/*- * 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 * Code to handle unsolicited received FC frames. */ /*! * @defgroup unsol Unsolicited Frame Handling */ #include "ocs.h" #include "ocs_els.h" #include "ocs_fabric.h" #include "ocs_device.h" #define frame_printf(ocs, hdr, fmt, ...) \ do { \ char s_id_text[16]; \ ocs_node_fcid_display(fc_be24toh((hdr)->s_id), s_id_text, sizeof(s_id_text)); \ ocs_log_debug(ocs, "[%06x.%s] %02x/%04x/%04x: " fmt, fc_be24toh((hdr)->d_id), s_id_text, \ (hdr)->r_ctl, ocs_be16toh((hdr)->ox_id), ocs_be16toh((hdr)->rx_id), ##__VA_ARGS__); \ } while(0) static int32_t ocs_unsol_process(ocs_t *ocs, ocs_hw_sequence_t *seq); static int32_t ocs_dispatch_fcp_cmd(ocs_node_t *node, ocs_hw_sequence_t *seq); static int32_t ocs_dispatch_fcp_cmd_auto_xfer_rdy(ocs_node_t *node, ocs_hw_sequence_t *seq); static int32_t ocs_dispatch_fcp_data(ocs_node_t *node, ocs_hw_sequence_t *seq); static int32_t ocs_domain_dispatch_frame(void *arg, ocs_hw_sequence_t *seq); static int32_t ocs_node_dispatch_frame(void *arg, ocs_hw_sequence_t *seq); static int32_t ocs_fc_tmf_rejected_cb(ocs_io_t *io, ocs_scsi_io_status_e scsi_status, uint32_t flags, void *arg); static ocs_hw_sequence_t *ocs_frame_next(ocs_list_t *pend_list, ocs_lock_t *list_lock); static uint8_t ocs_node_frames_held(void *arg); static uint8_t ocs_domain_frames_held(void *arg); static int32_t ocs_purge_pending(ocs_t *ocs, ocs_list_t *pend_list, ocs_lock_t *list_lock); static int32_t ocs_sframe_send_task_set_full_or_busy(ocs_node_t *node, ocs_hw_sequence_t *seq); #define OCS_MAX_FRAMES_BEFORE_YEILDING 10000 /** * @brief Process the RQ circular buffer and process the incoming frames. * * @param mythread Pointer to thread object. * * @return Returns 0 on success, or a non-zero value on failure. */ int32_t ocs_unsol_rq_thread(ocs_thread_t *mythread) { ocs_xport_rq_thread_info_t *thread_data = mythread->arg; ocs_t *ocs = thread_data->ocs; ocs_hw_sequence_t *seq; uint32_t yield_count = OCS_MAX_FRAMES_BEFORE_YEILDING; ocs_log_debug(ocs, "%s running\n", mythread->name); while (!ocs_thread_terminate_requested(mythread)) { seq = ocs_cbuf_get(thread_data->seq_cbuf, 100000); if (seq == NULL) { /* Prevent soft lockups by yielding the CPU */ ocs_thread_yield(&thread_data->thread); yield_count = OCS_MAX_FRAMES_BEFORE_YEILDING; continue; } /* Note: Always returns 0 */ ocs_unsol_process((ocs_t*)seq->hw->os, seq); /* We have to prevent CPU soft lockups, so just yield the CPU after x frames. */ if (--yield_count == 0) { ocs_thread_yield(&thread_data->thread); yield_count = OCS_MAX_FRAMES_BEFORE_YEILDING; } } ocs_log_debug(ocs, "%s exiting\n", mythread->name); thread_data->thread_started = FALSE; return 0; } /** * @ingroup unsol * @brief Callback function when aborting a port owned XRI * exchanges. * * @return Returns 0. */ static int32_t ocs_unsol_abort_cb (ocs_hw_io_t *hio, ocs_remote_node_t *rnode, uint32_t len, int32_t status, uint32_t ext, void *arg) { ocs_t *ocs = arg; ocs_assert(hio, -1); ocs_assert(arg, -1); ocs_log_debug(ocs, "xri=0x%x tag=0x%x\n", hio->indicator, hio->reqtag); ocs_hw_io_free(&ocs->hw, hio); return 0; } /** * @ingroup unsol * @brief Abort either a RQ Pair auto XFER RDY XRI. * @return Returns None. */ static void ocs_port_owned_abort(ocs_t *ocs, ocs_hw_io_t *hio) { ocs_hw_rtn_e hw_rc; hw_rc = ocs_hw_io_abort(&ocs->hw, hio, FALSE, ocs_unsol_abort_cb, ocs); if((hw_rc == OCS_HW_RTN_IO_ABORT_IN_PROGRESS) || (hw_rc == OCS_HW_RTN_IO_PORT_OWNED_ALREADY_ABORTED)) { ocs_log_debug(ocs, "already aborted XRI 0x%x\n", hio->indicator); } else if(hw_rc != OCS_HW_RTN_SUCCESS) { ocs_log_debug(ocs, "Error aborting XRI 0x%x status %d\n", hio->indicator, hw_rc); } } /** * @ingroup unsol * @brief Handle unsolicited FC frames. * *

Description

* This function is called from the HW with unsolicited FC frames (FCP, ELS, BLS, etc.). * * @param arg Application-specified callback data. * @param seq Header/payload sequence buffers. * * @return Returns 0 on success; or a negative error value on failure. */ int32_t ocs_unsolicited_cb(void *arg, ocs_hw_sequence_t *seq) { ocs_t *ocs = arg; ocs_xport_t *xport = ocs->xport; int32_t rc; CPUTRACE(""); if (ocs->rq_threads == 0) { rc = ocs_unsol_process(ocs, seq); } else { /* use the ox_id to dispatch this IO to a thread */ fc_header_t *hdr = seq->header->dma.virt; uint32_t ox_id = ocs_be16toh(hdr->ox_id); uint32_t thr_index = ox_id % ocs->rq_threads; rc = ocs_cbuf_put(xport->rq_thread_info[thr_index].seq_cbuf, seq); } if (rc) { ocs_hw_sequence_free(&ocs->hw, seq); } return 0; } /** * @ingroup unsol * @brief Handle unsolicited FC frames. * *

Description

* This function is called either from ocs_unsolicited_cb() or ocs_unsol_rq_thread(). * * @param ocs Pointer to the ocs structure. * @param seq Header/payload sequence buffers. * * @return Returns 0 on success, or a negative error value on failure. */ static int32_t ocs_unsol_process(ocs_t *ocs, ocs_hw_sequence_t *seq) { ocs_xport_fcfi_t *xport_fcfi = NULL; ocs_domain_t *domain; uint8_t seq_fcfi = seq->fcfi; /* HW_WORKAROUND_OVERRIDE_FCFI_IN_SRB */ if (ocs->hw.workaround.override_fcfi) { if (ocs->hw.first_domain_idx > -1) { seq_fcfi = ocs->hw.first_domain_idx; } } /* Range check seq->fcfi */ if (seq_fcfi < ARRAY_SIZE(ocs->xport->fcfi)) { xport_fcfi = &ocs->xport->fcfi[seq_fcfi]; } /* If the transport FCFI entry is NULL, then drop the frame */ if (xport_fcfi == NULL) { ocs_log_test(ocs, "FCFI %d is not valid, dropping frame\n", seq->fcfi); if (seq->hio != NULL) { ocs_port_owned_abort(ocs, seq->hio); } ocs_hw_sequence_free(&ocs->hw, seq); return 0; } domain = ocs_hw_domain_get(&ocs->hw, seq_fcfi); /* * If we are holding frames or the domain is not yet registered or * there's already frames on the pending list, * then add the new frame to pending list */ if (domain == NULL || xport_fcfi->hold_frames || !ocs_list_empty(&xport_fcfi->pend_frames)) { ocs_lock(&xport_fcfi->pend_frames_lock); ocs_list_add_tail(&xport_fcfi->pend_frames, seq); ocs_unlock(&xport_fcfi->pend_frames_lock); if (domain != NULL) { /* immediately process pending frames */ ocs_domain_process_pending(domain); } } else { /* * We are not holding frames and pending list is empty, just process frame. * A non-zero return means the frame was not handled - so cleanup */ if (ocs_domain_dispatch_frame(domain, seq)) { if (seq->hio != NULL) { ocs_port_owned_abort(ocs, seq->hio); } ocs_hw_sequence_free(&ocs->hw, seq); } } return 0; } /** * @ingroup unsol * @brief Process pending frames queued to the given node. * *

Description

* Frames that are queued for the \c node are dispatched and returned * to the RQ. * * @param node Node of the queued frames that are to be dispatched. * * @return Returns 0 on success, or a negative error value on failure. */ int32_t ocs_process_node_pending(ocs_node_t *node) { ocs_t *ocs = node->ocs; ocs_hw_sequence_t *seq = NULL; uint32_t pend_frames_processed = 0; for (;;) { /* need to check for hold frames condition after each frame processed * because any given frame could cause a transition to a state that * holds frames */ if (ocs_node_frames_held(node)) { break; } /* Get next frame/sequence */ ocs_lock(&node->pend_frames_lock); seq = ocs_list_remove_head(&node->pend_frames); if (seq == NULL) { pend_frames_processed = node->pend_frames_processed; node->pend_frames_processed = 0; ocs_unlock(&node->pend_frames_lock); break; } node->pend_frames_processed++; ocs_unlock(&node->pend_frames_lock); /* now dispatch frame(s) to dispatch function */ if (ocs_node_dispatch_frame(node, seq)) { if (seq->hio != NULL) { ocs_port_owned_abort(ocs, seq->hio); } ocs_hw_sequence_free(&ocs->hw, seq); } } if (pend_frames_processed != 0) { ocs_log_debug(ocs, "%u node frames held and processed\n", pend_frames_processed); } return 0; } /** * @ingroup unsol * @brief Process pending frames queued to the given domain. * *

Description

* Frames that are queued for the \c domain are dispatched and * returned to the RQ. * * @param domain Domain of the queued frames that are to be * dispatched. * * @return Returns 0 on success, or a negative error value on failure. */ int32_t ocs_domain_process_pending(ocs_domain_t *domain) { ocs_t *ocs = domain->ocs; ocs_xport_fcfi_t *xport_fcfi; ocs_hw_sequence_t *seq = NULL; uint32_t pend_frames_processed = 0; ocs_assert(domain->fcf_indicator < SLI4_MAX_FCFI, -1); xport_fcfi = &ocs->xport->fcfi[domain->fcf_indicator]; for (;;) { /* need to check for hold frames condition after each frame processed * because any given frame could cause a transition to a state that * holds frames */ if (ocs_domain_frames_held(domain)) { break; } /* Get next frame/sequence */ ocs_lock(&xport_fcfi->pend_frames_lock); seq = ocs_list_remove_head(&xport_fcfi->pend_frames); if (seq == NULL) { pend_frames_processed = xport_fcfi->pend_frames_processed; xport_fcfi->pend_frames_processed = 0; ocs_unlock(&xport_fcfi->pend_frames_lock); break; } xport_fcfi->pend_frames_processed++; ocs_unlock(&xport_fcfi->pend_frames_lock); /* now dispatch frame(s) to dispatch function */ if (ocs_domain_dispatch_frame(domain, seq)) { if (seq->hio != NULL) { ocs_port_owned_abort(ocs, seq->hio); } ocs_hw_sequence_free(&ocs->hw, seq); } } if (pend_frames_processed != 0) { ocs_log_debug(ocs, "%u domain frames held and processed\n", pend_frames_processed); } return 0; } /** * @ingroup unsol * @brief Purge given pending list * *

Description

* Frames that are queued on the given pending list are * discarded and returned to the RQ. * * @param ocs Pointer to ocs object. * @param pend_list Pending list to be purged. * @param list_lock Lock that protects pending list. * * @return Returns 0 on success, or a negative error value on failure. */ static int32_t ocs_purge_pending(ocs_t *ocs, ocs_list_t *pend_list, ocs_lock_t *list_lock) { ocs_hw_sequence_t *frame; for (;;) { frame = ocs_frame_next(pend_list, list_lock); if (frame == NULL) { break; } frame_printf(ocs, (fc_header_t*) frame->header->dma.virt, "Discarding held frame\n"); if (frame->hio != NULL) { ocs_port_owned_abort(ocs, frame->hio); } ocs_hw_sequence_free(&ocs->hw, frame); } return 0; } /** * @ingroup unsol * @brief Purge node's pending (queued) frames. * *

Description

* Frames that are queued for the \c node are discarded and returned * to the RQ. * * @param node Node of the queued frames that are to be discarded. * * @return Returns 0 on success, or a negative error value on failure. */ int32_t ocs_node_purge_pending(ocs_node_t *node) { return ocs_purge_pending(node->ocs, &node->pend_frames, &node->pend_frames_lock); } /** * @ingroup unsol * @brief Purge xport's pending (queued) frames. * *

Description

* Frames that are queued for the \c xport are discarded and * returned to the RQ. * * @param domain Pointer to domain object. * * @return Returns 0 on success; or a negative error value on failure. */ int32_t ocs_domain_purge_pending(ocs_domain_t *domain) { ocs_t *ocs = domain->ocs; ocs_xport_fcfi_t *xport_fcfi; ocs_assert(domain->fcf_indicator < SLI4_MAX_FCFI, -1); xport_fcfi = &ocs->xport->fcfi[domain->fcf_indicator]; return ocs_purge_pending(domain->ocs, &xport_fcfi->pend_frames, &xport_fcfi->pend_frames_lock); } /** * @ingroup unsol * @brief Check if node's pending frames are held. * * @param arg Node for which the pending frame hold condition is * checked. * * @return Returns 1 if node is holding pending frames, or 0 * if not. */ static uint8_t ocs_node_frames_held(void *arg) { ocs_node_t *node = (ocs_node_t *)arg; return node->hold_frames; } /** * @ingroup unsol * @brief Check if domain's pending frames are held. * * @param arg Domain for which the pending frame hold condition is * checked. * * @return Returns 1 if domain is holding pending frames, or 0 * if not. */ static uint8_t ocs_domain_frames_held(void *arg) { ocs_domain_t *domain = (ocs_domain_t *)arg; ocs_t *ocs = domain->ocs; ocs_xport_fcfi_t *xport_fcfi; ocs_assert(domain != NULL, 1); ocs_assert(domain->fcf_indicator < SLI4_MAX_FCFI, 1); xport_fcfi = &ocs->xport->fcfi[domain->fcf_indicator]; return xport_fcfi->hold_frames; } /** * @ingroup unsol * @brief Globally (at xport level) hold unsolicited frames. * *

Description

* This function places a hold on processing unsolicited FC * frames queued to the xport pending list. * * @param domain Pointer to domain object. * * @return Returns None. */ void ocs_domain_hold_frames(ocs_domain_t *domain) { ocs_t *ocs = domain->ocs; ocs_xport_fcfi_t *xport_fcfi; ocs_assert(domain->fcf_indicator < SLI4_MAX_FCFI); xport_fcfi = &ocs->xport->fcfi[domain->fcf_indicator]; if (!xport_fcfi->hold_frames) { ocs_log_debug(domain->ocs, "hold frames set for FCFI %d\n", domain->fcf_indicator); xport_fcfi->hold_frames = 1; } } /** * @ingroup unsol * @brief Clear hold on unsolicited frames. * *

Description

* This function clears the hold on processing unsolicited FC * frames queued to the domain pending list. * * @param domain Pointer to domain object. * * @return Returns None. */ void ocs_domain_accept_frames(ocs_domain_t *domain) { ocs_t *ocs = domain->ocs; ocs_xport_fcfi_t *xport_fcfi; ocs_assert(domain->fcf_indicator < SLI4_MAX_FCFI); xport_fcfi = &ocs->xport->fcfi[domain->fcf_indicator]; if (xport_fcfi->hold_frames == 1) { ocs_log_debug(domain->ocs, "hold frames cleared for FCFI %d\n", domain->fcf_indicator); } xport_fcfi->hold_frames = 0; ocs_domain_process_pending(domain); } /** * @ingroup unsol * @brief Dispatch unsolicited FC frame. * *

Description

* This function processes an unsolicited FC frame queued at the * domain level. * * @param arg Pointer to ocs object. * @param seq Header/payload sequence buffers. * * @return Returns 0 if frame processed and RX buffers cleaned * up appropriately, -1 if frame not handled. */ static __inline int32_t ocs_domain_dispatch_frame(void *arg, ocs_hw_sequence_t *seq) { ocs_domain_t *domain = (ocs_domain_t *)arg; ocs_t *ocs = domain->ocs; fc_header_t *hdr; uint32_t s_id; uint32_t d_id; ocs_node_t *node = NULL; ocs_sport_t *sport = NULL; ocs_assert(seq->header, -1); ocs_assert(seq->header->dma.virt, -1); ocs_assert(seq->payload->dma.virt, -1); hdr = seq->header->dma.virt; /* extract the s_id and d_id */ s_id = fc_be24toh(hdr->s_id); d_id = fc_be24toh(hdr->d_id); sport = domain->sport; if (sport == NULL) { frame_printf(ocs, hdr, "phy sport for FC ID 0x%06x is NULL, dropping frame\n", d_id); return -1; } if (sport->fc_id != d_id) { /* Not a physical port IO lookup sport associated with the npiv port */ sport = ocs_sport_find(domain, d_id); /* Look up without lock */ if (sport == NULL) { if (hdr->type == FC_TYPE_FCP) { /* Drop frame */ ocs_log_warn(ocs, "unsolicited FCP frame with invalid d_id x%x, dropping\n", d_id); return -1; } else { /* p2p will use this case */ sport = domain->sport; } } } /* Lookup the node given the remote s_id */ node = ocs_node_find(sport, s_id); /* If not found, then create a new node */ if (node == NULL) { /* If this is solicited data or control based on R_CTL and there is no node context, * then we can drop the frame */ if ((hdr->r_ctl == FC_RCTL_FC4_DATA) && ( (hdr->info == FC_RCTL_INFO_SOL_DATA) || (hdr->info == FC_RCTL_INFO_SOL_CTRL))) { ocs_log_debug(ocs, "solicited data/ctrl frame without node, dropping\n"); return -1; } node = ocs_node_alloc(sport, s_id, FALSE, FALSE); if (node == NULL) { ocs_log_err(ocs, "ocs_node_alloc() failed\n"); return -1; } /* don't send PLOGI on ocs_d_init entry */ ocs_node_init_device(node, FALSE); } if (node->hold_frames || !ocs_list_empty((&node->pend_frames))) { /* TODO: info log level frame_printf(ocs, hdr, "Holding frame\n"); */ /* add frame to node's pending list */ ocs_lock(&node->pend_frames_lock); ocs_list_add_tail(&node->pend_frames, seq); ocs_unlock(&node->pend_frames_lock); return 0; } /* now dispatch frame to the node frame handler */ return ocs_node_dispatch_frame(node, seq); } /** * @ingroup unsol * @brief Dispatch a frame. * *

Description

* A frame is dispatched from the \c node to the handler. * * @param arg 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. */ static int32_t ocs_node_dispatch_frame(void *arg, ocs_hw_sequence_t *seq) { fc_header_t *hdr = seq->header->dma.virt; uint32_t port_id; ocs_node_t *node = (ocs_node_t *)arg; int32_t rc = -1; int32_t sit_set = 0; port_id = fc_be24toh(hdr->s_id); ocs_assert(port_id == node->rnode.fc_id, -1); if (fc_be24toh(hdr->f_ctl) & FC_FCTL_END_SEQUENCE) { /*if SIT is set */ if (fc_be24toh(hdr->f_ctl) & FC_FCTL_SEQUENCE_INITIATIVE) { sit_set = 1; } switch (hdr->r_ctl) { case FC_RCTL_ELS: if (sit_set) { rc = ocs_node_recv_els_frame(node, seq); } break; case FC_RCTL_BLS: if ((sit_set) && (hdr->info == FC_INFO_ABTS)) { rc = ocs_node_recv_abts_frame(node, seq); }else { rc = ocs_node_recv_bls_no_sit(node, seq); } break; case FC_RCTL_FC4_DATA: switch(hdr->type) { case FC_TYPE_FCP: if (hdr->info == FC_RCTL_INFO_UNSOL_CMD) { if (node->fcp_enabled) { if (sit_set) { rc = ocs_dispatch_fcp_cmd(node, seq); }else { /* send the auto xfer ready command */ rc = ocs_dispatch_fcp_cmd_auto_xfer_rdy(node, seq); } } else { rc = ocs_node_recv_fcp_cmd(node, seq); } } else if (hdr->info == FC_RCTL_INFO_SOL_DATA) { if (sit_set) { rc = ocs_dispatch_fcp_data(node, seq); } } break; case FC_TYPE_GS: if (sit_set) { rc = ocs_node_recv_ct_frame(node, seq); } break; default: break; } break; } } else { 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 rc; } /** * @ingroup unsol * @brief Dispatch unsolicited FCP frames (RQ Pair). * *

Description

* Dispatch unsolicited FCP frames (called from the device node state machine). * * @param io Pointer to the IO context. * @param task_management_flags Task management flags from the FCP_CMND frame. * @param node Node that originated the frame. * @param lun 32-bit LUN from FCP_CMND frame. * * @return Returns None. */ static void ocs_dispatch_unsolicited_tmf(ocs_io_t *io, uint8_t task_management_flags, ocs_node_t *node, uint64_t lun) { uint32_t i; struct { uint32_t mask; ocs_scsi_tmf_cmd_e cmd; } tmflist[] = { {FCP_QUERY_TASK_SET, OCS_SCSI_TMF_QUERY_TASK_SET}, {FCP_ABORT_TASK_SET, OCS_SCSI_TMF_ABORT_TASK_SET}, {FCP_CLEAR_TASK_SET, OCS_SCSI_TMF_CLEAR_TASK_SET}, {FCP_QUERY_ASYNCHRONOUS_EVENT, OCS_SCSI_TMF_QUERY_ASYNCHRONOUS_EVENT}, {FCP_LOGICAL_UNIT_RESET, OCS_SCSI_TMF_LOGICAL_UNIT_RESET}, {FCP_TARGET_RESET, OCS_SCSI_TMF_TARGET_RESET}, {FCP_CLEAR_ACA, OCS_SCSI_TMF_CLEAR_ACA}}; io->exp_xfer_len = 0; /* BUG 32235 */ for (i = 0; i < ARRAY_SIZE(tmflist); i ++) { if (tmflist[i].mask & task_management_flags) { io->tmf_cmd = tmflist[i].cmd; ocs_scsi_recv_tmf(io, lun, tmflist[i].cmd, NULL, 0); break; } } if (i == ARRAY_SIZE(tmflist)) { /* Not handled */ node_printf(node, "TMF x%x rejected\n", task_management_flags); ocs_scsi_send_tmf_resp(io, OCS_SCSI_TMF_FUNCTION_REJECTED, NULL, ocs_fc_tmf_rejected_cb, NULL); } } static int32_t ocs_validate_fcp_cmd(ocs_t *ocs, ocs_hw_sequence_t *seq) { size_t exp_payload_len = 0; fcp_cmnd_iu_t *cmnd = seq->payload->dma.virt; exp_payload_len = sizeof(fcp_cmnd_iu_t) - 16 + cmnd->additional_fcp_cdb_length; /* * If we received less than FCP_CMND_IU bytes, assume that the frame is * corrupted in some way and drop it. This was seen when jamming the FCTL * fill bytes field. */ if (seq->payload->dma.len < exp_payload_len) { fc_header_t *fchdr = seq->header->dma.virt; ocs_log_debug(ocs, "dropping ox_id %04x with payload length (%zd) less than expected (%zd)\n", ocs_be16toh(fchdr->ox_id), seq->payload->dma.len, exp_payload_len); return -1; } return 0; } static void ocs_populate_io_fcp_cmd(ocs_io_t *io, fcp_cmnd_iu_t *cmnd, fc_header_t *fchdr, uint8_t sit) { uint32_t *fcp_dl; io->init_task_tag = ocs_be16toh(fchdr->ox_id); /* note, tgt_task_tag, hw_tag set when HW io is allocated */ fcp_dl = (uint32_t*)(&(cmnd->fcp_cdb_and_dl)); fcp_dl += cmnd->additional_fcp_cdb_length; io->exp_xfer_len = ocs_be32toh(*fcp_dl); io->transferred = 0; /* The upper 7 bits of CS_CTL is the frame priority thru the SAN. * Our assertion here is, the priority given to a frame containing * the FCP cmd should be the priority given to ALL frames contained * in that IO. Thus we need to save the incoming CS_CTL here. */ if (fc_be24toh(fchdr->f_ctl) & FC_FCTL_PRIORITY_ENABLE) { io->cs_ctl = fchdr->cs_ctl; } else { io->cs_ctl = 0; } io->seq_init = sit; } static uint32_t ocs_get_flags_fcp_cmd(fcp_cmnd_iu_t *cmnd) { uint32_t flags = 0; switch (cmnd->task_attribute) { case FCP_TASK_ATTR_SIMPLE: flags |= OCS_SCSI_CMD_SIMPLE; break; case FCP_TASK_ATTR_HEAD_OF_QUEUE: flags |= OCS_SCSI_CMD_HEAD_OF_QUEUE; break; case FCP_TASK_ATTR_ORDERED: flags |= OCS_SCSI_CMD_ORDERED; break; case FCP_TASK_ATTR_ACA: flags |= OCS_SCSI_CMD_ACA; break; case FCP_TASK_ATTR_UNTAGGED: flags |= OCS_SCSI_CMD_UNTAGGED; break; } flags |= (uint32_t)cmnd->command_priority << OCS_SCSI_PRIORITY_SHIFT; if (cmnd->wrdata) flags |= OCS_SCSI_CMD_DIR_IN; if (cmnd->rddata) flags |= OCS_SCSI_CMD_DIR_OUT; return flags; } /** * @ingroup unsol * @brief Dispatch unsolicited FCP_CMND frame. * *

Description

* Dispatch unsolicited FCP_CMND frame. RQ Pair mode - always * used for RQ Pair mode since first burst is not supported. * * @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. */ static int32_t ocs_dispatch_fcp_cmd(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_t *ocs = node->ocs; fc_header_t *fchdr = seq->header->dma.virt; fcp_cmnd_iu_t *cmnd = NULL; ocs_io_t *io = NULL; fc_vm_header_t *vhdr; uint8_t df_ctl; uint64_t lun = UINT64_MAX; int32_t rc = 0; ocs_assert(seq->payload, -1); cmnd = seq->payload->dma.virt; /* perform FCP_CMND validation check(s) */ if (ocs_validate_fcp_cmd(ocs, seq)) { return -1; } lun = CAM_EXTLUN_BYTE_SWIZZLE(be64dec(cmnd->fcp_lun)); if (lun == UINT64_MAX) { return -1; } io = ocs_scsi_io_alloc(node, OCS_SCSI_IO_ROLE_RESPONDER); if (io == NULL) { uint32_t send_frame_capable; /* If we have SEND_FRAME capability, then use it to send task set full or busy */ rc = ocs_hw_get(&ocs->hw, OCS_HW_SEND_FRAME_CAPABLE, &send_frame_capable); if ((rc == 0) && send_frame_capable) { rc = ocs_sframe_send_task_set_full_or_busy(node, seq); if (rc) { ocs_log_test(ocs, "ocs_sframe_send_task_set_full_or_busy failed: %d\n", rc); } return rc; } ocs_log_err(ocs, "IO allocation failed ox_id %04x\n", ocs_be16toh(fchdr->ox_id)); return -1; } io->hw_priv = seq->hw_priv; /* Check if the CMD has vmheader. */ io->app_id = 0; df_ctl = fchdr->df_ctl; if (df_ctl & FC_DFCTL_DEVICE_HDR_16_MASK) { uint32_t vmhdr_offset = 0; /* Presence of VMID. Get the vm header offset. */ if (df_ctl & FC_DFCTL_ESP_HDR_MASK) { vmhdr_offset += FC_DFCTL_ESP_HDR_SIZE; ocs_log_err(ocs, "ESP Header present. Fix ESP Size.\n"); } if (df_ctl & FC_DFCTL_NETWORK_HDR_MASK) { vmhdr_offset += FC_DFCTL_NETWORK_HDR_SIZE; } vhdr = (fc_vm_header_t *) ((char *)fchdr + sizeof(fc_header_t) + vmhdr_offset); io->app_id = ocs_be32toh(vhdr->src_vmid); } /* RQ pair, if we got here, SIT=1 */ ocs_populate_io_fcp_cmd(io, cmnd, fchdr, TRUE); if (cmnd->task_management_flags) { ocs_dispatch_unsolicited_tmf(io, cmnd->task_management_flags, node, lun); } else { uint32_t flags = ocs_get_flags_fcp_cmd(cmnd); /* can return failure for things like task set full and UAs, * no need to treat as a dropped frame if rc != 0 */ ocs_scsi_recv_cmd(io, lun, cmnd->fcp_cdb, sizeof(cmnd->fcp_cdb) + (cmnd->additional_fcp_cdb_length * sizeof(uint32_t)), flags); } /* successfully processed, now return RX buffer to the chip */ ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup unsol * @brief Dispatch unsolicited FCP_CMND frame (auto xfer rdy). * *

Description

* Dispatch unsolicited FCP_CMND frame that is assisted with auto xfer ready. * * @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. */ static int32_t ocs_dispatch_fcp_cmd_auto_xfer_rdy(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_t *ocs = node->ocs; fc_header_t *fchdr = seq->header->dma.virt; fcp_cmnd_iu_t *cmnd = NULL; ocs_io_t *io = NULL; uint64_t lun = UINT64_MAX; int32_t rc = 0; ocs_assert(seq->payload, -1); cmnd = seq->payload->dma.virt; /* perform FCP_CMND validation check(s) */ if (ocs_validate_fcp_cmd(ocs, seq)) { return -1; } /* make sure first burst or auto xfer_rdy is enabled */ if (!seq->auto_xrdy) { node_printf(node, "IO is not Auto Xfr Rdy assisted, dropping FCP_CMND\n"); return -1; } lun = CAM_EXTLUN_BYTE_SWIZZLE(be64dec(cmnd->fcp_lun)); /* TODO should there be a check here for an error? Why do any of the * below if the LUN decode failed? */ io = ocs_scsi_io_alloc(node, OCS_SCSI_IO_ROLE_RESPONDER); if (io == NULL) { uint32_t send_frame_capable; /* If we have SEND_FRAME capability, then use it to send task set full or busy */ rc = ocs_hw_get(&ocs->hw, OCS_HW_SEND_FRAME_CAPABLE, &send_frame_capable); if ((rc == 0) && send_frame_capable) { rc = ocs_sframe_send_task_set_full_or_busy(node, seq); if (rc) { ocs_log_test(ocs, "ocs_sframe_send_task_set_full_or_busy failed: %d\n", rc); } return rc; } ocs_log_err(ocs, "IO allocation failed ox_id %04x\n", ocs_be16toh(fchdr->ox_id)); return -1; } io->hw_priv = seq->hw_priv; /* RQ pair, if we got here, SIT=0 */ ocs_populate_io_fcp_cmd(io, cmnd, fchdr, FALSE); if (cmnd->task_management_flags) { /* first burst command better not be a TMF */ ocs_log_err(ocs, "TMF flags set 0x%x\n", cmnd->task_management_flags); ocs_scsi_io_free(io); return -1; } else { uint32_t flags = ocs_get_flags_fcp_cmd(cmnd); /* activate HW IO */ ocs_hw_io_activate_port_owned(&ocs->hw, seq->hio); io->hio = seq->hio; seq->hio->ul_io = io; io->tgt_task_tag = seq->hio->indicator; /* Note: Data buffers are received in another call */ ocs_scsi_recv_cmd_first_burst(io, lun, cmnd->fcp_cdb, sizeof(cmnd->fcp_cdb) + (cmnd->additional_fcp_cdb_length * sizeof(uint32_t)), flags, NULL, 0); } /* FCP_CMND processed, return RX buffer to the chip */ ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup unsol * @brief Dispatch FCP data frames for auto xfer ready. * *

Description

* Dispatch unsolicited FCP data frames (auto xfer ready) * containing sequence initiative transferred (SIT=1). * * @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. */ static int32_t ocs_dispatch_fcp_data(ocs_node_t *node, ocs_hw_sequence_t *seq) { ocs_t *ocs = node->ocs; ocs_hw_t *hw = &ocs->hw; ocs_hw_io_t *hio = seq->hio; ocs_io_t *io; ocs_dma_t fburst[1]; ocs_assert(seq->payload, -1); ocs_assert(hio, -1); io = hio->ul_io; if (io == NULL) { ocs_log_err(ocs, "data received for NULL io, xri=0x%x\n", hio->indicator); return -1; } /* * We only support data completions for auto xfer ready. Make sure * this is a port owned XRI. */ if (!ocs_hw_is_io_port_owned(hw, seq->hio)) { ocs_log_err(ocs, "data received for host owned XRI, xri=0x%x\n", hio->indicator); return -1; } /* For error statuses, pass the error to the target back end */ if (seq->status != OCS_HW_UNSOL_SUCCESS) { ocs_log_err(ocs, "data with status 0x%x received, xri=0x%x\n", seq->status, hio->indicator); /* * In this case, there is an existing, in-use HW IO that * first may need to be aborted. Then, the backend will be * notified of the error while waiting for the data. */ ocs_port_owned_abort(ocs, seq->hio); /* * HW IO has already been allocated and is waiting for data. * Need to tell backend that an error has occurred. */ ocs_scsi_recv_cmd_first_burst(io, 0, NULL, 0, OCS_SCSI_FIRST_BURST_ERR, NULL, 0); return -1; } /* sequence initiative has been transferred */ io->seq_init = 1; /* convert the array of pointers to the correct type, to send to backend */ fburst[0] = seq->payload->dma; /* the amount of first burst data was saved as "acculated sequence length" */ io->transferred = seq->payload->dma.len; if (ocs_scsi_recv_cmd_first_burst(io, 0, NULL, 0, 0, fburst, io->transferred)) { ocs_log_err(ocs, "error passing first burst, xri=0x%x, oxid=0x%x\n", hio->indicator, io->init_task_tag); } /* Free the header and all the accumulated payload buffers */ ocs_hw_sequence_free(&ocs->hw, seq); return 0; } /** * @ingroup unsol * @brief Handle the callback for the TMF FUNCTION_REJECTED response. * *

Description

* Handle the callback of a send TMF FUNCTION_REJECTED response request. * * @param io Pointer to the IO context. * @param scsi_status Status of the response. * @param flags Callback flags. * @param arg Callback argument. * * @return Returns 0 on success, or a negative error value on failure. */ static int32_t ocs_fc_tmf_rejected_cb(ocs_io_t *io, ocs_scsi_io_status_e scsi_status, uint32_t flags, void *arg) { ocs_scsi_io_free(io); return 0; } /** * @brief Return next FC frame on node->pend_frames list * * The next FC frame on the node->pend_frames list is returned, or NULL * if the list is empty. * * @param pend_list Pending list to be purged. * @param list_lock Lock that protects pending list. * * @return Returns pointer to the next FC frame, or NULL if the pending frame list * is empty. */ static ocs_hw_sequence_t * ocs_frame_next(ocs_list_t *pend_list, ocs_lock_t *list_lock) { ocs_hw_sequence_t *frame = NULL; ocs_lock(list_lock); frame = ocs_list_remove_head(pend_list); ocs_unlock(list_lock); return frame; } /** * @brief Process send fcp response frame callback * * The function is called when the send FCP response posting has completed. Regardless * of the outcome, the sequence is freed. * * @param arg Pointer to originator frame sequence. * @param cqe Pointer to completion queue entry. * @param status Status of operation. * * @return None. */ static void ocs_sframe_common_send_cb(void *arg, uint8_t *cqe, int32_t status) { ocs_hw_send_frame_context_t *ctx = arg; ocs_hw_t *hw = ctx->hw; /* Free WQ completion callback */ ocs_hw_reqtag_free(hw, ctx->wqcb); /* Free sequence */ ocs_hw_sequence_free(hw, ctx->seq); } /** * @brief Send a frame, common code * * A frame is sent using SEND_FRAME, the R_CTL/F_CTL/TYPE may be specified, the payload is * sent as a single frame. * * Memory resources are allocated from RQ buffers contained in the passed in sequence data. * * @param node Pointer to node object. * @param seq Pointer to sequence object. * @param r_ctl R_CTL value to place in FC header. * @param info INFO value to place in FC header. * @param f_ctl F_CTL value to place in FC header. * @param type TYPE value to place in FC header. * @param payload Pointer to payload data * @param payload_len Length of payload in bytes. * * @return Returns 0 on success, or a negative error code value on failure. */ static int32_t ocs_sframe_common_send(ocs_node_t *node, ocs_hw_sequence_t *seq, uint8_t r_ctl, uint8_t info, uint32_t f_ctl, uint8_t type, void *payload, uint32_t payload_len) { ocs_t *ocs = node->ocs; ocs_hw_t *hw = &ocs->hw; ocs_hw_rtn_e rc = 0; fc_header_t *behdr = seq->header->dma.virt; fc_header_le_t hdr; uint32_t s_id = fc_be24toh(behdr->s_id); uint32_t d_id = fc_be24toh(behdr->d_id); uint16_t ox_id = ocs_be16toh(behdr->ox_id); uint16_t rx_id = ocs_be16toh(behdr->rx_id); ocs_hw_send_frame_context_t *ctx; uint32_t heap_size = seq->payload->dma.size; uintptr_t heap_phys_base = seq->payload->dma.phys; uint8_t *heap_virt_base = seq->payload->dma.virt; uint32_t heap_offset = 0; /* Build the FC header reusing the RQ header DMA buffer */ ocs_memset(&hdr, 0, sizeof(hdr)); hdr.d_id = s_id; /* send it back to whomever sent it to us */ hdr.r_ctl = r_ctl; hdr.info = info; hdr.s_id = d_id; hdr.cs_ctl = 0; hdr.f_ctl = f_ctl; hdr.type = type; hdr.seq_cnt = 0; hdr.df_ctl = 0; /* * send_frame_seq_id is an atomic, we just let it increment, while storing only * the low 8 bits to hdr->seq_id */ hdr.seq_id = (uint8_t) ocs_atomic_add_return(&hw->send_frame_seq_id, 1); hdr.rx_id = rx_id; hdr.ox_id = ox_id; hdr.parameter = 0; /* Allocate and fill in the send frame request context */ ctx = (void*)(heap_virt_base + heap_offset); heap_offset += sizeof(*ctx); ocs_assert(heap_offset < heap_size, -1); ocs_memset(ctx, 0, sizeof(*ctx)); /* Save sequence */ ctx->seq = seq; /* Allocate a response payload DMA buffer from the heap */ ctx->payload.phys = heap_phys_base + heap_offset; ctx->payload.virt = heap_virt_base + heap_offset; ctx->payload.size = payload_len; ctx->payload.len = payload_len; heap_offset += payload_len; ocs_assert(heap_offset <= heap_size, -1); /* Copy the payload in */ ocs_memcpy(ctx->payload.virt, payload, payload_len); /* Send */ rc = ocs_hw_send_frame(&ocs->hw, (void*)&hdr, FC_SOFI3, FC_EOFT, &ctx->payload, ctx, ocs_sframe_common_send_cb, ctx); if (rc) { ocs_log_test(ocs, "ocs_hw_send_frame failed: %d\n", rc); } return rc ? -1 : 0; } /** * @brief Send FCP response using SEND_FRAME * * The FCP response is send using the SEND_FRAME function. * * @param node Pointer to node object. * @param seq Pointer to inbound sequence. * @param rsp Pointer to response data. * @param rsp_len Length of response data, in bytes. * * @return Returns 0 on success, or a negative error code value on failure. */ static int32_t ocs_sframe_send_fcp_rsp(ocs_node_t *node, ocs_hw_sequence_t *seq, void *rsp, uint32_t rsp_len) { return ocs_sframe_common_send(node, seq, FC_RCTL_FC4_DATA, FC_RCTL_INFO_CMD_STATUS, FC_FCTL_EXCHANGE_RESPONDER | FC_FCTL_LAST_SEQUENCE | FC_FCTL_END_SEQUENCE | FC_FCTL_SEQUENCE_INITIATIVE, FC_TYPE_FCP, rsp, rsp_len); } /** * @brief Send task set full response * * Return a task set full or busy response using send frame. * * @param node Pointer to node object. * @param seq Pointer to originator frame sequence. * * @return Returns 0 on success, or a negative error code value on failure. */ static int32_t ocs_sframe_send_task_set_full_or_busy(ocs_node_t *node, ocs_hw_sequence_t *seq) { fcp_rsp_iu_t fcprsp; fcp_cmnd_iu_t *fcpcmd = seq->payload->dma.virt; uint32_t *fcp_dl_ptr; uint32_t fcp_dl; int32_t rc = 0; /* extract FCP_DL from FCP command*/ fcp_dl_ptr = (uint32_t*)(&(fcpcmd->fcp_cdb_and_dl)); fcp_dl_ptr += fcpcmd->additional_fcp_cdb_length; fcp_dl = ocs_be32toh(*fcp_dl_ptr); /* construct task set full or busy response */ ocs_memset(&fcprsp, 0, sizeof(fcprsp)); ocs_lock(&node->active_ios_lock); fcprsp.scsi_status = ocs_list_empty(&node->active_ios) ? SCSI_STATUS_BUSY : SCSI_STATUS_TASK_SET_FULL; ocs_unlock(&node->active_ios_lock); *((uint32_t*)&fcprsp.fcp_resid) = fcp_dl; /* send it using send_frame */ rc = ocs_sframe_send_fcp_rsp(node, seq, &fcprsp, sizeof(fcprsp) - sizeof(fcprsp.data)); if (rc) { ocs_log_test(node->ocs, "ocs_sframe_send_fcp_rsp failed: %d\n", rc); } return rc; } /** * @brief Send BA_ACC using sent frame * * A BA_ACC is sent using SEND_FRAME * * @param node Pointer to node object. * @param seq Pointer to originator frame sequence. * * @return Returns 0 on success, or a negative error code value on failure. */ int32_t ocs_sframe_send_bls_acc(ocs_node_t *node, ocs_hw_sequence_t *seq) { fc_header_t *behdr = seq->header->dma.virt; uint16_t ox_id = ocs_be16toh(behdr->ox_id); uint16_t rx_id = ocs_be16toh(behdr->rx_id); fc_ba_acc_payload_t acc = {0}; acc.ox_id = ocs_htobe16(ox_id); acc.rx_id = ocs_htobe16(rx_id); acc.low_seq_cnt = UINT16_MAX; acc.high_seq_cnt = UINT16_MAX; return ocs_sframe_common_send(node, seq, FC_RCTL_BLS, FC_RCTL_INFO_UNSOL_DATA, FC_FCTL_EXCHANGE_RESPONDER | FC_FCTL_LAST_SEQUENCE | FC_FCTL_END_SEQUENCE, FC_TYPE_BASIC_LINK, &acc, sizeof(acc)); }