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Illumos 5008 - lock contention (rrw_exit) while running a read only load
5008 lock contention (rrw_exit) while running a read only load Reviewed by: Matthew Ahrens <matthew.ahrens@delphix.com> Reviewed by: George Wilson <george.wilson@delphix.com> Reviewed by: Alex Reece <alex.reece@delphix.com> Reviewed by: Christopher Siden <christopher.siden@delphix.com> Reviewed by: Richard Yao <ryao@gentoo.org> Reviewed by: Saso Kiselkov <skiselkov.ml@gmail.com> Approved by: Garrett D'Amore <garrett@damore.org> Porting notes: This patch ported perfectly cleanly to ZoL. During testing 100% cached small-block reads, extreme contention was noticed on rrl->rr_lock from rrw_exit() due to the frequent entering and leaving ZPL. Illumos picked up this patch from FreeBSD and it also helps under Linux. On a 1-minute 4K cached read test with 10 fio processes pinned to a single socket on a 4-socket (10 thread per socket) NUMA system, contentions on rrl->rr_lock were reduced from 508799 to 43085. Ported-by: Tim Chase <tim@chase2k.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #3555
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@ -83,6 +83,31 @@ void rrw_tsd_destroy(void *arg);
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#define RRW_LOCK_HELD(x) \
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#define RRW_LOCK_HELD(x) \
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(rrw_held(x, RW_WRITER) || rrw_held(x, RW_READER))
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(rrw_held(x, RW_WRITER) || rrw_held(x, RW_READER))
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/*
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* A reader-mostly lock implementation, tuning above reader-writer locks
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* for hightly parallel read acquisitions, pessimizing write acquisitions.
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*
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* This should be a prime number. See comment in rrwlock.c near
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* RRM_TD_LOCK() for details.
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*/
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#define RRM_NUM_LOCKS 17
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typedef struct rrmlock {
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rrwlock_t locks[RRM_NUM_LOCKS];
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} rrmlock_t;
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void rrm_init(rrmlock_t *rrl, boolean_t track_all);
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void rrm_destroy(rrmlock_t *rrl);
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void rrm_enter(rrmlock_t *rrl, krw_t rw, void *tag);
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void rrm_enter_read(rrmlock_t *rrl, void *tag);
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void rrm_enter_write(rrmlock_t *rrl);
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void rrm_exit(rrmlock_t *rrl, void *tag);
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boolean_t rrm_held(rrmlock_t *rrl, krw_t rw);
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#define RRM_READ_HELD(x) rrm_held(x, RW_READER)
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#define RRM_WRITE_HELD(x) rrm_held(x, RW_WRITER)
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#define RRM_LOCK_HELD(x) \
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(rrm_held(x, RW_WRITER) || rrm_held(x, RW_READER))
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#ifdef __cplusplus
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#ifdef __cplusplus
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}
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}
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#endif
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#endif
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@ -67,7 +67,7 @@ typedef struct zfs_sb {
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boolean_t z_atime; /* enable atimes mount option */
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boolean_t z_atime; /* enable atimes mount option */
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boolean_t z_relatime; /* enable relatime mount option */
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boolean_t z_relatime; /* enable relatime mount option */
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boolean_t z_unmounted; /* unmounted */
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boolean_t z_unmounted; /* unmounted */
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rrwlock_t z_teardown_lock;
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rrmlock_t z_teardown_lock;
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krwlock_t z_teardown_inactive_lock;
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krwlock_t z_teardown_inactive_lock;
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list_t z_all_znodes; /* all znodes in the fs */
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list_t z_all_znodes; /* all znodes in the fs */
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uint64_t z_nr_znodes; /* number of znodes in the fs */
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uint64_t z_nr_znodes; /* number of znodes in the fs */
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@ -250,7 +250,7 @@ typedef struct znode {
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/* Called on entry to each ZFS vnode and vfs operation */
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/* Called on entry to each ZFS vnode and vfs operation */
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#define ZFS_ENTER(zsb) \
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#define ZFS_ENTER(zsb) \
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{ \
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{ \
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rrw_enter_read(&(zsb)->z_teardown_lock, FTAG); \
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rrm_enter_read(&(zsb)->z_teardown_lock, FTAG); \
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if ((zsb)->z_unmounted) { \
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if ((zsb)->z_unmounted) { \
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ZFS_EXIT(zsb); \
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ZFS_EXIT(zsb); \
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return (EIO); \
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return (EIO); \
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@ -260,7 +260,7 @@ typedef struct znode {
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/* Must be called before exiting the vop */
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/* Must be called before exiting the vop */
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#define ZFS_EXIT(zsb) \
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#define ZFS_EXIT(zsb) \
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{ \
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{ \
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rrw_exit(&(zsb)->z_teardown_lock, FTAG); \
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rrm_exit(&(zsb)->z_teardown_lock, FTAG); \
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}
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}
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/* Verifies the znode is valid */
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/* Verifies the znode is valid */
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@ -305,3 +305,91 @@ rrw_tsd_destroy(void *arg)
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(void *)curthread, (void *)rn->rn_rrl);
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(void *)curthread, (void *)rn->rn_rrl);
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}
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}
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}
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}
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/*
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* A reader-mostly lock implementation, tuning above reader-writer locks
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* for hightly parallel read acquisitions, while pessimizing writes.
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*
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* The idea is to split single busy lock into array of locks, so that
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* each reader can lock only one of them for read, depending on result
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* of simple hash function. That proportionally reduces lock congestion.
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* Writer same time has to sequentially aquire write on all the locks.
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* That makes write aquisition proportionally slower, but in places where
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* it is used (filesystem unmount) performance is not critical.
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*
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* All the functions below are direct wrappers around functions above.
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*/
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void
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rrm_init(rrmlock_t *rrl, boolean_t track_all)
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{
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int i;
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for (i = 0; i < RRM_NUM_LOCKS; i++)
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rrw_init(&rrl->locks[i], track_all);
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}
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void
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rrm_destroy(rrmlock_t *rrl)
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{
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int i;
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for (i = 0; i < RRM_NUM_LOCKS; i++)
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rrw_destroy(&rrl->locks[i]);
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}
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void
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rrm_enter(rrmlock_t *rrl, krw_t rw, void *tag)
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{
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if (rw == RW_READER)
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rrm_enter_read(rrl, tag);
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else
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rrm_enter_write(rrl);
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}
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/*
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* This maps the current thread to a specific lock. Note that the lock
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* must be released by the same thread that acquired it. We do this
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* mapping by taking the thread pointer mod a prime number. We examine
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* only the low 32 bits of the thread pointer, because 32-bit division
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* is faster than 64-bit division, and the high 32 bits have little
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* entropy anyway.
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*/
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#define RRM_TD_LOCK() (((uint32_t)(uintptr_t)(curthread)) % RRM_NUM_LOCKS)
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void
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rrm_enter_read(rrmlock_t *rrl, void *tag)
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{
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rrw_enter_read(&rrl->locks[RRM_TD_LOCK()], tag);
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}
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void
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rrm_enter_write(rrmlock_t *rrl)
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{
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int i;
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for (i = 0; i < RRM_NUM_LOCKS; i++)
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rrw_enter_write(&rrl->locks[i]);
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}
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void
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rrm_exit(rrmlock_t *rrl, void *tag)
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{
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int i;
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if (rrl->locks[0].rr_writer == curthread) {
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for (i = 0; i < RRM_NUM_LOCKS; i++)
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rrw_exit(&rrl->locks[i], tag);
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} else {
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rrw_exit(&rrl->locks[RRM_TD_LOCK()], tag);
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}
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}
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boolean_t
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rrm_held(rrmlock_t *rrl, krw_t rw)
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{
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if (rw == RW_WRITER) {
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return (rrw_held(&rrl->locks[0], rw));
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} else {
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return (rrw_held(&rrl->locks[RRM_TD_LOCK()], rw));
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}
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}
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@ -1451,7 +1451,7 @@ zfs_sb_hold(const char *name, void *tag, zfs_sb_t **zsbp, boolean_t writer)
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if (get_zfs_sb(name, zsbp) != 0)
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if (get_zfs_sb(name, zsbp) != 0)
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error = zfs_sb_create(name, zsbp);
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error = zfs_sb_create(name, zsbp);
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if (error == 0) {
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if (error == 0) {
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rrw_enter(&(*zsbp)->z_teardown_lock, (writer) ? RW_WRITER :
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rrm_enter(&(*zsbp)->z_teardown_lock, (writer) ? RW_WRITER :
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RW_READER, tag);
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RW_READER, tag);
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if ((*zsbp)->z_unmounted) {
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if ((*zsbp)->z_unmounted) {
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/*
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/*
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@ -1459,7 +1459,7 @@ zfs_sb_hold(const char *name, void *tag, zfs_sb_t **zsbp, boolean_t writer)
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* thread should be just about to disassociate the
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* thread should be just about to disassociate the
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* objset from the zsb.
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* objset from the zsb.
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*/
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*/
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rrw_exit(&(*zsbp)->z_teardown_lock, tag);
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rrm_exit(&(*zsbp)->z_teardown_lock, tag);
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return (SET_ERROR(EBUSY));
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return (SET_ERROR(EBUSY));
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}
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}
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}
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}
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@ -1469,7 +1469,7 @@ zfs_sb_hold(const char *name, void *tag, zfs_sb_t **zsbp, boolean_t writer)
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static void
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static void
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zfs_sb_rele(zfs_sb_t *zsb, void *tag)
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zfs_sb_rele(zfs_sb_t *zsb, void *tag)
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{
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{
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rrw_exit(&zsb->z_teardown_lock, tag);
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rrm_exit(&zsb->z_teardown_lock, tag);
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if (zsb->z_sb) {
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if (zsb->z_sb) {
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deactivate_super(zsb->z_sb);
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deactivate_super(zsb->z_sb);
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@ -771,7 +771,7 @@ zfs_sb_create(const char *osname, zfs_sb_t **zsbp)
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mutex_init(&zsb->z_lock, NULL, MUTEX_DEFAULT, NULL);
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mutex_init(&zsb->z_lock, NULL, MUTEX_DEFAULT, NULL);
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list_create(&zsb->z_all_znodes, sizeof (znode_t),
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list_create(&zsb->z_all_znodes, sizeof (znode_t),
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offsetof(znode_t, z_link_node));
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offsetof(znode_t, z_link_node));
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rrw_init(&zsb->z_teardown_lock, B_FALSE);
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rrm_init(&zsb->z_teardown_lock, B_FALSE);
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rw_init(&zsb->z_teardown_inactive_lock, NULL, RW_DEFAULT, NULL);
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rw_init(&zsb->z_teardown_inactive_lock, NULL, RW_DEFAULT, NULL);
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rw_init(&zsb->z_fuid_lock, NULL, RW_DEFAULT, NULL);
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rw_init(&zsb->z_fuid_lock, NULL, RW_DEFAULT, NULL);
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@ -890,7 +890,7 @@ zfs_sb_free(zfs_sb_t *zsb)
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mutex_destroy(&zsb->z_znodes_lock);
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mutex_destroy(&zsb->z_znodes_lock);
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mutex_destroy(&zsb->z_lock);
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mutex_destroy(&zsb->z_lock);
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list_destroy(&zsb->z_all_znodes);
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list_destroy(&zsb->z_all_znodes);
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rrw_destroy(&zsb->z_teardown_lock);
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rrm_destroy(&zsb->z_teardown_lock);
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rw_destroy(&zsb->z_teardown_inactive_lock);
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rw_destroy(&zsb->z_teardown_inactive_lock);
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rw_destroy(&zsb->z_fuid_lock);
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rw_destroy(&zsb->z_fuid_lock);
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for (i = 0; i != ZFS_OBJ_MTX_SZ; i++)
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for (i = 0; i != ZFS_OBJ_MTX_SZ; i++)
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@ -1221,7 +1221,7 @@ zfs_sb_teardown(zfs_sb_t *zsb, boolean_t unmounting)
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}
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}
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}
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}
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rrw_enter(&zsb->z_teardown_lock, RW_WRITER, FTAG);
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rrm_enter(&zsb->z_teardown_lock, RW_WRITER, FTAG);
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if (!unmounting) {
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if (!unmounting) {
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/*
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/*
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@ -1252,7 +1252,7 @@ zfs_sb_teardown(zfs_sb_t *zsb, boolean_t unmounting)
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*/
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*/
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if (!unmounting && (zsb->z_unmounted || zsb->z_os == NULL)) {
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if (!unmounting && (zsb->z_unmounted || zsb->z_os == NULL)) {
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rw_exit(&zsb->z_teardown_inactive_lock);
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rw_exit(&zsb->z_teardown_inactive_lock);
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rrw_exit(&zsb->z_teardown_lock, FTAG);
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rrm_exit(&zsb->z_teardown_lock, FTAG);
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return (SET_ERROR(EIO));
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return (SET_ERROR(EIO));
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}
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}
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@ -1280,7 +1280,7 @@ zfs_sb_teardown(zfs_sb_t *zsb, boolean_t unmounting)
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*/
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*/
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if (unmounting) {
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if (unmounting) {
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zsb->z_unmounted = B_TRUE;
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zsb->z_unmounted = B_TRUE;
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rrw_exit(&zsb->z_teardown_lock, FTAG);
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rrm_exit(&zsb->z_teardown_lock, FTAG);
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rw_exit(&zsb->z_teardown_inactive_lock);
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rw_exit(&zsb->z_teardown_inactive_lock);
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}
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}
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@ -1599,7 +1599,7 @@ zfs_resume_fs(zfs_sb_t *zsb, const char *osname)
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znode_t *zp;
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znode_t *zp;
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uint64_t sa_obj = 0;
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uint64_t sa_obj = 0;
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ASSERT(RRW_WRITE_HELD(&zsb->z_teardown_lock));
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ASSERT(RRM_WRITE_HELD(&zsb->z_teardown_lock));
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ASSERT(RW_WRITE_HELD(&zsb->z_teardown_inactive_lock));
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ASSERT(RW_WRITE_HELD(&zsb->z_teardown_inactive_lock));
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/*
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/*
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@ -1663,7 +1663,7 @@ zfs_resume_fs(zfs_sb_t *zsb, const char *osname)
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bail:
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bail:
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/* release the VFS ops */
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/* release the VFS ops */
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rw_exit(&zsb->z_teardown_inactive_lock);
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rw_exit(&zsb->z_teardown_inactive_lock);
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rrw_exit(&zsb->z_teardown_lock, FTAG);
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rrm_exit(&zsb->z_teardown_lock, FTAG);
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if (err) {
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if (err) {
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/*
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/*
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