Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Narsimhulu Musini | 2537 | 98.49% | 2 | 66.67% |
Christoph Hellwig | 39 | 1.51% | 1 | 33.33% |
Total | 2576 | 3 |
/* * Copyright 2014 Cisco Systems, Inc. All rights reserved. * * This program is free software; you may redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include <linux/errno.h> #include <linux/pci.h> #include <linux/slab.h> #include <linux/interrupt.h> #include <linux/workqueue.h> #include <linux/spinlock.h> #include <linux/mempool.h> #include <scsi/scsi_tcq.h> #include "snic_io.h" #include "snic.h" #include "cq_enet_desc.h" #include "snic_fwint.h" static void snic_wq_cmpl_frame_send(struct vnic_wq *wq, struct cq_desc *cq_desc, struct vnic_wq_buf *buf, void *opaque) { struct snic *snic = svnic_dev_priv(wq->vdev); SNIC_BUG_ON(buf->os_buf == NULL); if (snic_log_level & SNIC_DESC_LOGGING) SNIC_HOST_INFO(snic->shost, "Ack received for snic_host_req %p.\n", buf->os_buf); SNIC_TRC(snic->shost->host_no, 0, 0, ((ulong)(buf->os_buf) - sizeof(struct snic_req_info)), 0, 0, 0); buf->os_buf = NULL; } static int snic_wq_cmpl_handler_cont(struct vnic_dev *vdev, struct cq_desc *cq_desc, u8 type, u16 q_num, u16 cmpl_idx, void *opaque) { struct snic *snic = svnic_dev_priv(vdev); unsigned long flags; SNIC_BUG_ON(q_num != 0); spin_lock_irqsave(&snic->wq_lock[q_num], flags); svnic_wq_service(&snic->wq[q_num], cq_desc, cmpl_idx, snic_wq_cmpl_frame_send, NULL); spin_unlock_irqrestore(&snic->wq_lock[q_num], flags); return 0; } /* end of snic_cmpl_handler_cont */ int snic_wq_cmpl_handler(struct snic *snic, int work_to_do) { unsigned int work_done = 0; unsigned int i; snic->s_stats.misc.last_ack_time = jiffies; for (i = 0; i < snic->wq_count; i++) { work_done += svnic_cq_service(&snic->cq[i], work_to_do, snic_wq_cmpl_handler_cont, NULL); } return work_done; } /* end of snic_wq_cmpl_handler */ void snic_free_wq_buf(struct vnic_wq *wq, struct vnic_wq_buf *buf) { struct snic_host_req *req = buf->os_buf; struct snic *snic = svnic_dev_priv(wq->vdev); struct snic_req_info *rqi = NULL; unsigned long flags; dma_unmap_single(&snic->pdev->dev, buf->dma_addr, buf->len, DMA_TO_DEVICE); rqi = req_to_rqi(req); spin_lock_irqsave(&snic->spl_cmd_lock, flags); if (list_empty(&rqi->list)) { spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); goto end; } SNIC_BUG_ON(rqi->list.next == NULL); /* if not added to spl_cmd_list */ list_del_init(&rqi->list); spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); if (rqi->sge_va) { snic_pci_unmap_rsp_buf(snic, rqi); kfree((void *)rqi->sge_va); rqi->sge_va = 0; } snic_req_free(snic, rqi); SNIC_HOST_INFO(snic->shost, "snic_free_wq_buf .. freed.\n"); end: return; } /* Criteria to select work queue in multi queue mode */ static int snic_select_wq(struct snic *snic) { /* No multi queue support for now */ BUILD_BUG_ON(SNIC_WQ_MAX > 1); return 0; } static int snic_wqdesc_avail(struct snic *snic, int q_num, int req_type) { int nr_wqdesc = snic->config.wq_enet_desc_count; if (q_num > 0) { /* * Multi Queue case, additional care is required. * Per WQ active requests need to be maintained. */ SNIC_HOST_INFO(snic->shost, "desc_avail: Multi Queue case.\n"); SNIC_BUG_ON(q_num > 0); return -1; } nr_wqdesc -= atomic64_read(&snic->s_stats.fw.actv_reqs); return ((req_type == SNIC_REQ_HBA_RESET) ? nr_wqdesc : nr_wqdesc - 1); } int snic_queue_wq_desc(struct snic *snic, void *os_buf, u16 len) { dma_addr_t pa = 0; unsigned long flags; struct snic_fw_stats *fwstats = &snic->s_stats.fw; struct snic_host_req *req = (struct snic_host_req *) os_buf; long act_reqs; long desc_avail = 0; int q_num = 0; snic_print_desc(__func__, os_buf, len); /* Map request buffer */ pa = dma_map_single(&snic->pdev->dev, os_buf, len, DMA_TO_DEVICE); if (dma_mapping_error(&snic->pdev->dev, pa)) { SNIC_HOST_ERR(snic->shost, "qdesc: PCI DMA Mapping Fail.\n"); return -ENOMEM; } req->req_pa = (ulong)pa; q_num = snic_select_wq(snic); spin_lock_irqsave(&snic->wq_lock[q_num], flags); desc_avail = snic_wqdesc_avail(snic, q_num, req->hdr.type); if (desc_avail <= 0) { dma_unmap_single(&snic->pdev->dev, pa, len, DMA_TO_DEVICE); req->req_pa = 0; spin_unlock_irqrestore(&snic->wq_lock[q_num], flags); atomic64_inc(&snic->s_stats.misc.wq_alloc_fail); SNIC_DBG("host = %d, WQ is Full\n", snic->shost->host_no); return -ENOMEM; } snic_queue_wq_eth_desc(&snic->wq[q_num], os_buf, pa, len, 0, 0, 1); /* * Update stats * note: when multi queue enabled, fw actv_reqs should be per queue. */ act_reqs = atomic64_inc_return(&fwstats->actv_reqs); spin_unlock_irqrestore(&snic->wq_lock[q_num], flags); if (act_reqs > atomic64_read(&fwstats->max_actv_reqs)) atomic64_set(&fwstats->max_actv_reqs, act_reqs); return 0; } /* end of snic_queue_wq_desc() */ /* * snic_handle_untagged_req: Adds snic specific requests to spl_cmd_list. * Purpose : Used during driver unload to clean up the requests. */ void snic_handle_untagged_req(struct snic *snic, struct snic_req_info *rqi) { unsigned long flags; INIT_LIST_HEAD(&rqi->list); spin_lock_irqsave(&snic->spl_cmd_lock, flags); list_add_tail(&rqi->list, &snic->spl_cmd_list); spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); } /* * snic_req_init: * Allocates snic_req_info + snic_host_req + sgl data, and initializes. */ struct snic_req_info * snic_req_init(struct snic *snic, int sg_cnt) { u8 typ; struct snic_req_info *rqi = NULL; typ = (sg_cnt <= SNIC_REQ_CACHE_DFLT_SGL) ? SNIC_REQ_CACHE_DFLT_SGL : SNIC_REQ_CACHE_MAX_SGL; rqi = mempool_alloc(snic->req_pool[typ], GFP_ATOMIC); if (!rqi) { atomic64_inc(&snic->s_stats.io.alloc_fail); SNIC_HOST_ERR(snic->shost, "Failed to allocate memory from snic req pool id = %d\n", typ); return rqi; } memset(rqi, 0, sizeof(*rqi)); rqi->rq_pool_type = typ; rqi->start_time = jiffies; rqi->req = (struct snic_host_req *) (rqi + 1); rqi->req_len = sizeof(struct snic_host_req); rqi->snic = snic; rqi->req = (struct snic_host_req *)(rqi + 1); if (sg_cnt == 0) goto end; rqi->req_len += (sg_cnt * sizeof(struct snic_sg_desc)); if (sg_cnt > atomic64_read(&snic->s_stats.io.max_sgl)) atomic64_set(&snic->s_stats.io.max_sgl, sg_cnt); SNIC_BUG_ON(sg_cnt > SNIC_MAX_SG_DESC_CNT); atomic64_inc(&snic->s_stats.io.sgl_cnt[sg_cnt - 1]); end: memset(rqi->req, 0, rqi->req_len); /* pre initialization of init_ctx to support req_to_rqi */ rqi->req->hdr.init_ctx = (ulong) rqi; SNIC_SCSI_DBG(snic->shost, "Req_alloc:rqi = %p allocatd.\n", rqi); return rqi; } /* end of snic_req_init */ /* * snic_abort_req_init : Inits abort request. */ struct snic_host_req * snic_abort_req_init(struct snic *snic, struct snic_req_info *rqi) { struct snic_host_req *req = NULL; SNIC_BUG_ON(!rqi); /* If abort to be issued second time, then reuse */ if (rqi->abort_req) return rqi->abort_req; req = mempool_alloc(snic->req_pool[SNIC_REQ_TM_CACHE], GFP_ATOMIC); if (!req) { SNIC_HOST_ERR(snic->shost, "abts:Failed to alloc tm req.\n"); WARN_ON_ONCE(1); return NULL; } rqi->abort_req = req; memset(req, 0, sizeof(struct snic_host_req)); /* pre initialization of init_ctx to support req_to_rqi */ req->hdr.init_ctx = (ulong) rqi; return req; } /* end of snic_abort_req_init */ /* * snic_dr_req_init : Inits device reset req */ struct snic_host_req * snic_dr_req_init(struct snic *snic, struct snic_req_info *rqi) { struct snic_host_req *req = NULL; SNIC_BUG_ON(!rqi); req = mempool_alloc(snic->req_pool[SNIC_REQ_TM_CACHE], GFP_ATOMIC); if (!req) { SNIC_HOST_ERR(snic->shost, "dr:Failed to alloc tm req.\n"); WARN_ON_ONCE(1); return NULL; } SNIC_BUG_ON(rqi->dr_req != NULL); rqi->dr_req = req; memset(req, 0, sizeof(struct snic_host_req)); /* pre initialization of init_ctx to support req_to_rqi */ req->hdr.init_ctx = (ulong) rqi; return req; } /* end of snic_dr_req_init */ /* frees snic_req_info and snic_host_req */ void snic_req_free(struct snic *snic, struct snic_req_info *rqi) { SNIC_BUG_ON(rqi->req == rqi->abort_req); SNIC_BUG_ON(rqi->req == rqi->dr_req); SNIC_BUG_ON(rqi->sge_va != 0); SNIC_SCSI_DBG(snic->shost, "Req_free:rqi %p:ioreq %p:abt %p:dr %p\n", rqi, rqi->req, rqi->abort_req, rqi->dr_req); if (rqi->abort_req) { if (rqi->abort_req->req_pa) dma_unmap_single(&snic->pdev->dev, rqi->abort_req->req_pa, sizeof(struct snic_host_req), DMA_TO_DEVICE); mempool_free(rqi->abort_req, snic->req_pool[SNIC_REQ_TM_CACHE]); } if (rqi->dr_req) { if (rqi->dr_req->req_pa) dma_unmap_single(&snic->pdev->dev, rqi->dr_req->req_pa, sizeof(struct snic_host_req), DMA_TO_DEVICE); mempool_free(rqi->dr_req, snic->req_pool[SNIC_REQ_TM_CACHE]); } if (rqi->req->req_pa) dma_unmap_single(&snic->pdev->dev, rqi->req->req_pa, rqi->req_len, DMA_TO_DEVICE); mempool_free(rqi, snic->req_pool[rqi->rq_pool_type]); } void snic_pci_unmap_rsp_buf(struct snic *snic, struct snic_req_info *rqi) { struct snic_sg_desc *sgd; sgd = req_to_sgl(rqi_to_req(rqi)); SNIC_BUG_ON(sgd[0].addr == 0); dma_unmap_single(&snic->pdev->dev, le64_to_cpu(sgd[0].addr), le32_to_cpu(sgd[0].len), DMA_FROM_DEVICE); } /* * snic_free_all_untagged_reqs: Walks through untagged reqs and frees them. */ void snic_free_all_untagged_reqs(struct snic *snic) { struct snic_req_info *rqi; struct list_head *cur, *nxt; unsigned long flags; spin_lock_irqsave(&snic->spl_cmd_lock, flags); list_for_each_safe(cur, nxt, &snic->spl_cmd_list) { rqi = list_entry(cur, struct snic_req_info, list); list_del_init(&rqi->list); if (rqi->sge_va) { snic_pci_unmap_rsp_buf(snic, rqi); kfree((void *)rqi->sge_va); rqi->sge_va = 0; } snic_req_free(snic, rqi); } spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); } /* * snic_release_untagged_req : Unlinks the untagged req and frees it. */ void snic_release_untagged_req(struct snic *snic, struct snic_req_info *rqi) { unsigned long flags; spin_lock_irqsave(&snic->snic_lock, flags); if (snic->in_remove) { spin_unlock_irqrestore(&snic->snic_lock, flags); goto end; } spin_unlock_irqrestore(&snic->snic_lock, flags); spin_lock_irqsave(&snic->spl_cmd_lock, flags); if (list_empty(&rqi->list)) { spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); goto end; } list_del_init(&rqi->list); spin_unlock_irqrestore(&snic->spl_cmd_lock, flags); snic_req_free(snic, rqi); end: return; } /* dump buf in hex fmt */ void snic_hex_dump(char *pfx, char *data, int len) { SNIC_INFO("%s Dumping Data of Len = %d\n", pfx, len); print_hex_dump_bytes(pfx, DUMP_PREFIX_NONE, data, len); } #define LINE_BUFSZ 128 /* for snic_print_desc fn */ static void snic_dump_desc(const char *fn, char *os_buf, int len) { struct snic_host_req *req = (struct snic_host_req *) os_buf; struct snic_fw_req *fwreq = (struct snic_fw_req *) os_buf; struct snic_req_info *rqi = NULL; char line[LINE_BUFSZ] = { '\0' }; char *cmd_str = NULL; if (req->hdr.type >= SNIC_RSP_REPORT_TGTS_CMPL) rqi = (struct snic_req_info *) fwreq->hdr.init_ctx; else rqi = (struct snic_req_info *) req->hdr.init_ctx; SNIC_BUG_ON(rqi == NULL || rqi->req == NULL); switch (req->hdr.type) { case SNIC_REQ_REPORT_TGTS: cmd_str = "report-tgt : "; snprintf(line, LINE_BUFSZ, "SNIC_REQ_REPORT_TGTS :"); break; case SNIC_REQ_ICMND: cmd_str = "icmnd : "; snprintf(line, LINE_BUFSZ, "SNIC_REQ_ICMND : 0x%x :", req->u.icmnd.cdb[0]); break; case SNIC_REQ_ITMF: cmd_str = "itmf : "; snprintf(line, LINE_BUFSZ, "SNIC_REQ_ITMF :"); break; case SNIC_REQ_HBA_RESET: cmd_str = "hba reset :"; snprintf(line, LINE_BUFSZ, "SNIC_REQ_HBA_RESET :"); break; case SNIC_REQ_EXCH_VER: cmd_str = "exch ver : "; snprintf(line, LINE_BUFSZ, "SNIC_REQ_EXCH_VER :"); break; case SNIC_REQ_TGT_INFO: cmd_str = "tgt info : "; break; case SNIC_RSP_REPORT_TGTS_CMPL: cmd_str = "report tgt cmpl : "; snprintf(line, LINE_BUFSZ, "SNIC_RSP_REPORT_TGTS_CMPL :"); break; case SNIC_RSP_ICMND_CMPL: cmd_str = "icmnd_cmpl : "; snprintf(line, LINE_BUFSZ, "SNIC_RSP_ICMND_CMPL : 0x%x :", rqi->req->u.icmnd.cdb[0]); break; case SNIC_RSP_ITMF_CMPL: cmd_str = "itmf_cmpl : "; snprintf(line, LINE_BUFSZ, "SNIC_RSP_ITMF_CMPL :"); break; case SNIC_RSP_HBA_RESET_CMPL: cmd_str = "hba_reset_cmpl : "; snprintf(line, LINE_BUFSZ, "SNIC_RSP_HBA_RESET_CMPL :"); break; case SNIC_RSP_EXCH_VER_CMPL: cmd_str = "exch_ver_cmpl : "; snprintf(line, LINE_BUFSZ, "SNIC_RSP_EXCH_VER_CMPL :"); break; case SNIC_MSG_ACK: cmd_str = "msg ack : "; snprintf(line, LINE_BUFSZ, "SNIC_MSG_ACK :"); break; case SNIC_MSG_ASYNC_EVNOTIFY: cmd_str = "async notify : "; snprintf(line, LINE_BUFSZ, "SNIC_MSG_ASYNC_EVNOTIFY :"); break; default: cmd_str = "unknown : "; SNIC_BUG_ON(1); break; } SNIC_INFO("%s:%s >>cmndid=%x:sg_cnt = %x:status = %x:ctx = %lx.\n", fn, line, req->hdr.cmnd_id, req->hdr.sg_cnt, req->hdr.status, req->hdr.init_ctx); /* Enable it, to dump byte stream */ if (snic_log_level & 0x20) snic_hex_dump(cmd_str, os_buf, len); } /* end of __snic_print_desc */ void snic_print_desc(const char *fn, char *os_buf, int len) { if (snic_log_level & SNIC_DESC_LOGGING) snic_dump_desc(fn, os_buf, len); } void snic_calc_io_process_time(struct snic *snic, struct snic_req_info *rqi) { u64 duration; duration = jiffies - rqi->start_time; if (duration > atomic64_read(&snic->s_stats.io.max_time)) atomic64_set(&snic->s_stats.io.max_time, duration); }
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