X-Git-Url: https://git.whamcloud.com/?p=fs%2Flustre-release.git;a=blobdiff_plain;f=lustre%2Flov%2Flov_lock.c;h=60af105cba5d7c3bfa3646c319e13516af2b6d30;hp=907baae07668e639363cd3f412a3b46ba22cb445;hb=16b86fe65d285de93c3331e0c9afd5f0fb608e84;hpb=24cb5819c38c16656eb4f4d20a6e73bf918eca01 diff --git a/lustre/lov/lov_lock.c b/lustre/lov/lov_lock.c index 907baae..60af105 100644 --- a/lustre/lov/lov_lock.c +++ b/lustre/lov/lov_lock.c @@ -27,7 +27,7 @@ * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. * Use is subject to license terms. * - * Copyright (c) 2011, 2012, Whamcloud, Inc. + * Copyright (c) 2011, 2014, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ @@ -46,11 +46,6 @@ * @{ */ -static struct cl_lock_closure *lov_closure_get(const struct lu_env *env, - struct cl_lock *parent); - -static int lov_lock_unuse(const struct lu_env *env, - const struct cl_lock_slice *slice); /***************************************************************************** * * Lov lock operations. @@ -58,7 +53,7 @@ static int lov_lock_unuse(const struct lu_env *env, */ static struct lov_sublock_env *lov_sublock_env_get(const struct lu_env *env, - struct cl_lock *parent, + const struct cl_lock *parent, struct lov_lock_sub *lls) { struct lov_sublock_env *subenv; @@ -100,188 +95,24 @@ static void lov_sublock_env_put(struct lov_sublock_env *subenv) lov_sub_put(subenv->lse_sub); } -static void lov_sublock_adopt(const struct lu_env *env, struct lov_lock *lck, - struct cl_lock *sublock, int idx, - struct lov_lock_link *link) -{ - struct lovsub_lock *lsl; - struct cl_lock *parent = lck->lls_cl.cls_lock; - int rc; - - LASSERT(cl_lock_is_mutexed(parent)); - LASSERT(cl_lock_is_mutexed(sublock)); - ENTRY; - - lsl = cl2sub_lock(sublock); - /* - * check that sub-lock doesn't have lock link to this top-lock. - */ - LASSERT(lov_lock_link_find(env, lck, lsl) == NULL); - LASSERT(idx < lck->lls_nr); - - lck->lls_sub[idx].sub_lock = lsl; - lck->lls_nr_filled++; - LASSERT(lck->lls_nr_filled <= lck->lls_nr); - cfs_list_add_tail(&link->lll_list, &lsl->lss_parents); - link->lll_idx = idx; - link->lll_super = lck; - cl_lock_get(parent); - lu_ref_add(&parent->cll_reference, "lov-child", sublock); - lck->lls_sub[idx].sub_flags |= LSF_HELD; - cl_lock_user_add(env, sublock); - - rc = lov_sublock_modify(env, lck, lsl, &sublock->cll_descr, idx); - LASSERT(rc == 0); /* there is no way this can fail, currently */ - EXIT; -} - -static struct cl_lock *lov_sublock_alloc(const struct lu_env *env, - const struct cl_io *io, - struct lov_lock *lck, - int idx, struct lov_lock_link **out) -{ - struct cl_lock *sublock; - struct cl_lock *parent; - struct lov_lock_link *link; - - LASSERT(idx < lck->lls_nr); - ENTRY; - - OBD_SLAB_ALLOC_PTR_GFP(link, lov_lock_link_kmem, CFS_ALLOC_IO); - if (link != NULL) { - struct lov_sublock_env *subenv; - struct lov_lock_sub *lls; - struct cl_lock_descr *descr; - - parent = lck->lls_cl.cls_lock; - lls = &lck->lls_sub[idx]; - descr = &lls->sub_descr; - - subenv = lov_sublock_env_get(env, parent, lls); - if (!IS_ERR(subenv)) { - /* CAVEAT: Don't try to add a field in lov_lock_sub - * to remember the subio. This is because lock is able - * to be cached, but this is not true for IO. This - * further means a sublock might be referenced in - * different io context. -jay */ - - sublock = cl_lock_hold(subenv->lse_env, subenv->lse_io, - descr, "lov-parent", parent); - lov_sublock_env_put(subenv); - } else { - /* error occurs. */ - sublock = (void*)subenv; - } - - if (!IS_ERR(sublock)) - *out = link; - else - OBD_SLAB_FREE_PTR(link, lov_lock_link_kmem); - } else - sublock = ERR_PTR(-ENOMEM); - RETURN(sublock); -} - -static void lov_sublock_unlock(const struct lu_env *env, - struct lovsub_lock *lsl, - struct cl_lock_closure *closure, - struct lov_sublock_env *subenv) -{ - ENTRY; - lov_sublock_env_put(subenv); - lsl->lss_active = NULL; - cl_lock_disclosure(env, closure); - EXIT; -} - -static int lov_sublock_lock(const struct lu_env *env, - struct lov_lock *lck, - struct lov_lock_sub *lls, - struct cl_lock_closure *closure, - struct lov_sublock_env **lsep) -{ - struct lovsub_lock *sublock; - struct cl_lock *child; - int result = 0; - ENTRY; - - LASSERT(cfs_list_empty(&closure->clc_list)); - - sublock = lls->sub_lock; - child = sublock->lss_cl.cls_lock; - result = cl_lock_closure_build(env, child, closure); - if (result == 0) { - struct cl_lock *parent = closure->clc_origin; - - LASSERT(cl_lock_is_mutexed(child)); - sublock->lss_active = parent; - - if (unlikely((child->cll_state == CLS_FREEING) || - (child->cll_flags & CLF_CANCELLED))) { - struct lov_lock_link *link; - /* - * we could race with lock deletion which temporarily - * put the lock in freeing state, bug 19080. - */ - LASSERT(!(lls->sub_flags & LSF_HELD)); - - link = lov_lock_link_find(env, lck, sublock); - LASSERT(link != NULL); - lov_lock_unlink(env, link, sublock); - lov_sublock_unlock(env, sublock, closure, NULL); - lck->lls_cancel_race = 1; - result = CLO_REPEAT; - } else if (lsep) { - struct lov_sublock_env *subenv; - subenv = lov_sublock_env_get(env, parent, lls); - if (IS_ERR(subenv)) { - lov_sublock_unlock(env, sublock, - closure, NULL); - result = PTR_ERR(subenv); - } else { - *lsep = subenv; - } - } - } - RETURN(result); -} - -/** - * Updates the result of a top-lock operation from a result of sub-lock - * sub-operations. Top-operations like lov_lock_{enqueue,use,unuse}() iterate - * over sub-locks and lov_subresult() is used to calculate return value of a - * top-operation. To this end, possible return values of sub-operations are - * ordered as - * - * - 0 success - * - CLO_WAIT wait for event - * - CLO_REPEAT repeat top-operation - * - -ne fundamental error - * - * Top-level return code can only go down through this list. CLO_REPEAT - * overwrites CLO_WAIT, because lock mutex was released and sleeping condition - * has to be rechecked by the upper layer. - */ -static int lov_subresult(int result, int rc) +static int lov_sublock_init(const struct lu_env *env, + const struct cl_lock *parent, + struct lov_lock_sub *lls) { - int result_rank; - int rc_rank; - - ENTRY; - - LASSERTF(result <= 0 || result == CLO_REPEAT || result == CLO_WAIT, - "result = %d", result); - LASSERTF(rc <= 0 || rc == CLO_REPEAT || rc == CLO_WAIT, - "rc = %d\n", rc); - CLASSERT(CLO_WAIT < CLO_REPEAT); - - /* calculate ranks in the ordering above */ - result_rank = result < 0 ? 1 + CLO_REPEAT : result; - rc_rank = rc < 0 ? 1 + CLO_REPEAT : rc; - - if (result_rank < rc_rank) - result = rc; - RETURN(result); + struct lov_sublock_env *subenv; + int result; + ENTRY; + + subenv = lov_sublock_env_get(env, parent, lls); + if (!IS_ERR(subenv)) { + result = cl_lock_init(subenv->lse_env, &lls->sub_lock, + subenv->lse_io); + lov_sublock_env_put(subenv); + } else { + /* error occurs. */ + result = PTR_ERR(subenv); + } + RETURN(result); } /** @@ -292,294 +123,111 @@ static int lov_subresult(int result, int rc) * fact that top-lock (that is being created) can be accessed concurrently * through already created sub-locks (possibly shared with other top-locks). */ -static int lov_lock_sub_init(const struct lu_env *env, - struct lov_lock *lck, const struct cl_io *io) +static struct lov_lock *lov_lock_sub_init(const struct lu_env *env, + const struct cl_object *obj, + struct cl_lock *lock) { - int result = 0; - int i; - int nr; - obd_off start; - obd_off end; - obd_off file_start; - obd_off file_end; + int result = 0; + int i; + int nr; + loff_t start; + loff_t end; + loff_t file_start; + loff_t file_end; + + struct lov_object *loo = cl2lov(obj); + struct lov_layout_raid0 *r0 = lov_r0(loo); + struct lov_lock *lovlck; - struct lov_object *loo = cl2lov(lck->lls_cl.cls_obj); - struct lov_layout_raid0 *r0 = lov_r0(loo); - struct cl_lock *parent = lck->lls_cl.cls_lock; + ENTRY; - ENTRY; + CDEBUG(D_INODE, "%p: lock/io FID "DFID"/"DFID", lock/io clobj %p/%p\n", + loo, PFID(lu_object_fid(lov2lu(loo))), + PFID(lu_object_fid(&obj->co_lu)), + lov2cl(loo), obj); - lck->lls_orig = parent->cll_descr; - file_start = cl_offset(lov2cl(loo), parent->cll_descr.cld_start); - file_end = cl_offset(lov2cl(loo), parent->cll_descr.cld_end + 1) - 1; + file_start = cl_offset(lov2cl(loo), lock->cll_descr.cld_start); + file_end = cl_offset(lov2cl(loo), lock->cll_descr.cld_end + 1) - 1; for (i = 0, nr = 0; i < r0->lo_nr; i++) { /* * XXX for wide striping smarter algorithm is desirable, * breaking out of the loop, early. */ - if (lov_stripe_intersects(loo->lo_lsm, i, - file_start, file_end, &start, &end)) - nr++; - } - LASSERT(nr > 0); - OBD_ALLOC_LARGE(lck->lls_sub, nr * sizeof lck->lls_sub[0]); - if (lck->lls_sub == NULL) - RETURN(-ENOMEM); - - lck->lls_nr = nr; - /* - * First, fill in sub-lock descriptions in - * lck->lls_sub[].sub_descr. They are used by lov_sublock_alloc() - * (called below in this function, and by lov_lock_enqueue()) to - * create sub-locks. At this moment, no other thread can access - * top-lock. - */ - for (i = 0, nr = 0; i < r0->lo_nr; ++i) { - if (lov_stripe_intersects(loo->lo_lsm, i, - file_start, file_end, &start, &end)) { - struct cl_lock_descr *descr; - - descr = &lck->lls_sub[nr].sub_descr; - - LASSERT(descr->cld_obj == NULL); - descr->cld_obj = lovsub2cl(r0->lo_sub[i]); - descr->cld_start = cl_index(descr->cld_obj, start); - descr->cld_end = cl_index(descr->cld_obj, end); - descr->cld_mode = parent->cll_descr.cld_mode; - descr->cld_gid = parent->cll_descr.cld_gid; - descr->cld_enq_flags = parent->cll_descr.cld_enq_flags; - /* XXX has no effect */ - lck->lls_sub[nr].sub_got = *descr; - lck->lls_sub[nr].sub_stripe = i; - nr++; - } - } - LASSERT(nr == lck->lls_nr); - /* - * Then, create sub-locks. Once at least one sub-lock was created, - * top-lock can be reached by other threads. - */ - for (i = 0; i < lck->lls_nr; ++i) { - struct cl_lock *sublock; - struct lov_lock_link *link; - - if (lck->lls_sub[i].sub_lock == NULL) { - sublock = lov_sublock_alloc(env, io, lck, i, &link); - if (IS_ERR(sublock)) { - result = PTR_ERR(sublock); - break; - } - cl_lock_get_trust(sublock); - cl_lock_mutex_get(env, sublock); - cl_lock_mutex_get(env, parent); - /* - * recheck under mutex that sub-lock wasn't created - * concurrently, and that top-lock is still alive. - */ - if (lck->lls_sub[i].sub_lock == NULL && - parent->cll_state < CLS_FREEING) { - lov_sublock_adopt(env, lck, sublock, i, link); - cl_lock_mutex_put(env, parent); - } else { - OBD_SLAB_FREE_PTR(link, lov_lock_link_kmem); - cl_lock_mutex_put(env, parent); - cl_lock_unhold(env, sublock, - "lov-parent", parent); - } - cl_lock_mutex_put(env, sublock); - cl_lock_put(env, sublock); - } - } - /* - * Some sub-locks can be missing at this point. This is not a problem, - * because enqueue will create them anyway. Main duty of this function - * is to fill in sub-lock descriptions in a race free manner. - */ - RETURN(result); -} - -static int lov_sublock_release(const struct lu_env *env, struct lov_lock *lck, - int i, int deluser, int rc) -{ - struct cl_lock *parent = lck->lls_cl.cls_lock; - - LASSERT(cl_lock_is_mutexed(parent)); - ENTRY; - - if (lck->lls_sub[i].sub_flags & LSF_HELD) { - struct cl_lock *sublock; - int dying; - - LASSERT(lck->lls_sub[i].sub_lock != NULL); - sublock = lck->lls_sub[i].sub_lock->lss_cl.cls_lock; - LASSERT(cl_lock_is_mutexed(sublock)); - - lck->lls_sub[i].sub_flags &= ~LSF_HELD; - if (deluser) - cl_lock_user_del(env, sublock); - /* - * If the last hold is released, and cancellation is pending - * for a sub-lock, release parent mutex, to avoid keeping it - * while sub-lock is being paged out. - */ - dying = (sublock->cll_descr.cld_mode == CLM_PHANTOM || - sublock->cll_descr.cld_mode == CLM_GROUP || - (sublock->cll_flags & (CLF_CANCELPEND|CLF_DOOMED))) && - sublock->cll_holds == 1; - if (dying) - cl_lock_mutex_put(env, parent); - cl_lock_unhold(env, sublock, "lov-parent", parent); - if (dying) { - cl_lock_mutex_get(env, parent); - rc = lov_subresult(rc, CLO_REPEAT); - } - /* - * From now on lck->lls_sub[i].sub_lock is a "weak" pointer, - * not backed by a reference on a - * sub-lock. lovsub_lock_delete() will clear - * lck->lls_sub[i].sub_lock under semaphores, just before - * sub-lock is destroyed. - */ - } - RETURN(rc); -} - -static void lov_sublock_hold(const struct lu_env *env, struct lov_lock *lck, - int i) -{ - struct cl_lock *parent = lck->lls_cl.cls_lock; - - LASSERT(cl_lock_is_mutexed(parent)); - ENTRY; + if (likely(r0->lo_sub[i] != NULL) && /* spare layout */ + lov_stripe_intersects(loo->lo_lsm, i, + file_start, file_end, &start, &end)) + nr++; + } + LASSERT(nr > 0); + + OBD_ALLOC_LARGE(lovlck, offsetof(struct lov_lock, lls_sub[nr])); + if (lovlck == NULL) + RETURN(ERR_PTR(-ENOMEM)); + + lovlck->lls_nr = nr; + for (i = 0, nr = 0; i < r0->lo_nr; ++i) { + if (likely(r0->lo_sub[i] != NULL) && + lov_stripe_intersects(loo->lo_lsm, i, + file_start, file_end, &start, &end)) { + struct lov_lock_sub *lls = &lovlck->lls_sub[nr]; + struct cl_lock_descr *descr; + + descr = &lls->sub_lock.cll_descr; + + LASSERT(descr->cld_obj == NULL); + descr->cld_obj = lovsub2cl(r0->lo_sub[i]); + descr->cld_start = cl_index(descr->cld_obj, start); + descr->cld_end = cl_index(descr->cld_obj, end); + descr->cld_mode = lock->cll_descr.cld_mode; + descr->cld_gid = lock->cll_descr.cld_gid; + descr->cld_enq_flags = lock->cll_descr.cld_enq_flags; + + lls->sub_stripe = i; + + /* initialize sub lock */ + result = lov_sublock_init(env, lock, lls); + if (result < 0) + break; + + lls->sub_initialized = 1; + nr++; + } + } + LASSERT(ergo(result == 0, nr == lovlck->lls_nr)); - if (!(lck->lls_sub[i].sub_flags & LSF_HELD)) { - struct cl_lock *sublock; + if (result != 0) { + for (i = 0; i < nr; ++i) { + if (!lovlck->lls_sub[i].sub_initialized) + break; - LASSERT(lck->lls_sub[i].sub_lock != NULL); - sublock = lck->lls_sub[i].sub_lock->lss_cl.cls_lock; - LASSERT(cl_lock_is_mutexed(sublock)); - LASSERT(sublock->cll_state != CLS_FREEING); + cl_lock_fini(env, &lovlck->lls_sub[i].sub_lock); + } - lck->lls_sub[i].sub_flags |= LSF_HELD; + OBD_FREE_LARGE(lovlck, + offsetof(struct lov_lock, lls_sub[nr])); + lovlck = ERR_PTR(result); + } - cl_lock_get_trust(sublock); - cl_lock_hold_add(env, sublock, "lov-parent", parent); - cl_lock_user_add(env, sublock); - cl_lock_put(env, sublock); - } - EXIT; + RETURN(lovlck); } static void lov_lock_fini(const struct lu_env *env, struct cl_lock_slice *slice) { - struct lov_lock *lck; - int i; - - ENTRY; - lck = cl2lov_lock(slice); - LASSERT(lck->lls_nr_filled == 0); - if (lck->lls_sub != NULL) { - for (i = 0; i < lck->lls_nr; ++i) - /* - * No sub-locks exists at this point, as sub-lock has - * a reference on its parent. - */ - LASSERT(lck->lls_sub[i].sub_lock == NULL); - OBD_FREE_LARGE(lck->lls_sub, - lck->lls_nr * sizeof lck->lls_sub[0]); - } - OBD_SLAB_FREE_PTR(lck, lov_lock_kmem); - EXIT; -} - -static int lov_lock_enqueue_wait(const struct lu_env *env, - struct lov_lock *lck, - struct cl_lock *sublock) -{ - struct cl_lock *lock = lck->lls_cl.cls_lock; - int result; - ENTRY; - - LASSERT(cl_lock_is_mutexed(lock)); - - cl_lock_mutex_put(env, lock); - result = cl_lock_enqueue_wait(env, sublock, 0); - cl_lock_mutex_get(env, lock); - RETURN(result ?: CLO_REPEAT); -} - -/** - * Tries to advance a state machine of a given sub-lock toward enqueuing of - * the top-lock. - * - * \retval 0 if state-transition can proceed - * \retval -ve otherwise. - */ -static int lov_lock_enqueue_one(const struct lu_env *env, struct lov_lock *lck, - struct cl_lock *sublock, - struct cl_io *io, __u32 enqflags, int last) -{ - int result; - ENTRY; - - /* first, try to enqueue a sub-lock ... */ - result = cl_enqueue_try(env, sublock, io, enqflags); - if ((sublock->cll_state == CLS_ENQUEUED) && !(enqflags & CEF_AGL)) { - /* if it is enqueued, try to `wait' on it---maybe it's already - * granted */ - result = cl_wait_try(env, sublock); - if (result == CLO_REENQUEUED) - result = CLO_WAIT; + struct lov_lock *lovlck; + int i; + + ENTRY; + lovlck = cl2lov_lock(slice); + for (i = 0; i < lovlck->lls_nr; ++i) { + LASSERT(!lovlck->lls_sub[i].sub_is_enqueued); + if (lovlck->lls_sub[i].sub_initialized) + cl_lock_fini(env, &lovlck->lls_sub[i].sub_lock); } - /* - * If CEF_ASYNC flag is set, then all sub-locks can be enqueued in - * parallel, otherwise---enqueue has to wait until sub-lock is granted - * before proceeding to the next one. - */ - if ((result == CLO_WAIT) && (sublock->cll_state <= CLS_HELD) && - (enqflags & CEF_ASYNC) && (!last || (enqflags & CEF_AGL))) - result = 0; - RETURN(result); -} - -/** - * Helper function for lov_lock_enqueue() that creates missing sub-lock. - */ -static int lov_sublock_fill(const struct lu_env *env, struct cl_lock *parent, - struct cl_io *io, struct lov_lock *lck, int idx) -{ - struct lov_lock_link *link; - struct cl_lock *sublock; - int result; - - LASSERT(parent->cll_depth == 1); - cl_lock_mutex_put(env, parent); - sublock = lov_sublock_alloc(env, io, lck, idx, &link); - if (!IS_ERR(sublock)) - cl_lock_mutex_get(env, sublock); - cl_lock_mutex_get(env, parent); - - if (!IS_ERR(sublock)) { - cl_lock_get_trust(sublock); - if (parent->cll_state == CLS_QUEUING && - lck->lls_sub[idx].sub_lock == NULL) { - lov_sublock_adopt(env, lck, sublock, idx, link); - } else { - OBD_SLAB_FREE_PTR(link, lov_lock_link_kmem); - /* other thread allocated sub-lock, or enqueue is no - * longer going on */ - cl_lock_mutex_put(env, parent); - cl_lock_unhold(env, sublock, "lov-parent", parent); - cl_lock_mutex_get(env, parent); - } - cl_lock_mutex_put(env, sublock); - cl_lock_put(env, sublock); - result = CLO_REPEAT; - } else - result = PTR_ERR(sublock); - return result; + OBD_FREE_LARGE(lovlck, + offsetof(struct lov_lock, lls_sub[lovlck->lls_nr])); + EXIT; } /** @@ -590,551 +238,65 @@ static int lov_sublock_fill(const struct lu_env *env, struct cl_lock *parent, * and concurrent sub-lock cancellations. */ static int lov_lock_enqueue(const struct lu_env *env, - const struct cl_lock_slice *slice, - struct cl_io *io, __u32 enqflags) + const struct cl_lock_slice *slice, + struct cl_io *io, struct cl_sync_io *anchor) { - struct cl_lock *lock = slice->cls_lock; - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, lock); - int i; - int result; - enum cl_lock_state minstate; - - ENTRY; - - for (result = 0, minstate = CLS_FREEING, i = 0; i < lck->lls_nr; ++i) { - int rc; - struct lovsub_lock *sub; - struct lov_lock_sub *lls; - struct cl_lock *sublock; - struct lov_sublock_env *subenv; - - if (lock->cll_state != CLS_QUEUING) { - /* - * Lock might have left QUEUING state if previous - * iteration released its mutex. Stop enqueing in this - * case and let the upper layer to decide what to do. - */ - LASSERT(i > 0 && result != 0); - break; - } - - lls = &lck->lls_sub[i]; - sub = lls->sub_lock; - /* - * Sub-lock might have been canceled, while top-lock was - * cached. - */ - if (sub == NULL) { - result = lov_sublock_fill(env, lock, io, lck, i); - /* lov_sublock_fill() released @lock mutex, - * restart. */ - break; - } - sublock = sub->lss_cl.cls_lock; - rc = lov_sublock_lock(env, lck, lls, closure, &subenv); - if (rc == 0) { - lov_sublock_hold(env, lck, i); - rc = lov_lock_enqueue_one(subenv->lse_env, lck, sublock, - subenv->lse_io, enqflags, - i == lck->lls_nr - 1); - minstate = min(minstate, sublock->cll_state); - if (rc == CLO_WAIT) { - switch (sublock->cll_state) { - case CLS_QUEUING: - /* take recursive mutex, the lock is - * released in lov_lock_enqueue_wait. - */ - cl_lock_mutex_get(env, sublock); - lov_sublock_unlock(env, sub, closure, - subenv); - rc = lov_lock_enqueue_wait(env, lck, - sublock); - break; - case CLS_CACHED: - rc = lov_sublock_release(env, lck, i, - 1, rc); - default: - lov_sublock_unlock(env, sub, closure, - subenv); - break; - } - } else { - LASSERT(sublock->cll_conflict == NULL); - lov_sublock_unlock(env, sub, closure, subenv); - } - } - result = lov_subresult(result, rc); - if (result != 0) - break; - } - cl_lock_closure_fini(closure); - RETURN(result ?: minstate >= CLS_ENQUEUED ? 0 : CLO_WAIT); -} - -static int lov_lock_unuse(const struct lu_env *env, - const struct cl_lock_slice *slice) -{ - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, slice->cls_lock); - int i; - int result; - - ENTRY; - - for (result = 0, i = 0; i < lck->lls_nr; ++i) { - int rc; - struct lovsub_lock *sub; - struct cl_lock *sublock; - struct lov_lock_sub *lls; - struct lov_sublock_env *subenv; - - /* top-lock state cannot change concurrently, because single - * thread (one that released the last hold) carries unlocking - * to the completion. */ - LASSERT(slice->cls_lock->cll_state == CLS_INTRANSIT); - lls = &lck->lls_sub[i]; - sub = lls->sub_lock; - if (sub == NULL) - continue; - - sublock = sub->lss_cl.cls_lock; - rc = lov_sublock_lock(env, lck, lls, closure, &subenv); - if (rc == 0) { - if (lls->sub_flags & LSF_HELD) { - LASSERT(sublock->cll_state == CLS_HELD || - sublock->cll_state == CLS_ENQUEUED); - rc = cl_unuse_try(subenv->lse_env, sublock); - rc = lov_sublock_release(env, lck, i, 0, rc); - } - lov_sublock_unlock(env, sub, closure, subenv); - } - result = lov_subresult(result, rc); - } - - if (result == 0 && lck->lls_cancel_race) { - lck->lls_cancel_race = 0; - result = -ESTALE; - } - cl_lock_closure_fini(closure); - RETURN(result); + struct cl_lock *lock = slice->cls_lock; + struct lov_lock *lovlck = cl2lov_lock(slice); + int i; + int rc = 0; + + ENTRY; + + for (i = 0; i < lovlck->lls_nr; ++i) { + struct lov_lock_sub *lls = &lovlck->lls_sub[i]; + struct lov_sublock_env *subenv; + + subenv = lov_sublock_env_get(env, lock, lls); + if (IS_ERR(subenv)) { + rc = PTR_ERR(subenv); + break; + } + + rc = cl_lock_enqueue(subenv->lse_env, subenv->lse_io, + &lls->sub_lock, anchor); + lov_sublock_env_put(subenv); + if (rc != 0) + break; + + lls->sub_is_enqueued = 1; + } + RETURN(rc); } - static void lov_lock_cancel(const struct lu_env *env, - const struct cl_lock_slice *slice) -{ - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, slice->cls_lock); - int i; - int result; - - ENTRY; - - for (result = 0, i = 0; i < lck->lls_nr; ++i) { - int rc; - struct lovsub_lock *sub; - struct cl_lock *sublock; - struct lov_lock_sub *lls; - struct lov_sublock_env *subenv; - - /* top-lock state cannot change concurrently, because single - * thread (one that released the last hold) carries unlocking - * to the completion. */ - lls = &lck->lls_sub[i]; - sub = lls->sub_lock; - if (sub == NULL) - continue; - - sublock = sub->lss_cl.cls_lock; - rc = lov_sublock_lock(env, lck, lls, closure, &subenv); - if (rc == 0) { - if (!(lls->sub_flags & LSF_HELD)) { - lov_sublock_unlock(env, sub, closure, subenv); - continue; - } - - switch(sublock->cll_state) { - case CLS_HELD: - rc = cl_unuse_try(subenv->lse_env, sublock); - lov_sublock_release(env, lck, i, 0, 0); - break; - default: - lov_sublock_release(env, lck, i, 1, 0); - break; - } - lov_sublock_unlock(env, sub, closure, subenv); - } - - if (rc == CLO_REPEAT) { - --i; - continue; - } - - result = lov_subresult(result, rc); - } - - if (result) - CL_LOCK_DEBUG(D_ERROR, env, slice->cls_lock, - "lov_lock_cancel fails with %d.\n", result); - - cl_lock_closure_fini(closure); -} - -static int lov_lock_wait(const struct lu_env *env, - const struct cl_lock_slice *slice) -{ - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, slice->cls_lock); - enum cl_lock_state minstate; - int reenqueued; - int result; - int i; - - ENTRY; - -again: - for (result = 0, minstate = CLS_FREEING, i = 0, reenqueued = 0; - i < lck->lls_nr; ++i) { - int rc; - struct lovsub_lock *sub; - struct cl_lock *sublock; - struct lov_lock_sub *lls; - struct lov_sublock_env *subenv; - - lls = &lck->lls_sub[i]; - sub = lls->sub_lock; - LASSERT(sub != NULL); - sublock = sub->lss_cl.cls_lock; - rc = lov_sublock_lock(env, lck, lls, closure, &subenv); - if (rc == 0) { - LASSERT(sublock->cll_state >= CLS_ENQUEUED); - if (sublock->cll_state < CLS_HELD) - rc = cl_wait_try(env, sublock); - - minstate = min(minstate, sublock->cll_state); - lov_sublock_unlock(env, sub, closure, subenv); - } - if (rc == CLO_REENQUEUED) { - reenqueued++; - rc = 0; - } - result = lov_subresult(result, rc); - if (result != 0) - break; - } - /* Each sublock only can be reenqueued once, so will not loop for - * ever. */ - if (result == 0 && reenqueued != 0) - goto again; - cl_lock_closure_fini(closure); - RETURN(result ?: minstate >= CLS_HELD ? 0 : CLO_WAIT); -} - -static int lov_lock_use(const struct lu_env *env, - const struct cl_lock_slice *slice) -{ - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, slice->cls_lock); - int result; - int i; - - LASSERT(slice->cls_lock->cll_state == CLS_INTRANSIT); - ENTRY; - - for (result = 0, i = 0; i < lck->lls_nr; ++i) { - int rc; - struct lovsub_lock *sub; - struct cl_lock *sublock; - struct lov_lock_sub *lls; - struct lov_sublock_env *subenv; - - LASSERT(slice->cls_lock->cll_state == CLS_INTRANSIT); - - lls = &lck->lls_sub[i]; - sub = lls->sub_lock; - if (sub == NULL) { - /* - * Sub-lock might have been canceled, while top-lock was - * cached. - */ - result = -ESTALE; - break; - } - - sublock = sub->lss_cl.cls_lock; - rc = lov_sublock_lock(env, lck, lls, closure, &subenv); - if (rc == 0) { - LASSERT(sublock->cll_state != CLS_FREEING); - lov_sublock_hold(env, lck, i); - if (sublock->cll_state == CLS_CACHED) { - rc = cl_use_try(subenv->lse_env, sublock, 0); - if (rc != 0) - rc = lov_sublock_release(env, lck, - i, 1, rc); - } else if (sublock->cll_state == CLS_NEW) { - /* Sub-lock might have been canceled, while - * top-lock was cached. */ - result = -ESTALE; - lov_sublock_release(env, lck, i, 1, result); - } - lov_sublock_unlock(env, sub, closure, subenv); - } - result = lov_subresult(result, rc); - if (result != 0) - break; - } - - if (lck->lls_cancel_race) { - /* - * If there is unlocking happened at the same time, then - * sublock_lock state should be FREEING, and lov_sublock_lock - * should return CLO_REPEAT. In this case, it should return - * ESTALE, and up layer should reset the lock state to be NEW. - */ - lck->lls_cancel_race = 0; - LASSERT(result != 0); - result = -ESTALE; - } - cl_lock_closure_fini(closure); - RETURN(result); -} - -#if 0 -static int lock_lock_multi_match() + const struct cl_lock_slice *slice) { - struct cl_lock *lock = slice->cls_lock; - struct cl_lock_descr *subneed = &lov_env_info(env)->lti_ldescr; - struct lov_object *loo = cl2lov(lov->lls_cl.cls_obj); - struct lov_layout_raid0 *r0 = lov_r0(loo); - struct lov_lock_sub *sub; - struct cl_object *subobj; - obd_off fstart; - obd_off fend; - obd_off start; - obd_off end; - int i; - - fstart = cl_offset(need->cld_obj, need->cld_start); - fend = cl_offset(need->cld_obj, need->cld_end + 1) - 1; - subneed->cld_mode = need->cld_mode; - cl_lock_mutex_get(env, lock); - for (i = 0; i < lov->lls_nr; ++i) { - sub = &lov->lls_sub[i]; - if (sub->sub_lock == NULL) - continue; - subobj = sub->sub_descr.cld_obj; - if (!lov_stripe_intersects(loo->lo_lsm, sub->sub_stripe, - fstart, fend, &start, &end)) - continue; - subneed->cld_start = cl_index(subobj, start); - subneed->cld_end = cl_index(subobj, end); - subneed->cld_obj = subobj; - if (!cl_lock_ext_match(&sub->sub_got, subneed)) { - result = 0; - break; - } - } - cl_lock_mutex_put(env, lock); -} -#endif - -/** - * Check if the extent region \a descr is covered by \a child against the - * specific \a stripe. - */ -static int lov_lock_stripe_is_matching(const struct lu_env *env, - struct lov_object *lov, int stripe, - const struct cl_lock_descr *child, - const struct cl_lock_descr *descr) -{ - struct lov_stripe_md *lsm = lov->lo_lsm; - obd_off start; - obd_off end; - int result; - - if (lov_r0(lov)->lo_nr == 1) - return cl_lock_ext_match(child, descr); - - /* - * For a multi-stripes object: - * - make sure the descr only covers child's stripe, and - * - check if extent is matching. - */ - start = cl_offset(&lov->lo_cl, descr->cld_start); - end = cl_offset(&lov->lo_cl, descr->cld_end + 1) - 1; - result = end - start <= lsm->lsm_stripe_size && - stripe == lov_stripe_number(lsm, start) && - stripe == lov_stripe_number(lsm, end); - if (result) { - struct cl_lock_descr *subd = &lov_env_info(env)->lti_ldescr; - obd_off sub_start; - obd_off sub_end; - - subd->cld_obj = NULL; /* don't need sub object at all */ - subd->cld_mode = descr->cld_mode; - subd->cld_gid = descr->cld_gid; - result = lov_stripe_intersects(lsm, stripe, start, end, - &sub_start, &sub_end); - LASSERT(result); - subd->cld_start = cl_index(child->cld_obj, sub_start); - subd->cld_end = cl_index(child->cld_obj, sub_end); - result = cl_lock_ext_match(child, subd); - } - return result; -} - -/** - * An implementation of cl_lock_operations::clo_fits_into() method. - * - * Checks whether a lock (given by \a slice) is suitable for \a - * io. Multi-stripe locks can be used only for "quick" io, like truncate, or - * O_APPEND write. - * - * \see ccc_lock_fits_into(). - */ -static int lov_lock_fits_into(const struct lu_env *env, - const struct cl_lock_slice *slice, - const struct cl_lock_descr *need, - const struct cl_io *io) -{ - struct lov_lock *lov = cl2lov_lock(slice); - struct lov_object *obj = cl2lov(slice->cls_obj); - int result; - - LASSERT(cl_object_same(need->cld_obj, slice->cls_obj)); - LASSERT(lov->lls_nr > 0); - - ENTRY; - - if (need->cld_mode == CLM_GROUP) - /* - * always allow to match group lock. - */ - result = cl_lock_ext_match(&lov->lls_orig, need); - else if (lov->lls_nr == 1) { - struct cl_lock_descr *got = &lov->lls_sub[0].sub_got; - result = lov_lock_stripe_is_matching(env, - cl2lov(slice->cls_obj), - lov->lls_sub[0].sub_stripe, - got, need); - } else if (io->ci_type != CIT_SETATTR && io->ci_type != CIT_MISC && - !cl_io_is_append(io) && need->cld_mode != CLM_PHANTOM) - /* - * Multi-stripe locks are only suitable for `quick' IO and for - * glimpse. - */ - result = 0; - else - /* - * Most general case: multi-stripe existing lock, and - * (potentially) multi-stripe @need lock. Check that @need is - * covered by @lov's sub-locks. - * - * For now, ignore lock expansions made by the server, and - * match against original lock extent. - */ - result = cl_lock_ext_match(&lov->lls_orig, need); - CDEBUG(D_DLMTRACE, DDESCR"/"DDESCR" %d %d/%d: %d\n", - PDESCR(&lov->lls_orig), PDESCR(&lov->lls_sub[0].sub_got), - lov->lls_sub[0].sub_stripe, lov->lls_nr, lov_r0(obj)->lo_nr, - result); - RETURN(result); -} - -void lov_lock_unlink(const struct lu_env *env, - struct lov_lock_link *link, struct lovsub_lock *sub) -{ - struct lov_lock *lck = link->lll_super; - struct cl_lock *parent = lck->lls_cl.cls_lock; - - LASSERT(cl_lock_is_mutexed(parent)); - LASSERT(cl_lock_is_mutexed(sub->lss_cl.cls_lock)); - ENTRY; - - cfs_list_del_init(&link->lll_list); - LASSERT(lck->lls_sub[link->lll_idx].sub_lock == sub); - /* yank this sub-lock from parent's array */ - lck->lls_sub[link->lll_idx].sub_lock = NULL; - LASSERT(lck->lls_nr_filled > 0); - lck->lls_nr_filled--; - lu_ref_del(&parent->cll_reference, "lov-child", sub->lss_cl.cls_lock); - cl_lock_put(env, parent); - OBD_SLAB_FREE_PTR(link, lov_lock_link_kmem); - EXIT; -} - -struct lov_lock_link *lov_lock_link_find(const struct lu_env *env, - struct lov_lock *lck, - struct lovsub_lock *sub) -{ - struct lov_lock_link *scan; - - LASSERT(cl_lock_is_mutexed(sub->lss_cl.cls_lock)); - ENTRY; - - cfs_list_for_each_entry(scan, &sub->lss_parents, lll_list) { - if (scan->lll_super == lck) - RETURN(scan); - } - RETURN(NULL); -} - -/** - * An implementation of cl_lock_operations::clo_delete() method. This is - * invoked for "top-to-bottom" delete, when lock destruction starts from the - * top-lock, e.g., as a result of inode destruction. - * - * Unlinks top-lock from all its sub-locks. Sub-locks are not deleted there: - * this is done separately elsewhere: - * - * - for inode destruction, lov_object_delete() calls cl_object_kill() for - * each sub-object, purging its locks; - * - * - in other cases (e.g., a fatal error with a top-lock) sub-locks are - * left in the cache. - */ -static void lov_lock_delete(const struct lu_env *env, - const struct cl_lock_slice *slice) -{ - struct lov_lock *lck = cl2lov_lock(slice); - struct cl_lock_closure *closure = lov_closure_get(env, slice->cls_lock); - struct lov_lock_link *link; - int rc; - int i; - - LASSERT(slice->cls_lock->cll_state == CLS_FREEING); - ENTRY; - - for (i = 0; i < lck->lls_nr; ++i) { - struct lov_lock_sub *lls = &lck->lls_sub[i]; - struct lovsub_lock *lsl = lls->sub_lock; - - if (lsl == NULL) /* already removed */ - continue; - - rc = lov_sublock_lock(env, lck, lls, closure, NULL); - if (rc == CLO_REPEAT) { - --i; - continue; - } - - LASSERT(rc == 0); - LASSERT(lsl->lss_cl.cls_lock->cll_state < CLS_FREEING); - - if (lls->sub_flags & LSF_HELD) - lov_sublock_release(env, lck, i, 1, 0); - - link = lov_lock_link_find(env, lck, lsl); - LASSERT(link != NULL); - lov_lock_unlink(env, link, lsl); - LASSERT(lck->lls_sub[i].sub_lock == NULL); - - lov_sublock_unlock(env, lsl, closure, NULL); - } - - cl_lock_closure_fini(closure); - EXIT; + struct cl_lock *lock = slice->cls_lock; + struct lov_lock *lovlck = cl2lov_lock(slice); + int i; + + ENTRY; + + for (i = 0; i < lovlck->lls_nr; ++i) { + struct lov_lock_sub *lls = &lovlck->lls_sub[i]; + struct cl_lock *sublock = &lls->sub_lock; + struct lov_sublock_env *subenv; + + if (!lls->sub_is_enqueued) + continue; + + lls->sub_is_enqueued = 0; + subenv = lov_sublock_env_get(env, lock, lls); + if (!IS_ERR(subenv)) { + cl_lock_cancel(subenv->lse_env, sublock); + lov_sublock_env_put(subenv); + } else { + CL_LOCK_DEBUG(D_ERROR, env, slice->cls_lock, + "lov_lock_cancel fails with %ld.\n", + PTR_ERR(subenv)); + } + } } static int lov_lock_print(const struct lu_env *env, void *cookie, @@ -1148,12 +310,8 @@ static int lov_lock_print(const struct lu_env *env, void *cookie, struct lov_lock_sub *sub; sub = &lck->lls_sub[i]; - (*p)(env, cookie, " %d %x: ", i, sub->sub_flags); - if (sub->sub_lock != NULL) - cl_lock_print(env, cookie, p, - sub->sub_lock->lss_cl.cls_lock); - else - (*p)(env, cookie, "---\n"); + (*p)(env, cookie, " %d %x: ", i, sub->sub_is_enqueued); + cl_lock_print(env, cookie, p, &sub->sub_lock); } return 0; } @@ -1161,41 +319,58 @@ static int lov_lock_print(const struct lu_env *env, void *cookie, static const struct cl_lock_operations lov_lock_ops = { .clo_fini = lov_lock_fini, .clo_enqueue = lov_lock_enqueue, - .clo_wait = lov_lock_wait, - .clo_use = lov_lock_use, - .clo_unuse = lov_lock_unuse, .clo_cancel = lov_lock_cancel, - .clo_fits_into = lov_lock_fits_into, - .clo_delete = lov_lock_delete, .clo_print = lov_lock_print }; int lov_lock_init_raid0(const struct lu_env *env, struct cl_object *obj, - struct cl_lock *lock, const struct cl_io *io) + struct cl_lock *lock, const struct cl_io *io) { - struct lov_lock *lck; - int result; - - ENTRY; - OBD_SLAB_ALLOC_PTR_GFP(lck, lov_lock_kmem, CFS_ALLOC_IO); - if (lck != NULL) { - cl_lock_slice_add(lock, &lck->lls_cl, obj, &lov_lock_ops); - result = lov_lock_sub_init(env, lck, io); - } else - result = -ENOMEM; - RETURN(result); + struct lov_lock *lck; + int result = 0; + + ENTRY; + lck = lov_lock_sub_init(env, obj, lock); + if (!IS_ERR(lck)) + cl_lock_slice_add(lock, &lck->lls_cl, obj, &lov_lock_ops); + else + result = PTR_ERR(lck); + RETURN(result); } -static struct cl_lock_closure *lov_closure_get(const struct lu_env *env, - struct cl_lock *parent) +static void lov_empty_lock_fini(const struct lu_env *env, + struct cl_lock_slice *slice) { - struct cl_lock_closure *closure; + struct lov_lock *lck = cl2lov_lock(slice); + OBD_SLAB_FREE_PTR(lck, lov_lock_kmem); +} - closure = &lov_env_info(env)->lti_closure; - LASSERT(cfs_list_empty(&closure->clc_list)); - cl_lock_closure_init(env, closure, parent, 1); - return closure; +static int lov_empty_lock_print(const struct lu_env *env, void *cookie, + lu_printer_t p, const struct cl_lock_slice *slice) +{ + (*p)(env, cookie, "empty\n"); + return 0; } +/* XXX: more methods will be added later. */ +static const struct cl_lock_operations lov_empty_lock_ops = { + .clo_fini = lov_empty_lock_fini, + .clo_print = lov_empty_lock_print +}; + +int lov_lock_init_empty(const struct lu_env *env, struct cl_object *obj, + struct cl_lock *lock, const struct cl_io *io) +{ + struct lov_lock *lck; + int result = -ENOMEM; + + ENTRY; + OBD_SLAB_ALLOC_PTR_GFP(lck, lov_lock_kmem, GFP_NOFS); + if (lck != NULL) { + cl_lock_slice_add(lock, &lck->lls_cl, obj, &lov_empty_lock_ops); + result = 0; + } + RETURN(result); +} /** @} lov */