/*- * Copyright (c) 2017 Broadcom. All rights reserved. * The term "Broadcom" refers to Broadcom Limited and/or its subsidiaries. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * $FreeBSD$ */ /** * @file * OCS driver remote node handler. This file contains code that is shared * between fabric (ocs_fabric.c) and device (ocs_device.c) nodes. */ /*! * @defgroup node_common Node common support * @defgroup node_alloc Node allocation */ #include "ocs.h" #include "ocs_els.h" #include "ocs_device.h" #define SCSI_IOFMT "[%04x][i:%0*x t:%0*x h:%04x]" #define SCSI_ITT_SIZE(ocs) ((ocs->ocs_xport == OCS_XPORT_FC) ? 4 : 8) #define SCSI_IOFMT_ARGS(io) io->instance_index, SCSI_ITT_SIZE(io->ocs), io->init_task_tag, SCSI_ITT_SIZE(io->ocs), io->tgt_task_tag, io->hw_tag #define scsi_io_printf(io, fmt, ...) ocs_log_debug(io->ocs, "[%s]" SCSI_IOFMT fmt, \ io->node->display_name, SCSI_IOFMT_ARGS(io), ##__VA_ARGS__) void ocs_mgmt_node_list(ocs_textbuf_t *textbuf, void *node); void ocs_mgmt_node_get_all(ocs_textbuf_t *textbuf, void *node); int ocs_mgmt_node_get(ocs_textbuf_t *textbuf, char *parent, char *name, void *node); int ocs_mgmt_node_set(char *parent, char *name, char *value, void *node); int ocs_mgmt_node_exec(char *parent, char *action, void *arg_in, uint32_t arg_in_length, void *arg_out, uint32_t arg_out_length, void *node); static ocs_mgmt_functions_t node_mgmt_functions = { .get_list_handler = ocs_mgmt_node_list, .get_handler = ocs_mgmt_node_get, .get_all_handler = ocs_mgmt_node_get_all, .set_handler = ocs_mgmt_node_set, .exec_handler = ocs_mgmt_node_exec, }; /** * @ingroup node_common * @brief Device node state machine wait for all ELS's to * complete * * Abort all ELS's for given node. * * @param node node for which ELS's will be aborted */ void ocs_node_abort_all_els(ocs_node_t *node) { ocs_io_t *els; ocs_io_t *els_next; ocs_node_cb_t cbdata = {0}; ocs_node_hold_frames(node); ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->els_io_active_list, els, els_next) { ocs_log_debug(node->ocs, "[%s] initiate ELS abort %s\n", node->display_name, els->display_name); ocs_unlock(&node->active_ios_lock); cbdata.els = els; ocs_els_post_event(els, OCS_EVT_ABORT_ELS, &cbdata); ocs_lock(&node->active_ios_lock); } ocs_unlock(&node->active_ios_lock); } /** * @ingroup node_common * @brief Handle remote node events from HW * * Handle remote node events from HW. Essentially the HW event is translated into * a node state machine event that is posted to the affected node. * * @param arg pointer to ocs * @param event HW event to proceoss * @param data application specific data (pointer to the affected node) * * @return returns 0 for success, a negative error code value for failure. */ int32_t ocs_remote_node_cb(void *arg, ocs_hw_remote_node_event_e event, void *data) { ocs_t *ocs = arg; ocs_sm_event_t sm_event = OCS_EVT_LAST; ocs_remote_node_t *rnode = data; ocs_node_t *node = rnode->node; switch (event) { case OCS_HW_NODE_ATTACH_OK: sm_event = OCS_EVT_NODE_ATTACH_OK; break; case OCS_HW_NODE_ATTACH_FAIL: sm_event = OCS_EVT_NODE_ATTACH_FAIL; break; case OCS_HW_NODE_FREE_OK: sm_event = OCS_EVT_NODE_FREE_OK; break; case OCS_HW_NODE_FREE_FAIL: sm_event = OCS_EVT_NODE_FREE_FAIL; break; default: ocs_log_test(ocs, "unhandled event %#x\n", event); return -1; } /* If we're using HLM, forward the NODE_ATTACH_OK/FAIL event to all nodes in the node group */ if ((node->node_group != NULL) && ((sm_event == OCS_EVT_NODE_ATTACH_OK) || (sm_event == OCS_EVT_NODE_ATTACH_FAIL))) { ocs_node_t *n = NULL; uint8_t attach_ok = sm_event == OCS_EVT_NODE_ATTACH_OK; ocs_sport_lock(node->sport); { ocs_list_foreach(&node->sport->node_list, n) { if (node == n) { continue; } ocs_node_lock(n); if ((!n->rnode.attached) && (node->node_group == n->node_group)) { n->rnode.attached = attach_ok; node_printf(n, "rpi[%d] deferred HLM node attach %s posted\n", n->rnode.index, attach_ok ? "ok" : "fail"); ocs_node_post_event(n, sm_event, NULL); } ocs_node_unlock(n); } } ocs_sport_unlock(node->sport); } ocs_node_post_event(node, sm_event, NULL); return 0; } /** * @ingroup node_alloc * @brief Find an FC node structure given the FC port ID * * @param sport the SPORT to search * @param port_id FC port ID * * @return pointer to the object or NULL if not found */ ocs_node_t * ocs_node_find(ocs_sport_t *sport, uint32_t port_id) { ocs_node_t *node; ocs_assert(sport->lookup, NULL); ocs_sport_lock(sport); node = spv_get(sport->lookup, port_id); ocs_sport_unlock(sport); return node; } /** * @ingroup node_alloc * @brief Find an FC node structure given the WWPN * * @param sport the SPORT to search * @param wwpn the WWPN to search for (host endian) * * @return pointer to the object or NULL if not found */ ocs_node_t * ocs_node_find_wwpn(ocs_sport_t *sport, uint64_t wwpn) { ocs_node_t *node = NULL;; ocs_assert(sport, NULL); ocs_sport_lock(sport); ocs_list_foreach(&sport->node_list, node) { if (ocs_node_get_wwpn(node) == wwpn) { ocs_sport_unlock(sport); return node; } } ocs_sport_unlock(sport); return NULL; } /** * @ingroup node_alloc * @brief allocate node object pool * * A pool of ocs_node_t objects is allocated. * * @param ocs pointer to driver instance context * @param node_count count of nodes to allocate * * @return returns 0 for success, a negative error code value for failure. */ int32_t ocs_node_create_pool(ocs_t *ocs, uint32_t node_count) { ocs_xport_t *xport = ocs->xport; uint32_t i; ocs_node_t *node; uint32_t max_sge; uint32_t num_sgl; uint64_t max_xfer_size; int32_t rc; xport->nodes_count = node_count; xport->nodes = ocs_malloc(ocs, node_count * sizeof(ocs_node_t *), OCS_M_ZERO | OCS_M_NOWAIT); if (xport->nodes == NULL) { ocs_log_err(ocs, "node ptrs allocation failed"); return -1; } if (0 == ocs_hw_get(&ocs->hw, OCS_HW_MAX_SGE, &max_sge) && 0 == ocs_hw_get(&ocs->hw, OCS_HW_N_SGL, &num_sgl)) { max_xfer_size = max_sge * num_sgl; } else { max_xfer_size = 65536; } if (max_xfer_size > 65536) max_xfer_size = 65536; ocs_list_init(&xport->nodes_free_list, ocs_node_t, link); for (i = 0; i < node_count; i ++) { node = ocs_malloc(ocs, sizeof(ocs_node_t), OCS_M_ZERO | OCS_M_NOWAIT); if (node == NULL) { ocs_log_err(ocs, "node allocation failed"); goto error; } /* Assign any persistent field values */ node->instance_index = i; node->max_wr_xfer_size = max_xfer_size; node->rnode.indicator = UINT32_MAX; rc = ocs_dma_alloc(ocs, &node->sparm_dma_buf, 256, 16); if (rc) { ocs_free(ocs, node, sizeof(ocs_node_t)); ocs_log_err(ocs, "ocs_dma_alloc failed: %d\n", rc); goto error; } xport->nodes[i] = node; ocs_list_add_tail(&xport->nodes_free_list, node); } return 0; error: ocs_node_free_pool(ocs); return -1; } /** * @ingroup node_alloc * @brief free node object pool * * The pool of previously allocated node objects is freed * * @param ocs pointer to driver instance context * * @return none */ void ocs_node_free_pool(ocs_t *ocs) { ocs_xport_t *xport = ocs->xport; ocs_node_t *node; uint32_t i; if (!xport->nodes) return; ocs_device_lock(ocs); for (i = 0; i < xport->nodes_count; i ++) { node = xport->nodes[i]; if (node) { /* free sparam_dma_buf */ ocs_dma_free(ocs, &node->sparm_dma_buf); ocs_free(ocs, node, sizeof(ocs_node_t)); } xport->nodes[i] = NULL; } ocs_free(ocs, xport->nodes, (xport->nodes_count * sizeof(ocs_node_t *))); ocs_device_unlock(ocs); } /** * @ingroup node_alloc * @brief return pointer to node object given instance index * * A pointer to the node object given by an instance index is returned. * * @param ocs pointer to driver instance context * @param index instance index * * @return returns pointer to node object, or NULL */ ocs_node_t * ocs_node_get_instance(ocs_t *ocs, uint32_t index) { ocs_xport_t *xport = ocs->xport; ocs_node_t *node = NULL; if (index >= (xport->nodes_count)) { ocs_log_test(ocs, "invalid index: %d\n", index); return NULL; } node = xport->nodes[index]; return node->attached ? node : NULL; } /** * @ingroup node_alloc * @brief Allocate an fc node structure and add to node list * * @param sport pointer to the SPORT from which this node is allocated * @param port_id FC port ID of new node * @param init Port is an inititiator (sent a plogi) * @param targ Port is potentially a target * * @return pointer to the object or NULL if none available */ ocs_node_t * ocs_node_alloc(ocs_sport_t *sport, uint32_t port_id, uint8_t init, uint8_t targ) { int32_t rc; ocs_node_t *node = NULL; uint32_t instance_index; uint32_t max_wr_xfer_size; ocs_t *ocs = sport->ocs; ocs_xport_t *xport = ocs->xport; ocs_dma_t sparm_dma_buf; ocs_assert(sport, NULL); if (sport->shutting_down) { ocs_log_debug(ocs, "node allocation when shutting down %06x", port_id); return NULL; } ocs_device_lock(ocs); node = ocs_list_remove_head(&xport->nodes_free_list); ocs_device_unlock(ocs); if (node == NULL) { ocs_log_err(ocs, "node allocation failed %06x", port_id); return NULL; } /* Save persistent values across memset zero */ instance_index = node->instance_index; max_wr_xfer_size = node->max_wr_xfer_size; sparm_dma_buf = node->sparm_dma_buf; ocs_memset(node, 0, sizeof(*node)); node->instance_index = instance_index; node->max_wr_xfer_size = max_wr_xfer_size; node->sparm_dma_buf = sparm_dma_buf; node->rnode.indicator = UINT32_MAX; node->sport = sport; ocs_sport_lock(sport); node->ocs = ocs; node->init = init; node->targ = targ; rc = ocs_hw_node_alloc(&ocs->hw, &node->rnode, port_id, sport); if (rc) { ocs_log_err(ocs, "ocs_hw_node_alloc failed: %d\n", rc); ocs_sport_unlock(sport); /* Return back to pool. */ ocs_device_lock(ocs); ocs_list_add_tail(&xport->nodes_free_list, node); ocs_device_unlock(ocs); return NULL; } ocs_list_add_tail(&sport->node_list, node); ocs_node_lock_init(node); ocs_lock_init(ocs, &node->pend_frames_lock, "pend_frames_lock[%d]", node->instance_index); ocs_list_init(&node->pend_frames, ocs_hw_sequence_t, link); ocs_lock_init(ocs, &node->active_ios_lock, "active_ios[%d]", node->instance_index); ocs_list_init(&node->active_ios, ocs_io_t, link); ocs_list_init(&node->els_io_pend_list, ocs_io_t, link); ocs_list_init(&node->els_io_active_list, ocs_io_t, link); ocs_scsi_io_alloc_enable(node); /* zero the service parameters */ ocs_memset(node->sparm_dma_buf.virt, 0, node->sparm_dma_buf.size); node->rnode.node = node; node->sm.app = node; node->evtdepth = 0; ocs_node_update_display_name(node); spv_set(sport->lookup, port_id, node); ocs_sport_unlock(sport); node->mgmt_functions = &node_mgmt_functions; return node; } /** * @ingroup node_alloc * @brief free a node structure * * The node structure given by 'node' is free'd * * @param node the node to free * * @return returns 0 for success, a negative error code value for failure. */ int32_t ocs_node_free(ocs_node_t *node) { ocs_sport_t *sport; ocs_t *ocs; ocs_xport_t *xport; ocs_hw_rtn_e rc = 0; ocs_node_t *ns = NULL; int post_all_free = FALSE; ocs_assert(node, -1); ocs_assert(node->sport, -1); ocs_assert(node->ocs, -1); sport = node->sport; ocs_assert(sport, -1); ocs = node->ocs; ocs_assert(ocs->xport, -1); xport = ocs->xport; node_printf(node, "Free'd\n"); if(node->refound) { /* * Save the name server node. We will send fake RSCN event at * the end to handle ignored RSCN event during node deletion */ ns = ocs_node_find(node->sport, FC_ADDR_NAMESERVER); } /* Remove from node list */ ocs_sport_lock(sport); ocs_list_remove(&sport->node_list, node); /* Free HW resources */ if (OCS_HW_RTN_IS_ERROR((rc = ocs_hw_node_free_resources(&ocs->hw, &node->rnode)))) { ocs_log_test(ocs, "ocs_hw_node_free failed: %d\n", rc); rc = -1; } /* if the gidpt_delay_timer is still running, then delete it */ if (ocs_timer_pending(&node->gidpt_delay_timer)) { ocs_del_timer(&node->gidpt_delay_timer); } if (node->fcp2device) { ocs_del_crn(node); } /* remove entry from sparse vector list */ if (sport->lookup == NULL) { ocs_log_test(node->ocs, "assertion failed: sport lookup is NULL\n"); ocs_sport_unlock(sport); return -1; } spv_set(sport->lookup, node->rnode.fc_id, NULL); /* * If the node_list is empty, then post a ALL_CHILD_NODES_FREE event to the sport, * after the lock is released. The sport may be free'd as a result of the event. */ if (ocs_list_empty(&sport->node_list)) { post_all_free = TRUE; } ocs_sport_unlock(sport); if (post_all_free) { ocs_sm_post_event(&sport->sm, OCS_EVT_ALL_CHILD_NODES_FREE, NULL); } node->sport = NULL; node->sm.current_state = NULL; ocs_node_lock_free(node); ocs_lock_free(&node->pend_frames_lock); ocs_lock_free(&node->active_ios_lock); /* return to free list */ ocs_device_lock(ocs); ocs_list_add_tail(&xport->nodes_free_list, node); ocs_device_unlock(ocs); if(ns != NULL) { /* sending fake RSCN event to name server node */ ocs_node_post_event(ns, OCS_EVT_RSCN_RCVD, NULL); } return rc; } /** * @brief free memory resources of a node object * * The node object's child objects are freed after which the * node object is freed. * * @param node pointer to a node object * * @return none */ void ocs_node_force_free(ocs_node_t *node) { ocs_io_t *io; ocs_io_t *next; ocs_io_t *els; ocs_io_t *els_next; /* shutdown sm processing */ ocs_sm_disable(&node->sm); ocs_strncpy(node->prev_state_name, node->current_state_name, sizeof(node->prev_state_name)); ocs_strncpy(node->current_state_name, "disabled", sizeof(node->current_state_name)); /* Let the backend cleanup if needed */ ocs_scsi_notify_node_force_free(node); ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->active_ios, io, next) { ocs_list_remove(&io->node->active_ios, io); ocs_io_free(node->ocs, io); } ocs_unlock(&node->active_ios_lock); /* free all pending ELS IOs */ ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->els_io_pend_list, els, els_next) { /* can't call ocs_els_io_free() because lock is held; cleanup manually */ ocs_list_remove(&node->els_io_pend_list, els); ocs_io_free(node->ocs, els); } ocs_unlock(&node->active_ios_lock); /* free all active ELS IOs */ ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->els_io_active_list, els, els_next) { /* can't call ocs_els_io_free() because lock is held; cleanup manually */ ocs_list_remove(&node->els_io_active_list, els); ocs_io_free(node->ocs, els); } ocs_unlock(&node->active_ios_lock); /* manually purge pending frames (if any) */ ocs_node_purge_pending(node); ocs_node_free(node); } /** * @ingroup node_common * @brief Perform HW call to attach a remote node * * @param node pointer to node object * * @return 0 on success, non-zero otherwise */ int32_t ocs_node_attach(ocs_node_t *node) { int32_t rc = 0; ocs_sport_t *sport = node->sport; ocs_domain_t *domain = sport->domain; ocs_t *ocs = node->ocs; if (!domain->attached) { ocs_log_test(ocs, "Warning: ocs_node_attach with unattached domain\n"); return -1; } /* Update node->wwpn/wwnn */ ocs_node_build_eui_name(node->wwpn, sizeof(node->wwpn), ocs_node_get_wwpn(node)); ocs_node_build_eui_name(node->wwnn, sizeof(node->wwnn), ocs_node_get_wwnn(node)); if (ocs->enable_hlm) { ocs_node_group_init(node); } ocs_dma_copy_in(&node->sparm_dma_buf, node->service_params+4, sizeof(node->service_params)-4); /* take lock to protect node->rnode.attached */ ocs_node_lock(node); rc = ocs_hw_node_attach(&ocs->hw, &node->rnode, &node->sparm_dma_buf); if (OCS_HW_RTN_IS_ERROR(rc)) { ocs_log_test(ocs, "ocs_hw_node_attach failed: %d\n", rc); } ocs_node_unlock(node); return rc; } /** * @ingroup node_common * @brief Generate text for a node's fc_id * * The text for a nodes fc_id is generated, either as a well known name, or a 6 digit * hex value. * * @param fc_id fc_id * @param buffer text buffer * @param buffer_length text buffer length in bytes * * @return none */ void ocs_node_fcid_display(uint32_t fc_id, char *buffer, uint32_t buffer_length) { switch (fc_id) { case FC_ADDR_FABRIC: ocs_snprintf(buffer, buffer_length, "fabric"); break; case FC_ADDR_CONTROLLER: ocs_snprintf(buffer, buffer_length, "fabctl"); break; case FC_ADDR_NAMESERVER: ocs_snprintf(buffer, buffer_length, "nserve"); break; default: if (FC_ADDR_IS_DOMAIN_CTRL(fc_id)) { ocs_snprintf(buffer, buffer_length, "dctl%02x", FC_ADDR_GET_DOMAIN_CTRL(fc_id)); } else { ocs_snprintf(buffer, buffer_length, "%06x", fc_id); } break; } } /** * @brief update the node's display name * * The node's display name is updated, sometimes needed because the sport part * is updated after the node is allocated. * * @param node pointer to the node object * * @return none */ void ocs_node_update_display_name(ocs_node_t *node) { uint32_t port_id = node->rnode.fc_id; ocs_sport_t *sport = node->sport; char portid_display[16]; ocs_assert(sport); ocs_node_fcid_display(port_id, portid_display, sizeof(portid_display)); ocs_snprintf(node->display_name, sizeof(node->display_name), "%s.%s", sport->display_name, portid_display); } /** * @brief cleans up an XRI for the pending link services accept by aborting the * XRI if required. * *

Description

* This function is called when the LS accept is not sent. * * @param node Node for which should be cleaned up */ void ocs_node_send_ls_io_cleanup(ocs_node_t *node) { ocs_t *ocs = node->ocs; if (node->send_ls_acc != OCS_NODE_SEND_LS_ACC_NONE) { ocs_assert(node->ls_acc_io); ocs_log_debug(ocs, "[%s] cleaning up LS_ACC oxid=0x%x\n", node->display_name, node->ls_acc_oxid); node->ls_acc_io->hio = NULL; ocs_els_io_free(node->ls_acc_io); node->send_ls_acc = OCS_NODE_SEND_LS_ACC_NONE; node->ls_acc_io = NULL; } } /** * @ingroup node_common * @brief state: shutdown a node * * A node is shutdown, * * @param ctx remote node sm context * @param evt event to process * @param arg per event optional argument * * @return returns NULL * * @note */ void * __ocs_node_shutdown(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { int32_t rc; std_node_state_decl(); node_sm_trace(); switch(evt) { case OCS_EVT_ENTER: { ocs_node_hold_frames(node); ocs_assert(ocs_node_active_ios_empty(node), NULL); ocs_assert(ocs_els_io_list_empty(node, &node->els_io_active_list), NULL); /* by default, we will be freeing node after we unwind */ node->req_free = 1; switch (node->shutdown_reason) { case OCS_NODE_SHUTDOWN_IMPLICIT_LOGO: /* sm: if shutdown reason is implicit logout / ocs_node_attach * Node shutdown b/c of PLOGI received when node already * logged in. We have PLOGI service parameters, so submit * node attach; we won't be freeing this node */ /* currently, only case for implicit logo is PLOGI recvd. Thus, * node's ELS IO pending list won't be empty (PLOGI will be on it) */ ocs_assert(node->send_ls_acc == OCS_NODE_SEND_LS_ACC_PLOGI, NULL); node_printf(node, "Shutdown reason: implicit logout, re-authenticate\n"); ocs_scsi_io_alloc_enable(node); /* Re-attach node with the same HW node resources */ node->req_free = 0; rc = ocs_node_attach(node); ocs_node_transition(node, __ocs_d_wait_node_attach, NULL); if (rc == OCS_HW_RTN_SUCCESS_SYNC) { ocs_node_post_event(node, OCS_EVT_NODE_ATTACH_OK, NULL); } break; case OCS_NODE_SHUTDOWN_EXPLICIT_LOGO: { int8_t pend_frames_empty; /* cleanup any pending LS_ACC ELSs */ ocs_node_send_ls_io_cleanup(node); ocs_assert(ocs_els_io_list_empty(node, &node->els_io_pend_list), NULL); ocs_lock(&node->pend_frames_lock); pend_frames_empty = ocs_list_empty(&node->pend_frames); ocs_unlock(&node->pend_frames_lock); /* there are two scenarios where we want to keep this node alive: * 1. there are pending frames that need to be processed or * 2. we're an initiator and the remote node is a target and we * need to re-authenticate */ node_printf(node, "Shutdown: explicit logo pend=%d sport.ini=%d node.tgt=%d\n", !pend_frames_empty, node->sport->enable_ini, node->targ); if((!pend_frames_empty) || (node->sport->enable_ini && node->targ)) { uint8_t send_plogi = FALSE; if (node->sport->enable_ini && node->targ) { /* we're an initiator and node shutting down is a target; we'll * need to re-authenticate in initial state */ send_plogi = TRUE; } /* transition to __ocs_d_init (will retain HW node resources) */ ocs_scsi_io_alloc_enable(node); node->req_free = 0; /* either pending frames exist, or we're re-authenticating with PLOGI * (or both); in either case, return to initial state */ ocs_node_init_device(node, send_plogi); } /* else: let node shutdown occur */ break; } case OCS_NODE_SHUTDOWN_DEFAULT: default: /* shutdown due to link down, node going away (xport event) or * sport shutdown, purge pending and proceed to cleanup node */ /* cleanup any pending LS_ACC ELSs */ ocs_node_send_ls_io_cleanup(node); ocs_assert(ocs_els_io_list_empty(node, &node->els_io_pend_list), NULL); node_printf(node, "Shutdown reason: default, purge pending\n"); ocs_node_purge_pending(node); break; } break; } case OCS_EVT_EXIT: ocs_node_accept_frames(node); break; default: __ocs_node_common(__func__, ctx, evt, arg); return NULL; } return NULL; } /** * @ingroup common_node * @brief Checks to see if ELS's have been quiesced * * Check if ELS's have been quiesced. If so, transition to the * next state in the shutdown process. * * @param node Node for which ELS's are checked * * @return Returns 1 if ELS's have been quiesced, 0 otherwise. */ static int ocs_node_check_els_quiesced(ocs_node_t *node) { ocs_assert(node, -1); /* check to see if ELS requests, completions are quiesced */ if ((node->els_req_cnt == 0) && (node->els_cmpl_cnt == 0) && ocs_els_io_list_empty(node, &node->els_io_active_list)) { if (!node->attached) { /* hw node detach already completed, proceed */ node_printf(node, "HW node not attached\n"); ocs_node_transition(node, __ocs_node_wait_ios_shutdown, NULL); } else { /* hw node detach hasn't completed, transition and wait */ node_printf(node, "HW node still attached\n"); ocs_node_transition(node, __ocs_node_wait_node_free, NULL); } return 1; } return 0; } /** * @ingroup common_node * @brief Initiate node IO cleanup. * * Note: this function must be called with a non-attached node * or a node for which the node detach (ocs_hw_node_detach()) * has already been initiated. * * @param node Node for which shutdown is initiated * * @return Returns None. */ void ocs_node_initiate_cleanup(ocs_node_t *node) { ocs_io_t *els; ocs_io_t *els_next; ocs_t *ocs; ocs_assert(node); ocs = node->ocs; /* first cleanup ELS's that are pending (not yet active) */ ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->els_io_pend_list, els, els_next) { /* skip the ELS IO for which a response will be sent after shutdown */ if ((node->send_ls_acc != OCS_NODE_SEND_LS_ACC_NONE) && (els == node->ls_acc_io)) { continue; } /* can't call ocs_els_io_free() because lock is held; cleanup manually */ node_printf(node, "Freeing pending els %s\n", els->display_name); ocs_list_remove(&node->els_io_pend_list, els); ocs_io_free(node->ocs, els); } ocs_unlock(&node->active_ios_lock); if (node->ls_acc_io && node->ls_acc_io->hio != NULL) { /* * if there's an IO that will result in an LS_ACC after * shutdown and its HW IO is non-NULL, it better be an * implicit logout in vanilla sequence coalescing. In this * case, force the LS_ACC to go out on another XRI (hio) * since the previous will have been aborted by the UNREG_RPI */ ocs_assert(node->shutdown_reason == OCS_NODE_SHUTDOWN_IMPLICIT_LOGO); ocs_assert(node->send_ls_acc == OCS_NODE_SEND_LS_ACC_PLOGI); node_printf(node, "invalidating ls_acc_io due to implicit logo\n"); /* No need to abort because the unreg_rpi takes care of it, just free */ ocs_hw_io_free(&ocs->hw, node->ls_acc_io->hio); /* NULL out hio to force the LS_ACC to grab a new XRI */ node->ls_acc_io->hio = NULL; } /* * if ELS's have already been quiesced, will move to next state * if ELS's have not been quiesced, abort them */ if (ocs_node_check_els_quiesced(node) == 0) { /* * Abort all ELS's since ELS's won't be aborted by HW * node free. */ ocs_node_abort_all_els(node); ocs_node_transition(node, __ocs_node_wait_els_shutdown, NULL); } } /** * @ingroup node_common * @brief Node state machine: Wait for all ELSs to complete. * *

Description

* State waits for all ELSs to complete after aborting all * outstanding . * * @param ctx Remote node state machine context. * @param evt Event to process. * @param arg Per event optional argument. * * @return Returns NULL. */ void * __ocs_node_wait_els_shutdown(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { uint8_t check_quiesce = FALSE; std_node_state_decl(); node_sm_trace(); switch(evt) { case OCS_EVT_ENTER: { ocs_node_hold_frames(node); if (ocs_els_io_list_empty(node, &node->els_io_active_list)) { node_printf(node, "All ELS IOs complete\n"); check_quiesce = TRUE; } break; } case OCS_EVT_EXIT: ocs_node_accept_frames(node); break; case OCS_EVT_SRRS_ELS_REQ_OK: case OCS_EVT_SRRS_ELS_REQ_FAIL: case OCS_EVT_SRRS_ELS_REQ_RJT: case OCS_EVT_ELS_REQ_ABORTED: ocs_assert(node->els_req_cnt, NULL); node->els_req_cnt--; check_quiesce = TRUE; break; case OCS_EVT_SRRS_ELS_CMPL_OK: case OCS_EVT_SRRS_ELS_CMPL_FAIL: ocs_assert(node->els_cmpl_cnt, NULL); node->els_cmpl_cnt--; check_quiesce = TRUE; break; case OCS_EVT_ALL_CHILD_NODES_FREE: /* all ELS IO's complete */ node_printf(node, "All ELS IOs complete\n"); ocs_assert(ocs_els_io_list_empty(node, &node->els_io_active_list), NULL); check_quiesce = TRUE; break; case OCS_EVT_NODE_ACTIVE_IO_LIST_EMPTY: break; case OCS_EVT_DOMAIN_ATTACH_OK: /* don't care about domain_attach_ok */ break; /* ignore shutdown events as we're already in shutdown path */ case OCS_EVT_SHUTDOWN: /* have default shutdown event take precedence */ node->shutdown_reason = OCS_NODE_SHUTDOWN_DEFAULT; /* fall through */ case OCS_EVT_SHUTDOWN_EXPLICIT_LOGO: case OCS_EVT_SHUTDOWN_IMPLICIT_LOGO: node_printf(node, "%s received\n", ocs_sm_event_name(evt)); break; default: __ocs_node_common(__func__, ctx, evt, arg); return NULL; } if (check_quiesce) { ocs_node_check_els_quiesced(node); } return NULL; } /** * @ingroup node_command * @brief Node state machine: Wait for a HW node free event to * complete. * *

Description

* State waits for the node free event to be received from the HW. * * @param ctx Remote node state machine context. * @param evt Event to process. * @param arg Per event optional argument. * * @return Returns NULL. */ void * __ocs_node_wait_node_free(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { std_node_state_decl(); node_sm_trace(); switch(evt) { case OCS_EVT_ENTER: ocs_node_hold_frames(node); break; case OCS_EVT_EXIT: ocs_node_accept_frames(node); break; case OCS_EVT_NODE_FREE_OK: /* node is officially no longer attached */ node->attached = FALSE; ocs_node_transition(node, __ocs_node_wait_ios_shutdown, NULL); break; case OCS_EVT_ALL_CHILD_NODES_FREE: case OCS_EVT_NODE_ACTIVE_IO_LIST_EMPTY: /* As IOs and ELS IO's complete we expect to get these events */ break; case OCS_EVT_DOMAIN_ATTACH_OK: /* don't care about domain_attach_ok */ break; /* ignore shutdown events as we're already in shutdown path */ case OCS_EVT_SHUTDOWN: /* have default shutdown event take precedence */ node->shutdown_reason = OCS_NODE_SHUTDOWN_DEFAULT; /* Fall through */ case OCS_EVT_SHUTDOWN_EXPLICIT_LOGO: case OCS_EVT_SHUTDOWN_IMPLICIT_LOGO: node_printf(node, "%s received\n", ocs_sm_event_name(evt)); break; default: __ocs_node_common(__func__, ctx, evt, arg); return NULL; } return NULL; } /** * @ingroup node_common * @brief state: initiate node shutdown * * State is entered when a node receives a shutdown event, and it's waiting * for all the active IOs and ELS IOs associated with the node to complete. * * @param ctx remote node sm context * @param evt event to process * @param arg per event optional argument * * @return returns NULL */ void * __ocs_node_wait_ios_shutdown(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { ocs_io_t *io; ocs_io_t *next; std_node_state_decl(); node_sm_trace(); switch(evt) { case OCS_EVT_ENTER: ocs_node_hold_frames(node); /* first check to see if no ELS IOs are outstanding */ if (ocs_els_io_list_empty(node, &node->els_io_active_list)) { /* If there are any active IOS, Free them. */ if (!ocs_node_active_ios_empty(node)) { ocs_lock(&node->active_ios_lock); ocs_list_foreach_safe(&node->active_ios, io, next) { ocs_list_remove(&io->node->active_ios, io); ocs_io_free(node->ocs, io); } ocs_unlock(&node->active_ios_lock); } ocs_node_transition(node, __ocs_node_shutdown, NULL); } break; case OCS_EVT_NODE_ACTIVE_IO_LIST_EMPTY: case OCS_EVT_ALL_CHILD_NODES_FREE: { if (ocs_node_active_ios_empty(node) && ocs_els_io_list_empty(node, &node->els_io_active_list)) { ocs_node_transition(node, __ocs_node_shutdown, NULL); } break; } case OCS_EVT_EXIT: ocs_node_accept_frames(node); break; case OCS_EVT_SRRS_ELS_REQ_FAIL: /* Can happen as ELS IO IO's complete */ ocs_assert(node->els_req_cnt, NULL); node->els_req_cnt--; break; /* ignore shutdown events as we're already in shutdown path */ case OCS_EVT_SHUTDOWN: /* have default shutdown event take precedence */ node->shutdown_reason = OCS_NODE_SHUTDOWN_DEFAULT; /* fall through */ case OCS_EVT_SHUTDOWN_EXPLICIT_LOGO: case OCS_EVT_SHUTDOWN_IMPLICIT_LOGO: ocs_log_debug(ocs, "[%s] %-20s\n", node->display_name, ocs_sm_event_name(evt)); break; case OCS_EVT_DOMAIN_ATTACH_OK: /* don't care about domain_attach_ok */ break; default: __ocs_node_common(__func__, ctx, evt, arg); return NULL; } return NULL; } /** * @ingroup node_common * @brief state: common node event handler * * Handle common/shared node events * * @param funcname calling function's name * @param ctx remote node sm context * @param evt event to process * @param arg per event optional argument * * @return returns NULL */ void * __ocs_node_common(const char *funcname, ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { ocs_node_t *node = NULL; ocs_t *ocs = NULL; ocs_node_cb_t *cbdata = arg; ocs_assert(ctx, NULL); ocs_assert(ctx->app, NULL); node = ctx->app; ocs_assert(node->ocs, NULL); ocs = node->ocs; switch(evt) { case OCS_EVT_ENTER: case OCS_EVT_REENTER: case OCS_EVT_EXIT: case OCS_EVT_SPORT_TOPOLOGY_NOTIFY: case OCS_EVT_NODE_MISSING: case OCS_EVT_FCP_CMD_RCVD: break; case OCS_EVT_NODE_REFOUND: node->refound = 1; break; /* node->attached must be set appropriately for all node attach/detach events */ case OCS_EVT_NODE_ATTACH_OK: node->attached = TRUE; break; case OCS_EVT_NODE_FREE_OK: case OCS_EVT_NODE_ATTACH_FAIL: node->attached = FALSE; break; /* handle any ELS completions that other states either didn't care about * or forgot about */ case OCS_EVT_SRRS_ELS_CMPL_OK: case OCS_EVT_SRRS_ELS_CMPL_FAIL: ocs_assert(node->els_cmpl_cnt, NULL); node->els_cmpl_cnt--; break; /* handle any ELS request completions that other states either didn't care about * or forgot about */ case OCS_EVT_SRRS_ELS_REQ_OK: case OCS_EVT_SRRS_ELS_REQ_FAIL: case OCS_EVT_SRRS_ELS_REQ_RJT: case OCS_EVT_ELS_REQ_ABORTED: ocs_assert(node->els_req_cnt, NULL); node->els_req_cnt--; break; case OCS_EVT_ELS_RCVD: { fc_header_t *hdr = cbdata->header->dma.virt; /* Unsupported ELS was received, send LS_RJT, command not supported */ ocs_log_debug(ocs, "[%s] (%s) ELS x%02x, LS_RJT not supported\n", node->display_name, funcname, ((uint8_t*)cbdata->payload->dma.virt)[0]); ocs_send_ls_rjt(cbdata->io, ocs_be16toh(hdr->ox_id), FC_REASON_COMMAND_NOT_SUPPORTED, FC_EXPL_NO_ADDITIONAL, 0, NULL, NULL); break; } case OCS_EVT_PLOGI_RCVD: case OCS_EVT_FLOGI_RCVD: case OCS_EVT_LOGO_RCVD: case OCS_EVT_PRLI_RCVD: case OCS_EVT_PRLO_RCVD: case OCS_EVT_PDISC_RCVD: case OCS_EVT_FDISC_RCVD: case OCS_EVT_ADISC_RCVD: case OCS_EVT_RSCN_RCVD: case OCS_EVT_SCR_RCVD: { fc_header_t *hdr = cbdata->header->dma.virt; /* sm: / send ELS_RJT */ ocs_log_debug(ocs, "[%s] (%s) %s sending ELS_RJT\n", node->display_name, funcname, ocs_sm_event_name(evt)); /* if we didn't catch this in a state, send generic LS_RJT */ ocs_send_ls_rjt(cbdata->io, ocs_be16toh(hdr->ox_id), FC_REASON_UNABLE_TO_PERFORM, FC_EXPL_NO_ADDITIONAL, 0, NULL, NULL); break; } case OCS_EVT_GID_PT_RCVD: case OCS_EVT_RFT_ID_RCVD: case OCS_EVT_RFF_ID_RCVD: { fc_header_t *hdr = cbdata->header->dma.virt; ocs_log_debug(ocs, "[%s] (%s) %s sending CT_REJECT\n", node->display_name, funcname, ocs_sm_event_name(evt)); ocs_send_ct_rsp(cbdata->io, hdr->ox_id, cbdata->payload->dma.virt, FCCT_HDR_CMDRSP_REJECT, FCCT_COMMAND_NOT_SUPPORTED, 0); break; } case OCS_EVT_ABTS_RCVD: { fc_header_t *hdr = cbdata->header->dma.virt; ocs_log_debug(ocs, "[%s] (%s) %s sending BA_ACC\n", node->display_name, funcname, ocs_sm_event_name(evt)); /* sm: send BA_ACC */ ocs_bls_send_acc_hdr(cbdata->io, hdr); break; } default: ocs_log_test(node->ocs, "[%s] %-20s %-20s not handled\n", node->display_name, funcname, ocs_sm_event_name(evt)); break; } return NULL; } /** * @ingroup node_common * @brief save node service parameters * * Service parameters are copyed into the node structure * * @param node pointer to node structure * @param payload pointer to service parameters to save * * @return none */ void ocs_node_save_sparms(ocs_node_t *node, void *payload) { ocs_memcpy(node->service_params, payload, sizeof(node->service_params)); } /** * @ingroup node_common * @brief Post event to node state machine context * * This is used by the node state machine code to post events to the nodes. Upon * completion of the event posting, if the nesting depth is zero and we're not holding * inbound frames, then the pending frames are processed. * * @param node pointer to node * @param evt event to post * @param arg event posting argument * * @return none */ void ocs_node_post_event(ocs_node_t *node, ocs_sm_event_t evt, void *arg) { int free_node = FALSE; ocs_assert(node); ocs_node_lock(node); node->evtdepth ++; ocs_sm_post_event(&node->sm, evt, arg); /* If our event call depth is one and we're not holding frames * then we can dispatch any pending frames. We don't want to allow * the ocs_process_node_pending() call to recurse. */ if (!node->hold_frames && (node->evtdepth == 1)) { ocs_process_node_pending(node); } node->evtdepth --; /* Free the node object if so requested, and we're at an event * call depth of zero */ if ((node->evtdepth == 0) && node->req_free) { free_node = TRUE; } ocs_node_unlock(node); if (free_node) { ocs_node_free(node); } return; } /** * @ingroup node_common * @brief transition state of a node * * The node's state is transitioned to the requested state. Entry/Exit * events are posted as needed. * * @param node pointer to node * @param state state to transition to * @param data transition data * * @return none */ void ocs_node_transition(ocs_node_t *node, ocs_sm_function_t state, void *data) { ocs_sm_ctx_t *ctx = &node->sm; ocs_node_lock(node); if (ctx->current_state == state) { ocs_node_post_event(node, OCS_EVT_REENTER, data); } else { ocs_node_post_event(node, OCS_EVT_EXIT, data); ctx->current_state = state; ocs_node_post_event(node, OCS_EVT_ENTER, data); } ocs_node_unlock(node); } /** * @ingroup node_common * @brief build EUI formatted WWN * * Build a WWN given the somewhat transport agnostic iScsi naming specification, for FC * use the eui. format, an ascii string such as: "eui.10000000C9A19501" * * @param buffer buffer to place formatted name into * @param buffer_len length in bytes of the buffer * @param eui_name cpu endian 64 bit WWN value * * @return none */ void ocs_node_build_eui_name(char *buffer, uint32_t buffer_len, uint64_t eui_name) { ocs_memset(buffer, 0, buffer_len); ocs_snprintf(buffer, buffer_len, "eui.%016llx", (unsigned long long)eui_name); } /** * @ingroup node_common * @brief return nodes' WWPN as a uint64_t * * The WWPN is computed from service parameters and returned as a uint64_t * * @param node pointer to node structure * * @return WWPN * */ uint64_t ocs_node_get_wwpn(ocs_node_t *node) { fc_plogi_payload_t *sp = (fc_plogi_payload_t*) node->service_params; return (((uint64_t)ocs_be32toh(sp->port_name_hi) << 32ll) | (ocs_be32toh(sp->port_name_lo))); } /** * @ingroup node_common * @brief return nodes' WWNN as a uint64_t * * The WWNN is computed from service parameters and returned as a uint64_t * * @param node pointer to node structure * * @return WWNN * */ uint64_t ocs_node_get_wwnn(ocs_node_t *node) { fc_plogi_payload_t *sp = (fc_plogi_payload_t*) node->service_params; return (((uint64_t)ocs_be32toh(sp->node_name_hi) << 32ll) | (ocs_be32toh(sp->node_name_lo))); } /** * @brief Generate node ddump data * * Generates the node ddumpdata * * @param textbuf pointer to text buffer * @param node pointer to node context * * @return Returns 0 on success, or a negative value on failure. */ int ocs_ddump_node(ocs_textbuf_t *textbuf, ocs_node_t *node) { ocs_io_t *io; ocs_io_t *els; int retval = 0; ocs_ddump_section(textbuf, "node", node->instance_index); ocs_ddump_value(textbuf, "display_name", "%s", node->display_name); ocs_ddump_value(textbuf, "current_state", "%s", node->current_state_name); ocs_ddump_value(textbuf, "prev_state", "%s", node->prev_state_name); ocs_ddump_value(textbuf, "current_evt", "%s", ocs_sm_event_name(node->current_evt)); ocs_ddump_value(textbuf, "prev_evt", "%s", ocs_sm_event_name(node->prev_evt)); ocs_ddump_value(textbuf, "indicator", "%#x", node->rnode.indicator); ocs_ddump_value(textbuf, "fc_id", "%#06x", node->rnode.fc_id); ocs_ddump_value(textbuf, "attached", "%d", node->rnode.attached); ocs_ddump_value(textbuf, "hold_frames", "%d", node->hold_frames); ocs_ddump_value(textbuf, "io_alloc_enabled", "%d", node->io_alloc_enabled); ocs_ddump_value(textbuf, "shutdown_reason", "%d", node->shutdown_reason); ocs_ddump_value(textbuf, "send_ls_acc", "%d", node->send_ls_acc); ocs_ddump_value(textbuf, "ls_acc_did", "%d", node->ls_acc_did); ocs_ddump_value(textbuf, "ls_acc_oxid", "%#04x", node->ls_acc_oxid); ocs_ddump_value(textbuf, "req_free", "%d", node->req_free); ocs_ddump_value(textbuf, "els_req_cnt", "%d", node->els_req_cnt); ocs_ddump_value(textbuf, "els_cmpl_cnt", "%d", node->els_cmpl_cnt); ocs_ddump_value(textbuf, "targ", "%d", node->targ); ocs_ddump_value(textbuf, "init", "%d", node->init); ocs_ddump_value(textbuf, "wwnn", "%s", node->wwnn); ocs_ddump_value(textbuf, "wwpn", "%s", node->wwpn); ocs_ddump_value(textbuf, "login_state", "%d", (node->sm.current_state == __ocs_d_device_ready) ? 1 : 0); ocs_ddump_value(textbuf, "chained_io_count", "%d", node->chained_io_count); ocs_ddump_value(textbuf, "abort_cnt", "%d", node->abort_cnt); ocs_display_sparams(NULL, "node_sparams", 1, textbuf, node->service_params+4); ocs_lock(&node->pend_frames_lock); if (!ocs_list_empty(&node->pend_frames)) { ocs_hw_sequence_t *frame; ocs_ddump_section(textbuf, "pending_frames", 0); ocs_list_foreach(&node->pend_frames, frame) { fc_header_t *hdr; char buf[128]; hdr = frame->header->dma.virt; ocs_snprintf(buf, sizeof(buf), "%02x/%04x/%04x len %zu", hdr->r_ctl, ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id), frame->payload->dma.len); ocs_ddump_value(textbuf, "frame", "%s", buf); } ocs_ddump_endsection(textbuf, "pending_frames", 0); } ocs_unlock(&node->pend_frames_lock); ocs_scsi_ini_ddump(textbuf, OCS_SCSI_DDUMP_NODE, node); ocs_scsi_tgt_ddump(textbuf, OCS_SCSI_DDUMP_NODE, node); ocs_lock(&node->active_ios_lock); ocs_ddump_section(textbuf, "active_ios", 0); ocs_list_foreach(&node->active_ios, io) { ocs_ddump_io(textbuf, io); } ocs_ddump_endsection(textbuf, "active_ios", 0); ocs_ddump_section(textbuf, "els_io_pend_list", 0); ocs_list_foreach(&node->els_io_pend_list, els) { ocs_ddump_els(textbuf, els); } ocs_ddump_endsection(textbuf, "els_io_pend_list", 0); ocs_ddump_section(textbuf, "els_io_active_list", 0); ocs_list_foreach(&node->els_io_active_list, els) { ocs_ddump_els(textbuf, els); } ocs_ddump_endsection(textbuf, "els_io_active_list", 0); ocs_unlock(&node->active_ios_lock); ocs_ddump_endsection(textbuf, "node", node->instance_index); return retval; } /** * @brief check ELS request completion * * Check ELS request completion event to make sure it's for the * ELS request we expect. If not, invoke given common event * handler and return an error. * * @param ctx state machine context * @param evt ELS request event * @param arg event argument * @param cmd ELS command expected * @param node_common_func common event handler to call if ELS * doesn't match * @param funcname function name that called this * * @return zero if ELS command matches, -1 otherwise */ int32_t node_check_els_req(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg, uint8_t cmd, ocs_node_common_func_t node_common_func, const char *funcname) { ocs_node_t *node = NULL; ocs_t *ocs = NULL; ocs_node_cb_t *cbdata = arg; fc_els_gen_t *els_gen = NULL; ocs_assert(ctx, -1); node = ctx->app; ocs_assert(node, -1); ocs = node->ocs; ocs_assert(ocs, -1); cbdata = arg; ocs_assert(cbdata, -1); ocs_assert(cbdata->els, -1); els_gen = (fc_els_gen_t *)cbdata->els->els_req.virt; ocs_assert(els_gen, -1); if ((cbdata->els->hio_type != OCS_HW_ELS_REQ) || (els_gen->command_code != cmd)) { if (cbdata->els->hio_type != OCS_HW_ELS_REQ) { ocs_log_debug(node->ocs, "[%s] %-20s expecting ELS cmd=x%x received type=%d\n", node->display_name, funcname, cmd, cbdata->els->hio_type); } else { ocs_log_debug(node->ocs, "[%s] %-20s expecting ELS cmd=x%x received cmd=x%x\n", node->display_name, funcname, cmd, els_gen->command_code); } /* send event to common handler */ node_common_func(funcname, ctx, evt, arg); return -1; } return 0; } /** * @brief check NS request completion * * Check ELS request completion event to make sure it's for the * nameserver request we expect. If not, invoke given common * event handler and return an error. * * @param ctx state machine context * @param evt ELS request event * @param arg event argument * @param cmd nameserver command expected * @param node_common_func common event handler to call if * nameserver cmd doesn't match * @param funcname function name that called this * * @return zero if NS command matches, -1 otherwise */ int32_t node_check_ns_req(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg, uint32_t cmd, ocs_node_common_func_t node_common_func, const char *funcname) { ocs_node_t *node = NULL; ocs_t *ocs = NULL; ocs_node_cb_t *cbdata = arg; fcct_iu_header_t *fcct = NULL; ocs_assert(ctx, -1); node = ctx->app; ocs_assert(node, -1); ocs = node->ocs; ocs_assert(ocs, -1); cbdata = arg; ocs_assert(cbdata, -1); ocs_assert(cbdata->els, -1); fcct = (fcct_iu_header_t *)cbdata->els->els_req.virt; ocs_assert(fcct, -1); if ((cbdata->els->hio_type != OCS_HW_FC_CT) || fcct->cmd_rsp_code != ocs_htobe16(cmd)) { if (cbdata->els->hio_type != OCS_HW_FC_CT) { ocs_log_debug(node->ocs, "[%s] %-20s expecting NS cmd=x%x received type=%d\n", node->display_name, funcname, cmd, cbdata->els->hio_type); } else { ocs_log_debug(node->ocs, "[%s] %-20s expecting NS cmd=x%x received cmd=x%x\n", node->display_name, funcname, cmd, fcct->cmd_rsp_code); } /* send event to common handler */ node_common_func(funcname, ctx, evt, arg); return -1; } return 0; } void ocs_mgmt_node_list(ocs_textbuf_t *textbuf, void *object) { ocs_io_t *io; ocs_node_t *node = (ocs_node_t *)object; ocs_mgmt_start_section(textbuf, "node", node->instance_index); /* Readonly values */ ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "display_name"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "indicator"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "fc_id"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "attached"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "hold_frames"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "shutting_down"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "req_free"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "ox_id"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "ox_id_in_use"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "abort_cnt"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "targ"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "init"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "wwpn"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "wwnn"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "pend_frames"); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_RD, "chained_io_count"); /* Actions */ ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_EX, "resume"); ocs_lock(&node->active_ios_lock); ocs_list_foreach(&node->active_ios, io) { if ((io->mgmt_functions) && (io->mgmt_functions->get_list_handler)) { io->mgmt_functions->get_list_handler(textbuf, io); } } ocs_unlock(&node->active_ios_lock); ocs_mgmt_end_section(textbuf, "node", node->instance_index); } int ocs_mgmt_node_get(ocs_textbuf_t *textbuf, char *parent, char *name, void *object) { ocs_io_t *io; ocs_node_t *node = (ocs_node_t *)object; char qualifier[80]; int retval = -1; ocs_mgmt_start_section(textbuf, "node", node->instance_index); ocs_snprintf(qualifier, sizeof(qualifier), "%s/node[%d]", parent, node->instance_index); /* If it doesn't start with my qualifier I don't know what to do with it */ if (ocs_strncmp(name, qualifier, strlen(qualifier)) == 0) { char *unqualified_name = name + strlen(qualifier) +1; /* See if it's a value I can supply */ if (ocs_strcmp(unqualified_name, "display_name") == 0) { ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "display_name", node->display_name); retval = 0; } else if (ocs_strcmp(unqualified_name, "indicator") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "indicator", "0x%x", node->rnode.indicator); retval = 0; } else if (ocs_strcmp(unqualified_name, "fc_id") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "fc_id", "0x%06x", node->rnode.fc_id); retval = 0; } else if (ocs_strcmp(unqualified_name, "attached") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "attached", node->rnode.attached); retval = 0; } else if (ocs_strcmp(unqualified_name, "hold_frames") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "hold_frames", node->hold_frames); retval = 0; } else if (ocs_strcmp(unqualified_name, "io_alloc_enabled") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "io_alloc_enabled", node->io_alloc_enabled); retval = 0; } else if (ocs_strcmp(unqualified_name, "req_free") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "req_free", node->req_free); retval = 0; } else if (ocs_strcmp(unqualified_name, "ls_acc_oxid") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "ls_acc_oxid", "0x%#04x", node->ls_acc_oxid); retval = 0; } else if (ocs_strcmp(unqualified_name, "ls_acc_did") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "ls_acc_did", "0x%#04x", node->ls_acc_did); retval = 0; } else if (ocs_strcmp(unqualified_name, "abort_cnt") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "abort_cnt", "%d", node->abort_cnt); retval = 0; } else if (ocs_strcmp(unqualified_name, "targ") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "targ", node->targ); retval = 0; } else if (ocs_strcmp(unqualified_name, "init") == 0) { ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "init", node->init); retval = 0; } else if (ocs_strcmp(unqualified_name, "wwpn") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "wwpn", "%s", node->wwpn); retval = 0; } else if (ocs_strcmp(unqualified_name, "wwnn") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "wwnn", "%s", node->wwnn); retval = 0; } else if (ocs_strcmp(unqualified_name, "current_state") == 0) { ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "current_state", node->current_state_name); retval = 0; } else if (ocs_strcmp(unqualified_name, "login_state") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "login_state", "%d", (node->sm.current_state == __ocs_d_device_ready) ? 1 : 0); retval = 0; } else if (ocs_strcmp(unqualified_name, "pend_frames") == 0) { ocs_hw_sequence_t *frame; ocs_lock(&node->pend_frames_lock); ocs_list_foreach(&node->pend_frames, frame) { fc_header_t *hdr; char buf[128]; hdr = frame->header->dma.virt; ocs_snprintf(buf, sizeof(buf), "%02x/%04x/%04x len %zu", hdr->r_ctl, ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id), frame->payload->dma.len); ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "pend_frames", buf); } ocs_unlock(&node->pend_frames_lock); retval = 0; } else if (ocs_strcmp(unqualified_name, "chained_io_count") == 0) { ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "chained_io_count", "%d", node->chained_io_count); retval = 0; } else { /* If I didn't know the value of this status pass the request to each of my children */ ocs_lock(&node->active_ios_lock); ocs_list_foreach(&node->active_ios, io) { if ((io->mgmt_functions) && (io->mgmt_functions->get_handler)) { retval = io->mgmt_functions->get_handler(textbuf, qualifier, name, io); } if (retval == 0) { break; } } ocs_unlock(&node->active_ios_lock); } } ocs_mgmt_end_section(textbuf, "node", node->instance_index); return retval; } void ocs_mgmt_node_get_all(ocs_textbuf_t *textbuf, void *object) { ocs_io_t *io; ocs_node_t *node = (ocs_node_t *)object; ocs_hw_sequence_t *frame; ocs_mgmt_start_section(textbuf, "node", node->instance_index); ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "display_name", node->display_name); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "indicator", "0x%x", node->rnode.indicator); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "fc_id", "0x%06x", node->rnode.fc_id); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "attached", node->rnode.attached); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "hold_frames", node->hold_frames); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "io_alloc_enabled", node->io_alloc_enabled); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "req_free", node->req_free); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "ls_acc_oxid", "0x%#04x", node->ls_acc_oxid); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "ls_acc_did", "0x%#04x", node->ls_acc_did); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "abort_cnt", "%d", node->abort_cnt); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "targ", node->targ); ocs_mgmt_emit_boolean(textbuf, MGMT_MODE_RD, "init", node->init); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "wwpn", "%s", node->wwpn); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "wwnn", "%s", node->wwnn); ocs_lock(&node->pend_frames_lock); ocs_list_foreach(&node->pend_frames, frame) { fc_header_t *hdr; char buf[128]; hdr = frame->header->dma.virt; ocs_snprintf(buf, sizeof(buf), "%02x/%04x/%04x len %zu", hdr->r_ctl, ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id), frame->payload->dma.len); ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "pend_frames", buf); } ocs_unlock(&node->pend_frames_lock); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "chained_io_count", "%d", node->chained_io_count); ocs_mgmt_emit_property_name(textbuf, MGMT_MODE_EX, "resume"); ocs_mgmt_emit_string(textbuf, MGMT_MODE_RD, "current_state", node->current_state_name); ocs_mgmt_emit_int(textbuf, MGMT_MODE_RD, "login_state", "%d", (node->sm.current_state == __ocs_d_device_ready) ? 1 : 0); ocs_lock(&node->active_ios_lock); ocs_list_foreach(&node->active_ios, io) { if ((io->mgmt_functions) && (io->mgmt_functions->get_all_handler)) { io->mgmt_functions->get_all_handler(textbuf,io); } } ocs_unlock(&node->active_ios_lock); ocs_mgmt_end_section(textbuf, "node", node->instance_index); } int ocs_mgmt_node_set(char *parent, char *name, char *value, void *object) { ocs_io_t *io; ocs_node_t *node = (ocs_node_t *)object; char qualifier[80]; int retval = -1; ocs_snprintf(qualifier, sizeof(qualifier), "%s/node[%d]", parent, node->instance_index); /* If it doesn't start with my qualifier I don't know what to do with it */ if (ocs_strncmp(name, qualifier, strlen(qualifier)) == 0) { ocs_lock(&node->active_ios_lock); ocs_list_foreach(&node->active_ios, io) { if ((io->mgmt_functions) && (io->mgmt_functions->set_handler)) { retval = io->mgmt_functions->set_handler(qualifier, name, value, io); } if (retval == 0) { break; } } ocs_unlock(&node->active_ios_lock); } return retval; } int ocs_mgmt_node_exec(char *parent, char *action, void *arg_in, uint32_t arg_in_length, void *arg_out, uint32_t arg_out_length, void *object) { ocs_io_t *io; ocs_node_t *node = (ocs_node_t *)object; char qualifier[80]; int retval = -1; ocs_snprintf(qualifier, sizeof(qualifier), "%s.node%d", parent, node->instance_index); /* If it doesn't start with my qualifier I don't know what to do with it */ if (ocs_strncmp(action, qualifier, strlen(qualifier)) == 0) { char *unqualified_name = action + strlen(qualifier) +1; if (ocs_strcmp(unqualified_name, "resume") == 0) { ocs_node_post_event(node, OCS_EVT_RESUME, NULL); } { /* If I didn't know how to do this action pass the request to each of my children */ ocs_lock(&node->active_ios_lock); ocs_list_foreach(&node->active_ios, io) { if ((io->mgmt_functions) && (io->mgmt_functions->exec_handler)) { retval = io->mgmt_functions->exec_handler(qualifier, action, arg_in, arg_in_length, arg_out, arg_out_length, io); } if (retval == 0) { break; } } ocs_unlock(&node->active_ios_lock); } } return retval; } /** * @brief Return TRUE if active ios list is empty * * Test if node->active_ios list is empty while holding the node->active_ios_lock. * * @param node pointer to node object * * @return TRUE if node active ios list is empty */ int ocs_node_active_ios_empty(ocs_node_t *node) { int empty; ocs_lock(&node->active_ios_lock); empty = ocs_list_empty(&node->active_ios); ocs_unlock(&node->active_ios_lock); return empty; } /** * @brief Pause a node * * The node is placed in the __ocs_node_paused state after saving the state * to return to * * @param node Pointer to node object * @param state State to resume to * * @return none */ void ocs_node_pause(ocs_node_t *node, ocs_sm_function_t state) { node->nodedb_state = state; ocs_node_transition(node, __ocs_node_paused, NULL); } /** * @brief Paused node state * * This state is entered when a state is "paused". When resumed, the node * is transitioned to a previously saved state (node->ndoedb_state) * * @param ctx Remote node state machine context. * @param evt Event to process. * @param arg Per event optional argument. * * @return returns NULL */ void * __ocs_node_paused(ocs_sm_ctx_t *ctx, ocs_sm_event_t evt, void *arg) { std_node_state_decl(); node_sm_trace(); switch(evt) { case OCS_EVT_ENTER: node_printf(node, "Paused\n"); break; case OCS_EVT_RESUME: { ocs_sm_function_t pf = node->nodedb_state; node->nodedb_state = NULL; ocs_node_transition(node, pf, NULL); break; } case OCS_EVT_DOMAIN_ATTACH_OK: break; case OCS_EVT_SHUTDOWN: node->req_free = 1; break; default: __ocs_node_common(__func__, ctx, evt, arg); break; } return NULL; } /** * @brief Resume a paused state * * Posts a resume event to the paused node. * * @param node Pointer to node object * * @return returns 0 for success, a negative error code value for failure. */ int32_t ocs_node_resume(ocs_node_t *node) { ocs_assert(node != NULL, -1); ocs_node_post_event(node, OCS_EVT_RESUME, NULL); return 0; } /** * @ingroup node_common * @brief Dispatch a ELS frame. * *

Description

* An ELS frame is dispatched to the \c node state machine. * RQ Pair mode: this function is always called with a NULL hw * io. * * @param node Node that originated the frame. * @param seq header/payload sequence buffers * * @return Returns 0 if frame processed and RX buffers cleaned * up appropriately, -1 if frame not handled and RX buffers need * to be returned. */ int32_t ocs_node_recv_els_frame(ocs_node_t *node, ocs_hw_sequence_t *seq) { struct { uint32_t cmd; ocs_sm_event_t evt; uint32_t payload_size; } els_cmd_list[] = { {FC_ELS_CMD_PLOGI, OCS_EVT_PLOGI_RCVD, sizeof(fc_plogi_payload_t)}, {FC_ELS_CMD_FLOGI, OCS_EVT_FLOGI_RCVD, sizeof(fc_plogi_payload_t)}, {FC_ELS_CMD_LOGO, OCS_EVT_LOGO_RCVD, sizeof(fc_acc_payload_t)}, {FC_ELS_CMD_RRQ, OCS_EVT_RRQ_RCVD, sizeof(fc_acc_payload_t)}, {FC_ELS_CMD_PRLI, OCS_EVT_PRLI_RCVD, sizeof(fc_prli_payload_t)}, {FC_ELS_CMD_PRLO, OCS_EVT_PRLO_RCVD, sizeof(fc_prlo_payload_t)}, {FC_ELS_CMD_PDISC, OCS_EVT_PDISC_RCVD, MAX_ACC_REJECT_PAYLOAD}, {FC_ELS_CMD_FDISC, OCS_EVT_FDISC_RCVD, MAX_ACC_REJECT_PAYLOAD}, {FC_ELS_CMD_ADISC, OCS_EVT_ADISC_RCVD, sizeof(fc_adisc_payload_t)}, {FC_ELS_CMD_RSCN, OCS_EVT_RSCN_RCVD, MAX_ACC_REJECT_PAYLOAD}, {FC_ELS_CMD_SCR , OCS_EVT_SCR_RCVD, MAX_ACC_REJECT_PAYLOAD}, }; ocs_t *ocs = node->ocs; ocs_node_cb_t cbdata; fc_header_t *hdr = seq->header->dma.virt; uint8_t *buf = seq->payload->dma.virt; ocs_sm_event_t evt = OCS_EVT_ELS_RCVD; uint32_t payload_size = MAX_ACC_REJECT_PAYLOAD; uint32_t i; ocs_memset(&cbdata, 0, sizeof(cbdata)); cbdata.header = seq->header; cbdata.payload = seq->payload; /* find a matching event for the ELS command */ for (i = 0; i < ARRAY_SIZE(els_cmd_list); i ++) { if (els_cmd_list[i].cmd == buf[0]) { evt = els_cmd_list[i].evt; payload_size = els_cmd_list[i].payload_size; break; } } switch(evt) { case OCS_EVT_FLOGI_RCVD: ocs_display_sparams(node->display_name, "flogi rcvd req", 0, NULL, ((uint8_t*)seq->payload->dma.virt)+4); break; case OCS_EVT_FDISC_RCVD: ocs_display_sparams(node->display_name, "fdisc rcvd req", 0, NULL, ((uint8_t*)seq->payload->dma.virt)+4); break; case OCS_EVT_PLOGI_RCVD: ocs_display_sparams(node->display_name, "plogi rcvd req", 0, NULL, ((uint8_t*)seq->payload->dma.virt)+4); break; default: break; } cbdata.io = ocs_els_io_alloc(node, payload_size, OCS_ELS_ROLE_RESPONDER); if (cbdata.io != NULL) { cbdata.io->hw_priv = seq->hw_priv; /* if we're here, sequence initiative has been transferred */ cbdata.io->seq_init = 1; ocs_node_post_event(node, evt, &cbdata); } else { node_printf(node, "failure to allocate SCSI IO for ELS s_id %06x d_id %06x ox_id %04x rx_id %04x\n", fc_be24toh(hdr->s_id), fc_be24toh(hdr->d_id), ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id)); } ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup node_common * @brief Dispatch a ABTS frame (RQ Pair/sequence coalescing). * *

Description

* An ABTS frame is dispatched to the node state machine. This * function is used for both RQ Pair and sequence coalescing. * * @param node Node that originated the frame. * @param seq Header/payload sequence buffers * * @return Returns 0 if frame processed and RX buffers cleaned * up appropriately, -1 if frame not handled and RX buffers need * to be returned. */ int32_t ocs_node_recv_abts_frame(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_t *ocs = node->ocs; ocs_xport_t *xport = ocs->xport; fc_header_t *hdr = seq->header->dma.virt; uint16_t ox_id = ocs_be16toh(hdr->ox_id); uint16_t rx_id = ocs_be16toh(hdr->rx_id); ocs_node_cb_t cbdata; int32_t rc = 0; node->abort_cnt++; /* * Check to see if the IO we want to abort is active, if it not active, * then we can send the BA_ACC using the send frame option */ if (ocs_io_find_tgt_io(ocs, node, ox_id, rx_id) == NULL) { uint32_t send_frame_capable; ocs_log_debug(ocs, "IO not found (ox_id %04x)\n", ox_id); /* If we have SEND_FRAME capability, then use it to send BA_ACC */ rc = ocs_hw_get(&ocs->hw, OCS_HW_SEND_FRAME_CAPABLE, &send_frame_capable); if ((rc == 0) && send_frame_capable) { rc = ocs_sframe_send_bls_acc(node, seq); if (rc) { ocs_log_test(ocs, "ocs_bls_acc_send_frame failed\n"); } return rc; } /* continuing */ } ocs_memset(&cbdata, 0, sizeof(cbdata)); cbdata.header = seq->header; cbdata.payload = seq->payload; cbdata.io = ocs_scsi_io_alloc(node, OCS_SCSI_IO_ROLE_RESPONDER); if (cbdata.io != NULL) { cbdata.io->hw_priv = seq->hw_priv; /* If we got this far, SIT=1 */ cbdata.io->seq_init = 1; /* fill out generic fields */ cbdata.io->ocs = ocs; cbdata.io->node = node; cbdata.io->cmd_tgt = TRUE; ocs_node_post_event(node, OCS_EVT_ABTS_RCVD, &cbdata); } else { ocs_atomic_add_return(&xport->io_alloc_failed_count, 1); node_printf(node, "SCSI IO allocation failed for ABTS received s_id %06x d_id %06x ox_id %04x rx_id %04x\n", fc_be24toh(hdr->s_id), fc_be24toh(hdr->d_id), ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id)); } /* ABTS processed, return RX buffer to the chip */ ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup node_common * @brief Dispatch a CT frame. * *

Description

* A CT frame is dispatched to the \c node state machine. * RQ Pair mode: this function is always called with a NULL hw * io. * * @param node Node that originated the frame. * @param seq header/payload sequence buffers * * @return Returns 0 if frame processed and RX buffers cleaned * up appropriately, -1 if frame not handled and RX buffers need * to be returned. */ int32_t ocs_node_recv_ct_frame(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_t *ocs = node->ocs; fc_header_t *hdr = seq->header->dma.virt; fcct_iu_header_t *iu = seq->payload->dma.virt; ocs_sm_event_t evt = OCS_EVT_ELS_RCVD; uint32_t payload_size = MAX_ACC_REJECT_PAYLOAD; uint16_t gscmd = ocs_be16toh(iu->cmd_rsp_code); ocs_node_cb_t cbdata; uint32_t i; struct { uint32_t cmd; ocs_sm_event_t evt; uint32_t payload_size; } ct_cmd_list[] = { {FC_GS_NAMESERVER_RFF_ID, OCS_EVT_RFF_ID_RCVD, 100}, {FC_GS_NAMESERVER_RFT_ID, OCS_EVT_RFT_ID_RCVD, 100}, {FC_GS_NAMESERVER_GNN_ID, OCS_EVT_GNN_ID_RCVD, 100}, {FC_GS_NAMESERVER_GPN_ID, OCS_EVT_GPN_ID_RCVD, 100}, {FC_GS_NAMESERVER_GFPN_ID, OCS_EVT_GFPN_ID_RCVD, 100}, {FC_GS_NAMESERVER_GFF_ID, OCS_EVT_GFF_ID_RCVD, 100}, {FC_GS_NAMESERVER_GID_FT, OCS_EVT_GID_FT_RCVD, 256}, {FC_GS_NAMESERVER_GID_PT, OCS_EVT_GID_PT_RCVD, 256}, {FC_GS_NAMESERVER_RPN_ID, OCS_EVT_RPN_ID_RCVD, 100}, {FC_GS_NAMESERVER_RNN_ID, OCS_EVT_RNN_ID_RCVD, 100}, {FC_GS_NAMESERVER_RCS_ID, OCS_EVT_RCS_ID_RCVD, 100}, {FC_GS_NAMESERVER_RSNN_NN, OCS_EVT_RSNN_NN_RCVD, 100}, {FC_GS_NAMESERVER_RSPN_ID, OCS_EVT_RSPN_ID_RCVD, 100}, {FC_GS_NAMESERVER_RHBA, OCS_EVT_RHBA_RCVD, 100}, {FC_GS_NAMESERVER_RPA, OCS_EVT_RPA_RCVD, 100}, }; ocs_memset(&cbdata, 0, sizeof(cbdata)); cbdata.header = seq->header; cbdata.payload = seq->payload; /* find a matching event for the ELS/GS command */ for (i = 0; i < ARRAY_SIZE(ct_cmd_list); i ++) { if (ct_cmd_list[i].cmd == gscmd) { evt = ct_cmd_list[i].evt; payload_size = ct_cmd_list[i].payload_size; break; } } /* Allocate an IO and send a reject */ cbdata.io = ocs_els_io_alloc(node, payload_size, OCS_ELS_ROLE_RESPONDER); if (cbdata.io == NULL) { node_printf(node, "GS IO failed for s_id %06x d_id %06x ox_id %04x rx_id %04x\n", fc_be24toh(hdr->s_id), fc_be24toh(hdr->d_id), ocs_be16toh(hdr->ox_id), ocs_be16toh(hdr->rx_id)); return -1; } cbdata.io->hw_priv = seq->hw_priv; ocs_node_post_event(node, evt, &cbdata); ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup node_common * @brief Dispatch a FCP command frame when the node is not ready. * *

Description

* A frame is dispatched to the \c node state machine. * * @param node Node that originated the frame. * @param seq header/payload sequence buffers * * @return Returns 0 if frame processed and RX buffers cleaned * up appropriately, -1 if frame not handled. */ int32_t ocs_node_recv_fcp_cmd(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_node_cb_t cbdata; ocs_t *ocs = node->ocs; ocs_memset(&cbdata, 0, sizeof(cbdata)); cbdata.header = seq->header; cbdata.payload = seq->payload; ocs_node_post_event(node, OCS_EVT_FCP_CMD_RCVD, &cbdata); ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup node_common * @brief Stub handler for non-ABTS BLS frames * *

Description

* Log message and drop. Customer can plumb it to their back-end as needed * * @param node Node that originated the frame. * @param seq header/payload sequence buffers * * @return Returns 0 */ int32_t ocs_node_recv_bls_no_sit(ocs_node_t *node, ocs_hw_sequence_t *seq) { fc_header_t *hdr = seq->header->dma.virt; node_printf(node, "Dropping frame hdr = %08x %08x %08x %08x %08x %08x\n", ocs_htobe32(((uint32_t *)hdr)[0]), ocs_htobe32(((uint32_t *)hdr)[1]), ocs_htobe32(((uint32_t *)hdr)[2]), ocs_htobe32(((uint32_t *)hdr)[3]), ocs_htobe32(((uint32_t *)hdr)[4]), ocs_htobe32(((uint32_t *)hdr)[5])); return -1; }