From patchwork Sat Feb 20 02:00:52 2021 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Douglas Gilbert X-Patchwork-Id: 385466 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org X-Spam-Level: X-Spam-Status: No, score=-16.8 required=3.0 tests=BAYES_00, HEADER_FROM_DIFFERENT_DOMAINS,INCLUDES_CR_TRAILER,INCLUDES_PATCH, MAILING_LIST_MULTI, SPF_HELO_NONE, SPF_PASS, URIBL_BLOCKED, USER_AGENT_GIT autolearn=ham autolearn_force=no version=3.4.0 Received: from mail.kernel.org (mail.kernel.org [198.145.29.99]) by smtp.lore.kernel.org (Postfix) with ESMTP id 01789C433E0 for ; Sat, 20 Feb 2021 02:07:42 +0000 (UTC) Received: from vger.kernel.org (vger.kernel.org [23.128.96.18]) by mail.kernel.org (Postfix) with ESMTP id C55D764EE1 for ; Sat, 20 Feb 2021 02:07:41 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S229932AbhBTCHW (ORCPT ); Fri, 19 Feb 2021 21:07:22 -0500 Received: from smtp.infotech.no ([82.134.31.41]:43729 "EHLO smtp.infotech.no" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S229994AbhBTCFD (ORCPT ); Fri, 19 Feb 2021 21:05:03 -0500 Received: from localhost (localhost [127.0.0.1]) by smtp.infotech.no (Postfix) with ESMTP id D013F2042AD; Sat, 20 Feb 2021 03:01:54 +0100 (CET) X-Virus-Scanned: by amavisd-new-2.6.6 (20110518) (Debian) at infotech.no Received: from smtp.infotech.no ([127.0.0.1]) by localhost (smtp.infotech.no [127.0.0.1]) (amavisd-new, port 10024) with ESMTP id 4gSgTZCLDBjW; Sat, 20 Feb 2021 03:01:52 +0100 (CET) Received: from xtwo70.bingwo.ca (host-104-157-204-209.dyn.295.ca [104.157.204.209]) by smtp.infotech.no (Postfix) with ESMTPA id 6B5242041D7; Sat, 20 Feb 2021 03:01:48 +0100 (CET) From: Douglas Gilbert To: linux-scsi@vger.kernel.org Cc: martin.petersen@oracle.com, jejb@linux.vnet.ibm.com, hare@suse.de Subject: [PATCH v16 41/45] sg: track lowest inactive and await indexes Date: Fri, 19 Feb 2021 21:00:52 -0500 Message-Id: <20210220020056.77483-42-dgilbert@interlog.com> X-Mailer: git-send-email 2.25.1 In-Reply-To: <20210220020056.77483-1-dgilbert@interlog.com> References: <20210220020056.77483-1-dgilbert@interlog.com> MIME-Version: 1.0 Precedence: bulk List-ID: X-Mailing-List: linux-scsi@vger.kernel.org Use two integers in the sg_fd structure to track recent and lowest xarray indexes that have become inactive or await a foreground receive. This is used to shorten the number of xarray iterations required prior to a match when queue (IO) depths are large, say 128. Replace the req_cnt atomic in struct sg_fd with the inactives atomic. With large queues cycles were wasted checking the request xarray for any inactives when there were none to be found. Rename the sg_rq_state_chg_*() functions to sg_rq_chg_state_*() since too many things start with "sg_rq_state". Also the new function names emphasize the change part a little more. Reviewed-by: Hannes Reinecke Signed-off-by: Douglas Gilbert --- drivers/scsi/sg.c | 304 ++++++++++++++++++++++++++-------------------- 1 file changed, 175 insertions(+), 129 deletions(-) diff --git a/drivers/scsi/sg.c b/drivers/scsi/sg.c index 862a7c158e4e..5f8c4fe38ce6 100644 --- a/drivers/scsi/sg.c +++ b/drivers/scsi/sg.c @@ -116,6 +116,7 @@ enum sg_rq_state { /* N.B. sg_rq_state_arr assumes SG_RS_AWAIT_RCV==2 */ #define SG_FRQ_RECEIVING 7 /* guard against multiple receivers */ #define SG_FRQ_BLK_PUT_REQ 8 /* set when blk_put_request() called */ #define SG_FRQ_FOR_MMAP 9 /* request needs PAGE_SIZE elements */ +#define SG_FRQ_COUNT_ACTIVE 10 /* sfp->submitted + waiting active */ /* Bit positions (flags) for sg_fd::ffd_bm bitmask follow */ #define SG_FFD_FORCE_PACKID 0 /* receive only given pack_id/tag */ @@ -225,11 +226,12 @@ struct sg_fd { /* holds the state of a file descriptor */ struct mutex f_mutex; /* serialize ioctls on this fd */ int timeout; /* defaults to SG_DEFAULT_TIMEOUT */ int timeout_user; /* defaults to SG_DEFAULT_TIMEOUT_USER */ - int prev_used_idx; /* previous used index */ + int low_used_idx; /* previous or lower used index */ + int low_await_idx; /* previous or lower await index */ u32 idx; /* my index within parent's sfp_arr */ atomic_t submitted; /* number inflight or awaiting receive */ atomic_t waiting; /* number of requests awaiting receive */ - atomic_t req_cnt; /* number of requests */ + atomic_t inactives; /* number of inactive requests */ int sgat_elem_sz; /* initialized to scatter_elem_sz */ int mmap_sz; /* byte size of previous mmap() call */ unsigned long ffd_bm[1]; /* see SG_FFD_* defines above */ @@ -889,11 +891,13 @@ sg_rq_state_fail_msg(struct sg_fd *sfp, enum sg_rq_state exp_old_st, } #endif +/* Functions ending in '_ulck' assume sfp->xa_lock held by caller. */ static void -sg_rq_state_force(struct sg_request *srp, enum sg_rq_state new_st) +sg_rq_chg_state_force_ulck(struct sg_request *srp, enum sg_rq_state new_st) { bool prev, want; - struct xarray *xafp = &srp->parentfp->srp_arr; + struct sg_fd *sfp = srp->parentfp; + struct xarray *xafp = &sfp->srp_arr; atomic_set(&srp->rq_st, new_st); want = (new_st == SG_RS_AWAIT_RCV); @@ -907,15 +911,21 @@ sg_rq_state_force(struct sg_request *srp, enum sg_rq_state new_st) want = (new_st == SG_RS_INACTIVE); prev = xa_get_mark(xafp, srp->rq_idx, SG_XA_RQ_INACTIVE); if (prev != want) { - if (want) + if (want) { + int prev_idx = READ_ONCE(sfp->low_used_idx); + + if (prev_idx < 0 || srp->rq_idx < prev_idx || + !xa_get_mark(xafp, prev_idx, SG_XA_RQ_INACTIVE)) + WRITE_ONCE(sfp->low_used_idx, srp->rq_idx); __xa_set_mark(xafp, srp->rq_idx, SG_XA_RQ_INACTIVE); - else + } else { __xa_clear_mark(xafp, srp->rq_idx, SG_XA_RQ_INACTIVE); + } } } static void -sg_rq_state_helper(struct xarray *xafp, struct sg_request *srp, int indic) +sg_rq_chg_state_help(struct xarray *xafp, struct sg_request *srp, int indic) { if (indic & 1) /* from inactive state */ __xa_clear_mark(xafp, srp->rq_idx, SG_XA_RQ_INACTIVE); @@ -944,45 +954,53 @@ static const int sg_rq_state_mul2arr[] = {2, 0, 8, 0}; * spinlock is held. */ static int -sg_rq_state_chg(struct sg_request *srp, enum sg_rq_state old_st, +sg_rq_chg_state(struct sg_request *srp, enum sg_rq_state old_st, enum sg_rq_state new_st) { enum sg_rq_state act_old_st; - int indic; - unsigned long iflags; + int indic = sg_rq_state_arr[(int)old_st] + sg_rq_state_mul2arr[(int)new_st]; struct sg_fd *sfp = srp->parentfp; - struct xarray *xafp = &sfp->srp_arr; - indic = sg_rq_state_arr[(int)old_st] + - sg_rq_state_mul2arr[(int)new_st]; - act_old_st = (enum sg_rq_state)atomic_cmpxchg(&srp->rq_st, old_st, - new_st); - if (act_old_st != old_st) { - SG_LOG(1, sfp, "%s: unexpected old state: %s\n", __func__, - sg_rq_st_str(act_old_st, false)); - return -EPROTOTYPE; /* only used for this error type */ - } if (indic) { + unsigned long iflags; + struct xarray *xafp = &sfp->srp_arr; + xa_lock_irqsave(xafp, iflags); - if (new_st == SG_RS_INACTIVE) - WRITE_ONCE(sfp->prev_used_idx, srp->rq_idx); - sg_rq_state_helper(xafp, srp, indic); + act_old_st = (enum sg_rq_state)atomic_cmpxchg_relaxed(&srp->rq_st, old_st, new_st); + if (unlikely(act_old_st != old_st)) { + xa_unlock_irqrestore(xafp, iflags); + SG_LOG(1, sfp, "%s: unexpected old state: %s\n", __func__, + sg_rq_st_str(act_old_st, false)); + return -EPROTOTYPE; /* only used for this error type */ + } + if (new_st == SG_RS_INACTIVE) { + int prev_idx = READ_ONCE(sfp->low_used_idx); + + if (prev_idx < 0 || srp->rq_idx < prev_idx || + !xa_get_mark(xafp, prev_idx, SG_XA_RQ_INACTIVE)) + WRITE_ONCE(sfp->low_used_idx, srp->rq_idx); + } + sg_rq_chg_state_help(xafp, srp, indic); xa_unlock_irqrestore(xafp, iflags); + } else { + act_old_st = (enum sg_rq_state)atomic_cmpxchg(&srp->rq_st, old_st, new_st); + if (unlikely(act_old_st != old_st)) { + SG_LOG(1, sfp, "%s: unexpected old state: %s\n", __func__, + sg_rq_st_str(act_old_st, false)); + return -EPROTOTYPE; /* only used for this error type */ + } } return 0; } static void -sg_rq_state_chg_force(struct sg_request *srp, enum sg_rq_state new_st) +sg_rq_chg_state_force(struct sg_request *srp, enum sg_rq_state new_st) { unsigned long iflags; - struct sg_fd *sfp = srp->parentfp; - struct xarray *xafp = &sfp->srp_arr; + struct xarray *xafp = &srp->parentfp->srp_arr; xa_lock_irqsave(xafp, iflags); - if (new_st == SG_RS_INACTIVE) - WRITE_ONCE(sfp->prev_used_idx, srp->rq_idx); - sg_rq_state_force(srp, new_st); + sg_rq_chg_state_force_ulck(srp, new_st); xa_unlock_irqrestore(xafp, iflags); } @@ -1007,11 +1025,13 @@ sg_execute_cmd(struct sg_fd *sfp, struct sg_request *srp) at_head = !(srp->rq_flags & SG_FLAG_Q_AT_TAIL); kref_get(&sfp->f_ref); /* sg_rq_end_io() does kref_put(). */ - sg_rq_state_chg_force(srp, SG_RS_INFLIGHT); + sg_rq_chg_state_force(srp, SG_RS_INFLIGHT); /* >>>>>>> send cmd/req off to other levels <<<<<<<< */ - if (!sync) + if (!sync) { atomic_inc(&sfp->submitted); + set_bit(SG_FRQ_COUNT_ACTIVE, srp->frq_bm); + } blk_execute_rq_nowait(sdp->device->request_queue, sdp->disk, srp->rq, (int)at_head, sg_rq_end_io); } @@ -1666,7 +1686,7 @@ sg_fill_request_element(struct sg_fd *sfp, struct sg_request *srp, static inline bool sg_rq_landed(struct sg_device *sdp, struct sg_request *srp) { - return atomic_read(&srp->rq_st) != SG_RS_INFLIGHT || + return atomic_read_acquire(&srp->rq_st) != SG_RS_INFLIGHT || unlikely(SG_IS_DETACHING(sdp)); } @@ -1682,6 +1702,8 @@ sg_wait_event_srp(struct file *filp, struct sg_fd *sfp, void __user *p, enum sg_rq_state sr_st; struct sg_device *sdp = sfp->parentdp; + if (atomic_read(&srp->rq_st) != SG_RS_INFLIGHT) + goto skip_wait; /* and skip _acquire() */ SG_LOG(3, sfp, "%s: about to wait_event...()\n", __func__); /* usually will be woken up by sg_rq_end_io() callback */ res = wait_event_interruptible(sfp->read_wait, @@ -1694,14 +1716,16 @@ sg_wait_event_srp(struct file *filp, struct sg_fd *sfp, void __user *p, __func__, res); return res; } +skip_wait: if (unlikely(SG_IS_DETACHING(sdp))) { - atomic_set(&srp->rq_st, SG_RS_INACTIVE); + sg_rq_chg_state_force(srp, SG_RS_INACTIVE); + atomic_inc(&sfp->inactives); return -ENODEV; } sr_st = atomic_read(&srp->rq_st); if (unlikely(sr_st != SG_RS_AWAIT_RCV)) return -EPROTO; /* Logic error */ - res = sg_rq_state_chg(srp, sr_st, SG_RS_BUSY); + res = sg_rq_chg_state(srp, sr_st, SG_RS_BUSY); if (unlikely(res)) { #if IS_ENABLED(SG_LOG_ACTIVE) sg_rq_state_fail_msg(sfp, sr_st, SG_RS_BUSY, __func__); @@ -1797,7 +1821,6 @@ sg_set_reserved_sz(struct sg_fd *sfp, int want_rsv_sz) n_srp = sg_mk_srp_sgat(sfp, true /* can take time */, new_sz); if (IS_ERR(n_srp)) return PTR_ERR(n_srp); - sg_rq_state_force(n_srp, SG_RS_INACTIVE); /* new sg_request object, sized correctly is now available */ try_again: o_srp = sfp->rsv_srp; @@ -1828,7 +1851,8 @@ sg_set_reserved_sz(struct sg_fd *sfp, int want_rsv_sz) cxc_srp = __xa_cmpxchg(xafp, idx, o_srp, n_srp, GFP_ATOMIC); if (o_srp == cxc_srp) { sfp->rsv_srp = n_srp; - sg_rq_state_force(n_srp, SG_RS_INACTIVE); + sg_rq_chg_state_force_ulck(n_srp, SG_RS_INACTIVE); + /* don't bump inactives, since replaced an inactive */ xa_unlock_irqrestore(xafp, iflags); SG_LOG(6, sfp, "%s: new rsv srp=0x%pK ++\n", __func__, n_srp); @@ -2006,7 +2030,10 @@ sg_ioctl_common(struct file *filp, struct sg_device *sdp, struct sg_fd *sfp, SG_LOG(3, sfp, "%s: SG_GET_PACK_ID=%d\n", __func__, val); return put_user(val, ip); case SG_GET_NUM_WAITING: - return put_user(atomic_read(&sfp->waiting), ip); + val = atomic_read(&sfp->waiting); + if (val) + return put_user(val, ip); + return put_user(atomic_read_acquire(&sfp->waiting), ip); case SG_GET_SG_TABLESIZE: SG_LOG(3, sfp, "%s: SG_GET_SG_TABLESIZE=%d\n", __func__, sdp->max_sgat_sz); @@ -2219,11 +2246,16 @@ sg_compat_ioctl(struct file *filp, unsigned int cmd_in, unsigned long arg) static __poll_t sg_poll(struct file *filp, poll_table * wait) { + int num; __poll_t p_res = 0; struct sg_fd *sfp = filp->private_data; - poll_wait(filp, &sfp->read_wait, wait); - if (atomic_read(&sfp->waiting) > 0) + num = atomic_read(&sfp->waiting); + if (num < 1) { + poll_wait(filp, &sfp->read_wait, wait); + num = atomic_read(&sfp->waiting); + } + if (num > 0) p_res = EPOLLIN | EPOLLRDNORM; if (unlikely(SG_IS_DETACHING(sfp->parentdp))) @@ -2471,32 +2503,13 @@ sg_rq_end_io(struct request *rq, blk_status_t status) struct sg_device *sdp; struct sg_fd *sfp; - if (!scsi_rp) { - WARN_ONCE("%s: scsi_req(rq) unexpectedly NULL\n", __func__); - return; - } - if (!srp) { - WARN_ONCE("%s: srp unexpectedly NULL\n", __func__); - return; - } /* Expect 0 --> 1 transition, otherwise processed elsewhere */ if (unlikely(test_and_set_bit(SG_FRQ_BLK_PUT_REQ, srp->frq_bm))) { pr_info("%s: srp=%pK already completed\n", __func__, srp); return; } - if (WARN_ON(atomic_read(&srp->rq_st) != SG_RS_INFLIGHT)) { - pr_warn("%s: bad rq_st=%d\n", __func__, - atomic_read(&srp->rq_st)); - goto early_err; - } sfp = srp->parentfp; - if (unlikely(!sfp)) { - WARN_ONCE(1, "%s: sfp unexpectedly NULL", __func__); - goto early_err; - } sdp = sfp->parentdp; - if (unlikely(SG_IS_DETACHING(sdp))) - pr_info("%s: device detaching\n", __func__); srp->rq_result = scsi_rp->result; slen = min_t(int, scsi_rp->sense_len, SCSI_SENSE_BUFFERSIZE); @@ -2549,10 +2562,20 @@ sg_rq_end_io(struct request *rq, blk_status_t status) set_bit(SG_FRQ_DEACT_ORPHAN, srp->frq_bm); } } - if (!test_bit(SG_FRQ_SYNC_INVOC, srp->frq_bm)) - atomic_inc(&sfp->waiting); - if (unlikely(sg_rq_state_chg(srp, SG_RS_INFLIGHT, rqq_state))) - pr_warn("%s: can't set rq_st\n", __func__); + if (test_bit(SG_FRQ_COUNT_ACTIVE, srp->frq_bm)) { + int num = atomic_inc_return(&sfp->waiting); + + if (num < 2) { + WRITE_ONCE(sfp->low_await_idx, srp->rq_idx); + } else { + int l_await_idx = READ_ONCE(sfp->low_await_idx); + + if (l_await_idx < 0 || srp->rq_idx < l_await_idx || + !xa_get_mark(&sfp->srp_arr, l_await_idx, SG_XA_RQ_AWAIT)) + WRITE_ONCE(sfp->low_await_idx, srp->rq_idx); + } + } + sg_rq_chg_state_force(srp, rqq_state); /* * Free the mid-level resources apart from the bio (if any). The bio's * blk_rq_unmap_user() can be called later from user context. @@ -2571,12 +2594,6 @@ sg_rq_end_io(struct request *rq, blk_status_t status) schedule_work(&srp->ew_orph.work); } return; - -early_err: - srp->rq = NULL; - if (scsi_rp) - scsi_req_free_cmd(scsi_rp); - blk_put_request(rq); } static const struct file_operations sg_fops = { @@ -3065,7 +3082,7 @@ sg_finish_scsi_blk_rq(struct sg_request *srp) SG_LOG(4, sfp, "%s: srp=0x%pK%s\n", __func__, srp, (srp->parentfp->rsv_srp == srp) ? " rsv" : ""); - if (!test_bit(SG_FRQ_SYNC_INVOC, srp->frq_bm)) { + if (test_and_clear_bit(SG_FRQ_COUNT_ACTIVE, srp->frq_bm)) { atomic_dec(&sfp->submitted); atomic_dec(&sfp->waiting); } @@ -3261,19 +3278,28 @@ sg_find_srp_by_id(struct sg_fd *sfp, int pack_id) bool second = false; int res; int num_waiting = atomic_read(&sfp->waiting); - unsigned long idx, start_idx, end_idx; + int l_await_idx = READ_ONCE(sfp->low_await_idx); + unsigned long idx, s_idx; + unsigned long end_idx = ULONG_MAX; struct sg_request *srp = NULL; struct xarray *xafp = &sfp->srp_arr; - if (num_waiting < 1) - return NULL; + if (num_waiting < 1) { + num_waiting = atomic_read_acquire(&sfp->waiting); + if (num_waiting < 1) + return NULL; + } + + s_idx = (l_await_idx < 0) ? 0 : l_await_idx; + idx = s_idx; if (unlikely(search_for_1)) { - xa_for_each_marked(xafp, idx, srp, SG_XA_RQ_AWAIT) { - if (!srp) - continue; +second_time: + for (srp = xa_find(xafp, &idx, end_idx, SG_XA_RQ_AWAIT); + srp; + srp = xa_find_after(xafp, &idx, end_idx, SG_XA_RQ_AWAIT)) { if (srp->pack_id != pack_id) continue; - res = sg_rq_state_chg(srp, SG_RS_AWAIT_RCV, SG_RS_BUSY); + res = sg_rq_chg_state(srp, SG_RS_AWAIT_RCV, SG_RS_BUSY); if (likely(res == 0)) goto good; /* else another caller got it, move on */ @@ -3283,6 +3309,14 @@ sg_find_srp_by_id(struct sg_fd *sfp, int pack_id) } break; } + /* If not found so far, need to wrap around and search [0 ... s_idx) */ + if (!srp && !second && s_idx > 0) { + end_idx = s_idx - 1; + s_idx = 0; + idx = s_idx; + second = true; + goto second_time; + } } else { /* * Searching for _any_ request is the more likely usage. Start searching with the @@ -3291,27 +3325,25 @@ sg_find_srp_by_id(struct sg_fd *sfp, int pack_id) * is ready. If there is no queuing and the "last used" has been re-used then the * first (relative) position will be the request we want. */ - start_idx = READ_ONCE(sfp->prev_used_idx); - end_idx = ULONG_MAX; -second_time: - idx = start_idx; +second_time2: for (srp = xa_find(xafp, &idx, end_idx, SG_XA_RQ_AWAIT); srp; srp = xa_find_after(xafp, &idx, end_idx, SG_XA_RQ_AWAIT)) { - res = sg_rq_state_chg(srp, SG_RS_AWAIT_RCV, SG_RS_BUSY); - if (likely(res == 0)) + res = sg_rq_chg_state(srp, SG_RS_AWAIT_RCV, SG_RS_BUSY); + if (likely(res == 0)) { + WRITE_ONCE(sfp->low_await_idx, idx + 1); goto good; + } #if IS_ENABLED(SG_LOG_ACTIVE) - else - sg_rq_state_fail_msg(sfp, SG_RS_AWAIT_RCV, SG_RS_BUSY, __func__); + sg_rq_state_fail_msg(sfp, SG_RS_AWAIT_RCV, SG_RS_BUSY, __func__); #endif } - /* If not found so far, need to wrap around and search [0 ... start_idx) */ - if (!srp && !second && start_idx > 0) { - end_idx = start_idx - 1; - start_idx = 0; + if (!srp && !second && s_idx > 0) { + end_idx = s_idx - 1; + s_idx = 0; + idx = s_idx; second = true; - goto second_time; + goto second_time2; } } /* here if one of above loops does _not_ find a match */ @@ -3430,11 +3462,12 @@ sg_setup_req(struct sg_comm_wr_t *cwrp, int dxfr_len) bool mk_new_srp = true; bool try_harder = false; bool second = false; - int num_inactive = 0; - unsigned long idx, start_idx, end_idx, iflags; + bool has_inactive = false; + int l_used_idx; + unsigned long idx, s_idx, end_idx, iflags; struct sg_fd *fp = cwrp->sfp; struct sg_request *r_srp = NULL; /* request to return */ - struct sg_request *last_srp = NULL; + struct sg_request *low_srp = NULL; struct xarray *xafp = &fp->srp_arr; __maybe_unused const char *cp; @@ -3443,49 +3476,70 @@ sg_setup_req(struct sg_comm_wr_t *cwrp, int dxfr_len) if (xa_empty(xafp)) { act_empty = true; mk_new_srp = true; + } else if (atomic_read(&fp->inactives) <= 0) { + mk_new_srp = true; } else if (!try_harder && dxfr_len < SG_DEF_SECTOR_SZ) { + l_used_idx = READ_ONCE(fp->low_used_idx); + s_idx = (l_used_idx < 0) ? 0 : l_used_idx; + if (l_used_idx >= 0 && xa_get_mark(xafp, s_idx, SG_XA_RQ_INACTIVE)) { + r_srp = xa_load(xafp, s_idx); + if (r_srp && r_srp->sgat_h.buflen <= SG_DEF_SECTOR_SZ) { + if (sg_rq_chg_state(r_srp, SG_RS_INACTIVE, SG_RS_BUSY) == 0) { + found = true; + atomic_dec(&fp->inactives); + goto have_existing; + } + } + } xa_for_each_marked(xafp, idx, r_srp, SG_XA_RQ_INACTIVE) { - ++num_inactive; - if (dxfr_len < SG_DEF_SECTOR_SZ) - last_srp = r_srp; + has_inactive = true; + if (!low_srp && dxfr_len < SG_DEF_SECTOR_SZ) { + low_srp = r_srp; + break; + } } - /* If dxfr_len is small, use last inactive request */ - if (last_srp) { - r_srp = last_srp; - if (sg_rq_state_chg(r_srp, SG_RS_INACTIVE, SG_RS_BUSY)) + /* If dxfr_len is small, use lowest inactive request */ + if (low_srp) { + r_srp = low_srp; + if (sg_rq_chg_state(r_srp, SG_RS_INACTIVE, SG_RS_BUSY)) goto start_again; /* gone to another thread */ + atomic_dec(&fp->inactives); cp = "toward end of srp_arr"; found = true; } } else { - start_idx = READ_ONCE(fp->prev_used_idx); + l_used_idx = READ_ONCE(fp->low_used_idx); + s_idx = (l_used_idx < 0) ? 0 : l_used_idx; + idx = s_idx; end_idx = ULONG_MAX; second_time: - idx = start_idx; for (r_srp = xa_find(xafp, &idx, end_idx, SG_XA_RQ_INACTIVE); r_srp; r_srp = xa_find_after(xafp, &idx, end_idx, SG_XA_RQ_INACTIVE)) { if (r_srp->sgat_h.buflen >= dxfr_len) { - if (sg_rq_state_chg(r_srp, SG_RS_INACTIVE, SG_RS_BUSY)) + if (sg_rq_chg_state(r_srp, SG_RS_INACTIVE, SG_RS_BUSY)) continue; + atomic_dec(&fp->inactives); + WRITE_ONCE(fp->low_used_idx, idx + 1); cp = "near front of srp_arr"; found = true; break; } } /* If not found so far, need to wrap around and search [0 ... start_idx) */ - if (!r_srp && !second && start_idx > 0) { - end_idx = start_idx - 1; - start_idx = 0; + if (!r_srp && !second && s_idx > 0) { + end_idx = s_idx - 1; + s_idx = 0; + idx = s_idx; second = true; goto second_time; } } +have_existing: if (found) { r_srp->in_resid = 0; r_srp->rq_info = 0; r_srp->sense_len = 0; - WRITE_ONCE(fp->prev_used_idx, r_srp->rq_idx); mk_new_srp = false; } else { mk_new_srp = true; @@ -3494,7 +3548,6 @@ sg_setup_req(struct sg_comm_wr_t *cwrp, int dxfr_len) bool allow_cmd_q = test_bit(SG_FFD_CMD_Q, fp->ffd_bm); int res; u32 n_idx; - struct xa_limit xal = { .max = 0, .min = 0 }; cp = "new"; if (!allow_cmd_q && atomic_read(&fp->submitted) > 0) { @@ -3506,16 +3559,14 @@ sg_setup_req(struct sg_comm_wr_t *cwrp, int dxfr_len) r_srp = sg_mk_srp_sgat(fp, act_empty, dxfr_len); if (IS_ERR(r_srp)) { if (!try_harder && dxfr_len < SG_DEF_SECTOR_SZ && - num_inactive > 0) { + has_inactive) { try_harder = true; goto start_again; } goto fini; } - atomic_set(&r_srp->rq_st, SG_RS_BUSY); xa_lock_irqsave(xafp, iflags); - xal.max = atomic_inc_return(&fp->req_cnt); - res = __xa_alloc(xafp, &n_idx, r_srp, xal, GFP_KERNEL); + res = __xa_alloc(xafp, &n_idx, r_srp, xa_limit_32b, GFP_KERNEL); xa_unlock_irqrestore(xafp, iflags); if (res < 0) { SG_LOG(1, fp, "%s: xa_alloc() failed, errno=%d\n", @@ -3558,7 +3609,8 @@ sg_deact_request(struct sg_fd *sfp, struct sg_request *srp) sbp = srp->sense_bp; srp->sense_bp = NULL; WRITE_ONCE(srp->frq_bm[0], 0); - sg_rq_state_chg_force(srp, SG_RS_INACTIVE); + sg_rq_chg_state_force(srp, SG_RS_INACTIVE); + atomic_inc(&sfp->inactives); /* maybe orphaned req, thus never read */ if (sbp) mempool_free(sbp, sg_sense_pool); @@ -3577,7 +3629,6 @@ sg_add_sfp(struct sg_device *sdp) struct sg_request *srp = NULL; struct xarray *xadp = &sdp->sfp_arr; struct xarray *xafp; - struct xa_limit xal; sfp = kzalloc(sizeof(*sfp), GFP_ATOMIC | __GFP_NOWARN); if (!sfp) @@ -3594,8 +3645,6 @@ sg_add_sfp(struct sg_device *sdp) __assign_bit(SG_FFD_CMD_Q, sfp->ffd_bm, SG_DEF_COMMAND_Q); __assign_bit(SG_FFD_KEEP_ORPHAN, sfp->ffd_bm, SG_DEF_KEEP_ORPHAN); __assign_bit(SG_FFD_Q_AT_TAIL, sfp->ffd_bm, SG_DEFAULT_Q_AT); - atomic_set(&sfp->submitted, 0); - atomic_set(&sfp->waiting, 0); /* * SG_SCATTER_SZ initializes scatter_elem_sz but different value may * be given as driver/module parameter (e.g. 'scatter_elem_sz=8192'). @@ -3607,7 +3656,7 @@ sg_add_sfp(struct sg_device *sdp) sfp->parentdp = sdp; atomic_set(&sfp->submitted, 0); atomic_set(&sfp->waiting, 0); - atomic_set(&sfp->req_cnt, 0); + atomic_set(&sfp->inactives, 0); if (unlikely(SG_IS_DETACHING(sdp))) { SG_LOG(1, sfp, "%s: detaching\n", __func__); @@ -3619,8 +3668,6 @@ sg_add_sfp(struct sg_device *sdp) rbuf_len = min_t(int, sg_big_buff, sdp->max_sgat_sz); if (rbuf_len > 0) { - struct xa_limit xalrq = { .max = 0, .min = 0 }; - srp = sg_build_reserve(sfp, rbuf_len); if (IS_ERR(srp)) { kfree(sfp); @@ -3636,8 +3683,7 @@ sg_add_sfp(struct sg_device *sdp) __func__, rbuf_len, srp->sgat_h.buflen); } xa_lock_irqsave(xafp, iflags); - xalrq.max = atomic_inc_return(&sfp->req_cnt); - res = __xa_alloc(xafp, &idx, srp, xalrq, GFP_ATOMIC); + res = __xa_alloc(xafp, &idx, srp, xa_limit_32b, GFP_ATOMIC); xa_unlock_irqrestore(xafp, iflags); if (res < 0) { SG_LOG(1, sfp, "%s: xa_alloc(srp) bad, errno=%d\n", @@ -3649,20 +3695,19 @@ sg_add_sfp(struct sg_device *sdp) } srp->rq_idx = idx; srp->parentfp = sfp; - sg_rq_state_chg_force(srp, SG_RS_INACTIVE); + sg_rq_chg_state_force(srp, SG_RS_INACTIVE); + atomic_inc(&sfp->inactives); } if (!reduced) { SG_LOG(4, sfp, "%s: built reserve buflen=%d\n", __func__, rbuf_len); } xa_lock_irqsave(xadp, iflags); - xal.min = 0; - xal.max = atomic_read(&sdp->open_cnt); - res = __xa_alloc(xadp, &idx, sfp, xal, GFP_KERNEL); + res = __xa_alloc(xadp, &idx, sfp, xa_limit_32b, GFP_KERNEL); xa_unlock_irqrestore(xadp, iflags); if (res < 0) { pr_warn("%s: xa_alloc(sdp) bad, o_count=%d, errno=%d\n", - __func__, xal.max, -res); + __func__, atomic_read(&sdp->open_cnt), -res); if (srp) { sg_remove_sgat(srp); kfree(srp); @@ -4076,12 +4121,13 @@ sg_proc_debug_fd(struct sg_fd *fp, char *obp, int len, unsigned long idx) (int)test_bit(SG_FFD_FORCE_PACKID, fp->ffd_bm), (int)test_bit(SG_FFD_KEEP_ORPHAN, fp->ffd_bm), fp->ffd_bm[0]); - n += scnprintf(obp + n, len - n, " mmap_sz=%d prev_used_idx=%d\n", - fp->mmap_sz, fp->prev_used_idx); n += scnprintf(obp + n, len - n, - " submitted=%d waiting=%d open thr_id=%d\n", + " mmap_sz=%d low_used_idx=%d low_await_idx=%d\n", + fp->mmap_sz, READ_ONCE(fp->low_used_idx), READ_ONCE(fp->low_await_idx)); + n += scnprintf(obp + n, len - n, + " submitted=%d waiting=%d inactives=%d open thr_id=%d\n", atomic_read(&fp->submitted), - atomic_read(&fp->waiting), fp->tid); + atomic_read(&fp->waiting), atomic_read(&fp->inactives), fp->tid); k = 0; xa_lock_irqsave(&fp->srp_arr, iflags); xa_for_each(&fp->srp_arr, idx, srp) {