg->aborted_io_req; if (!orig_io_req) { QEDF_ERR(NULL, "orig_io_req is NULL.\n"); goto out_free; } if (rec_req->event != QEDF_IOREQ_EV_ELS_TMO && rec_req->event != QEDF_IOREQ_EV_ELS_ERR_DETECT) cancel_delayed_work_sync(&orig_io_req->timeout_work); refcount = kref_read(&orig_io_req->refcount); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Entered: orig_io=%p," " orig_io_xid=0x%x, rec_xid=0x%x, refcount=%d\n", orig_io_req, orig_io_req->xid, rec_req->xid, refcount); /* If a REC times out, free resources */ if (rec_req->event == QEDF_IOREQ_EV_ELS_TMO) { QEDF_ERR(&qedf->dbg_ctx, "Got TMO event, orig_io_req %p orig_io_xid=0x%x.\n", orig_io_req, orig_io_req->xid); goto out_put; } /* Normalize response data into struct fc_frame */ mp_req = &(rec_req->mp_req); mp_fc_hdr = &(mp_req->resp_fc_hdr); resp_len = mp_req->resp_len; acc = resp_buf = mp_req->resp_buf; fp = fc_frame_alloc(lport, resp_len); if (!fp) { QEDF_ERR(&(qedf->dbg_ctx), "fc_frame_alloc failure.\n"); goto out_put; } /* Copy frame header from firmware into fp */ fh = (struct fc_frame_header *)fc_frame_header_get(fp); memcpy(fh, mp_fc_hdr, sizeof(struct fc_frame_header)); /* Copy payload from firmware into fp */ fc_payload = fc_frame_payload_get(fp, resp_len); memcpy(fc_payload, resp_buf, resp_len); opcode = fc_frame_payload_op(fp); if (opcode == ELS_LS_RJT) { rjt = fc_frame_payload_get(fp, sizeof(*rjt)); if (!rjt) { QEDF_ERR(&qedf->dbg_ctx, "payload get failed"); goto out_free_frame; } QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Received LS_RJT for REC: er_reason=0x%x, " "er_explan=0x%x.\n", rjt->er_reason, rjt->er_explan); /* * The following response(s) mean that we need to reissue the * request on another exchange. We need to do this without * informing the upper layers lest it cause an application * error. */ if ((rjt->er_reason == ELS_RJT_LOGIC || rjt->er_reason == ELS_RJT_UNAB) && rjt->er_explan == ELS_EXPL_OXID_RXID) { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Handle CMD LOST case.\n"); qedf_requeue_io_req(orig_io_req); } } else if (opcode == ELS_LS_ACC) { offset = ntohl(acc->reca_fc4value); e_stat = ntohl(acc->reca_e_stat); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Received LS_ACC for REC: offset=0x%x, e_stat=0x%x.\n", offset, e_stat); if (e_stat & ESB_ST_SEQ_INIT) { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Target has the seq init\n"); goto out_free_frame; } sc_cmd = orig_io_req->sc_cmd; if (!sc_cmd) { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "sc_cmd is NULL for xid=0x%x.\n", orig_io_req->xid); goto out_free_frame; } /* SCSI write case */ if (sc_cmd->sc_data_direction == DMA_TO_DEVICE) { if (offset == orig_io_req->data_xfer_len) { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "WRITE - response lost.\n"); r_ctl = FC_RCTL_DD_CMD_STATUS; srr_needed = true; offset = 0; } else { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "WRITE - XFER_RDY/DATA lost.\n"); r_ctl = FC_RCTL_DD_DATA_DESC; /* Use data from warning CQE instead of REC */ offset = orig_io_req->tx_buf_off; } /* SCSI read case */ } else { if (orig_io_req->rx_buf_off == orig_io_req->data_xfer_len) { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "READ - response lost.\n"); srr_needed = true; r_ctl = FC_RCTL_DD_CMD_STATUS; offset = 0; } else { QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "READ - DATA lost.\n"); /* * For read case we always set the offset to 0 * for sequence recovery task. */ offset = 0; r_ctl = FC_RCTL_DD_SOL_DATA; } } if (srr_needed) qedf_send_srr(orig_io_req, offset, r_ctl); else qedf_initiate_seq_cleanup(orig_io_req, offset, r_ctl); } out_free_frame: fc_frame_free(fp); out_put: /* Put reference for original command since REC completed */ kref_put(&orig_io_req->refcount, qedf_release_cmd); out_free: kfree(cb_arg); } /* Assumes kref is already held by caller */ int qedf_send_rec(struct qedf_ioreq *orig_io_req) { struct fc_els_rec rec; struct qedf_rport *fcport; struct fc_lport *lport; struct qedf_els_cb_arg *cb_arg = NULL; struct qedf_ctx *qedf; uint32_t sid; uint32_t r_a_tov; int rc; if (!orig_io_req) { QEDF_ERR(NULL, "orig_io_req is NULL.\n"); return -EINVAL; } fcport = orig_io_req->fcport; /* Check that fcport is still offloaded */ if (!test_bit(QEDF_RPORT_SESSION_READY, &fcport->flags)) { QEDF_ERR(NULL, "fcport is no longer offloaded.\n"); return -EINVAL; } if (!fcport->qedf) { QEDF_ERR(NULL, "fcport->qedf is NULL.\n"); return -EINVAL; } /* Take reference until REC command completion */ kref_get(&orig_io_req->refcount); qedf = fcport->qedf; lport = qedf->lport; sid = fcport->sid; r_a_tov = lport->r_a_tov; memset(&rec, 0, sizeof(rec)); cb_arg = kzalloc(sizeof(struct qedf_els_cb_arg), GFP_NOIO); if (!cb_arg) { QEDF_ERR(&(qedf->dbg_ctx), "Unable to allocate cb_arg for " "REC\n"); rc = -ENOMEM; goto rec_err; } cb_arg->aborted_io_req = orig_io_req; rec.rec_cmd = ELS_REC; hton24(rec.rec_s_id, sid); rec.rec_ox_id = htons(orig_io_req->xid); rec.rec_rx_id = htons(orig_io_req->task->tstorm_st_context.read_write.rx_id); QEDF_INFO(&(qedf->dbg_ctx), QEDF_LOG_ELS, "Sending REC orig_io=%p, " "orig_xid=0x%x rx_id=0x%x\n", orig_io_req, orig_io_req->xid, rec.rec_rx_id); rc = qedf_initiate_els(fcport, ELS_REC, &rec, sizeof(rec), qedf_rec_compl, cb_arg, r_a_tov); rec_err: if (rc) { QEDF_ERR(&(qedf->dbg_ctx), "REC failed - release orig_io_req" "=0x%x\n", orig_io_req->xid); kfree(cb_arg); kref_put(&orig_io_req->refcount, qedf_release_cmd); } return rc; } |