Commit d74a89aa authored by James Smart's avatar James Smart Committed by Martin K. Petersen

scsi: lpfc: Separate CQ processing for nvmet_fc upcalls

Currently the driver is notified of new command frame receipt by CQEs. As
part of the CQE processing, the driver upcalls the nvmet_fc transport to
deliver the command. nvmet_fc, as part of receiving the command builds out
a context for it, where one of the first steps is to allocate memory for
the io.

When running with tests that do large ios (1MB), it was found on some
systems, the total number of outstanding I/O's, at 1MB per, completely
consumed the system's memory. Thus additional ios were getting blocked in
the memory allocator.  Given that this blocked the lpfc thread processing
CQEs, there were lots of other commands that were received and which are
then held up, and given CQEs are serially processed, the aggregate delays
for an IO waiting behind the others became cummulative - enough so that the
initiator hit timeouts for the ios.

The basic fix is to avoid the direct upcall and instead schedule a work
item for each io as it is received. This allows the cq processing to
complete very quickly, and each io can then run or block on it's own.
However, this general solution hurts latency when there are few ios.  As
such, implemented the fix such that the driver watches how many CQEs it has
processed sequentially in one run. As long as the count is below a
threshold, the direct nvmet_fc upcall will be made. Only when the count is
exceeded will it revert to work scheduling.

Given that debug of this showed a surprisingly long delay in cq processing,
the io timer stats were updated to better reflect the processing of the
different points.
Signed-off-by: default avatarDick Kennedy <dick.kennedy@broadcom.com>
Signed-off-by: default avatarJames Smart <jsmart2021@gmail.com>
Signed-off-by: default avatarMartin K. Petersen <martin.petersen@oracle.com>
parent 2ab70c21
......@@ -568,7 +568,8 @@ void lpfc_nvmet_destroy_targetport(struct lpfc_hba *phba);
void lpfc_nvmet_unsol_ls_event(struct lpfc_hba *phba,
struct lpfc_sli_ring *pring, struct lpfc_iocbq *piocb);
void lpfc_nvmet_unsol_fcp_event(struct lpfc_hba *phba, uint32_t idx,
struct rqb_dmabuf *nvmebuf, uint64_t isr_ts);
struct rqb_dmabuf *nvmebuf, uint64_t isr_ts,
uint8_t cqflag);
void lpfc_nvme_mod_param_dep(struct lpfc_hba *phba);
void lpfc_nvme_abort_fcreq_cmpl(struct lpfc_hba *phba,
struct lpfc_iocbq *cmdiocb,
......
......@@ -395,8 +395,9 @@ lpfc_nvmet_ctxbuf_post(struct lpfc_hba *phba, struct lpfc_nvmet_ctxbuf *ctx_buf)
spin_lock_init(&ctxp->ctxlock);
#ifdef CONFIG_SCSI_LPFC_DEBUG_FS
if (ctxp->ts_cmd_nvme) {
ctxp->ts_cmd_nvme = ktime_get_ns();
/* NOTE: isr time stamp is stale when context is re-assigned*/
if (ctxp->ts_isr_cmd) {
ctxp->ts_cmd_nvme = 0;
ctxp->ts_nvme_data = 0;
ctxp->ts_data_wqput = 0;
ctxp->ts_isr_data = 0;
......@@ -1877,6 +1878,10 @@ lpfc_nvmet_process_rcv_fcp_req(struct lpfc_nvmet_ctxbuf *ctx_buf)
payload = (uint32_t *)(nvmebuf->dbuf.virt);
tgtp = (struct lpfc_nvmet_tgtport *)phba->targetport->private;
#ifdef CONFIG_SCSI_LPFC_DEBUG_FS
if (ctxp->ts_isr_cmd)
ctxp->ts_cmd_nvme = ktime_get_ns();
#endif
/*
* The calling sequence should be:
* nvmet_fc_rcv_fcp_req->lpfc_nvmet_xmt_fcp_op/cmp- req->done
......@@ -2015,6 +2020,8 @@ lpfc_nvmet_replenish_context(struct lpfc_hba *phba,
* @phba: pointer to lpfc hba data structure.
* @idx: relative index of MRQ vector
* @nvmebuf: pointer to lpfc nvme command HBQ data structure.
* @isr_timestamp: in jiffies.
* @cqflag: cq processing information regarding workload.
*
* This routine is used for processing the WQE associated with a unsolicited
* event. It first determines whether there is an existing ndlp that matches
......@@ -2027,7 +2034,8 @@ static void
lpfc_nvmet_unsol_fcp_buffer(struct lpfc_hba *phba,
uint32_t idx,
struct rqb_dmabuf *nvmebuf,
uint64_t isr_timestamp)
uint64_t isr_timestamp,
uint8_t cqflag)
{
struct lpfc_nvmet_rcv_ctx *ctxp;
struct lpfc_nvmet_tgtport *tgtp;
......@@ -2136,24 +2144,41 @@ lpfc_nvmet_unsol_fcp_buffer(struct lpfc_hba *phba,
spin_lock_init(&ctxp->ctxlock);
#ifdef CONFIG_SCSI_LPFC_DEBUG_FS
if (isr_timestamp) {
if (isr_timestamp)
ctxp->ts_isr_cmd = isr_timestamp;
ctxp->ts_cmd_nvme = ktime_get_ns();
ctxp->ts_nvme_data = 0;
ctxp->ts_data_wqput = 0;
ctxp->ts_isr_data = 0;
ctxp->ts_data_nvme = 0;
ctxp->ts_nvme_status = 0;
ctxp->ts_status_wqput = 0;
ctxp->ts_isr_status = 0;
ctxp->ts_status_nvme = 0;
} else {
ctxp->ts_cmd_nvme = 0;
}
ctxp->ts_cmd_nvme = 0;
ctxp->ts_nvme_data = 0;
ctxp->ts_data_wqput = 0;
ctxp->ts_isr_data = 0;
ctxp->ts_data_nvme = 0;
ctxp->ts_nvme_status = 0;
ctxp->ts_status_wqput = 0;
ctxp->ts_isr_status = 0;
ctxp->ts_status_nvme = 0;
#endif
atomic_inc(&tgtp->rcv_fcp_cmd_in);
lpfc_nvmet_process_rcv_fcp_req(ctx_buf);
/* check for cq processing load */
if (!cqflag) {
lpfc_nvmet_process_rcv_fcp_req(ctx_buf);
return;
}
if (!queue_work(phba->wq, &ctx_buf->defer_work)) {
atomic_inc(&tgtp->rcv_fcp_cmd_drop);
lpfc_printf_log(phba, KERN_ERR, LOG_NVME,
"6325 Unable to queue work for oxid x%x. "
"FCP Drop IO [x%x x%x x%x]\n",
ctxp->oxid,
atomic_read(&tgtp->rcv_fcp_cmd_in),
atomic_read(&tgtp->rcv_fcp_cmd_out),
atomic_read(&tgtp->xmt_fcp_release));
spin_lock_irqsave(&ctxp->ctxlock, iflag);
lpfc_nvmet_defer_release(phba, ctxp);
spin_unlock_irqrestore(&ctxp->ctxlock, iflag);
lpfc_nvmet_unsol_fcp_issue_abort(phba, ctxp, sid, oxid);
}
}
/**
......@@ -2190,6 +2215,8 @@ lpfc_nvmet_unsol_ls_event(struct lpfc_hba *phba, struct lpfc_sli_ring *pring,
* @phba: pointer to lpfc hba data structure.
* @idx: relative index of MRQ vector
* @nvmebuf: pointer to received nvme data structure.
* @isr_timestamp: in jiffies.
* @cqflag: cq processing information regarding workload.
*
* This routine is used to process an unsolicited event received from a SLI
* (Service Level Interface) ring. The actual processing of the data buffer
......@@ -2201,14 +2228,14 @@ void
lpfc_nvmet_unsol_fcp_event(struct lpfc_hba *phba,
uint32_t idx,
struct rqb_dmabuf *nvmebuf,
uint64_t isr_timestamp)
uint64_t isr_timestamp,
uint8_t cqflag)
{
if (phba->nvmet_support == 0) {
lpfc_rq_buf_free(phba, &nvmebuf->hbuf);
return;
}
lpfc_nvmet_unsol_fcp_buffer(phba, idx, nvmebuf,
isr_timestamp);
lpfc_nvmet_unsol_fcp_buffer(phba, idx, nvmebuf, isr_timestamp, cqflag);
}
/**
......
......@@ -13582,14 +13582,9 @@ __lpfc_sli4_process_cq(struct lpfc_hba *phba, struct lpfc_queue *cq,
goto rearm_and_exit;
/* Process all the entries to the CQ */
cq->q_flag = 0;
cqe = lpfc_sli4_cq_get(cq);
while (cqe) {
#if defined(CONFIG_SCSI_LPFC_DEBUG_FS) && defined(BUILD_NVME)
if (phba->ktime_on)
cq->isr_timestamp = ktime_get_ns();
else
cq->isr_timestamp = 0;
#endif
workposted |= handler(phba, cq, cqe);
__lpfc_sli4_consume_cqe(phba, cq, cqe);
......@@ -13603,6 +13598,9 @@ __lpfc_sli4_process_cq(struct lpfc_hba *phba, struct lpfc_queue *cq,
consumed = 0;
}
if (count == LPFC_NVMET_CQ_NOTIFY)
cq->q_flag |= HBA_NVMET_CQ_NOTIFY;
cqe = lpfc_sli4_cq_get(cq);
}
if (count >= phba->cfg_cq_poll_threshold) {
......@@ -13918,10 +13916,10 @@ lpfc_sli4_nvmet_handle_rcqe(struct lpfc_hba *phba, struct lpfc_queue *cq,
goto drop;
if (fc_hdr->fh_type == FC_TYPE_FCP) {
dma_buf->bytes_recv = bf_get(lpfc_rcqe_length, rcqe);
dma_buf->bytes_recv = bf_get(lpfc_rcqe_length, rcqe);
lpfc_nvmet_unsol_fcp_event(
phba, idx, dma_buf,
cq->isr_timestamp);
phba, idx, dma_buf, cq->isr_timestamp,
cq->q_flag & HBA_NVMET_CQ_NOTIFY);
return false;
}
drop:
......@@ -14087,6 +14085,12 @@ lpfc_sli4_hba_handle_eqe(struct lpfc_hba *phba, struct lpfc_queue *eq,
}
work_cq:
#if defined(CONFIG_SCSI_LPFC_DEBUG_FS)
if (phba->ktime_on)
cq->isr_timestamp = ktime_get_ns();
else
cq->isr_timestamp = 0;
#endif
if (!queue_work_on(cq->chann, phba->wq, &cq->irqwork))
lpfc_printf_log(phba, KERN_ERR, LOG_SLI,
"0363 Cannot schedule soft IRQ "
......
......@@ -197,6 +197,8 @@ struct lpfc_queue {
#define LPFC_DB_LIST_FORMAT 0x02
uint8_t q_flag;
#define HBA_NVMET_WQFULL 0x1 /* We hit WQ Full condition for NVMET */
#define HBA_NVMET_CQ_NOTIFY 0x1 /* LPFC_NVMET_CQ_NOTIFY CQEs this EQE */
#define LPFC_NVMET_CQ_NOTIFY 4
void __iomem *db_regaddr;
uint16_t dpp_enable;
uint16_t dpp_id;
......
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