/*
- * Copyright (c) 2000-2005 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2019 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
- *
+ *
* This file contains Original Code and/or Modifications of Original Code
* as defined in and that are subject to the Apple Public Source License
* Version 2.0 (the 'License'). You may not use this file except in
* unlawful or unlicensed copies of an Apple operating system, or to
* circumvent, violate, or enable the circumvention or violation of, any
* terms of an Apple operating system software license agreement.
- *
+ *
* Please obtain a copy of the License at
* http://www.opensource.apple.com/apsl/ and read it before using this file.
- *
+ *
* The Original Code and all software distributed under the License are
* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
* Please see the License for the specific language governing rights and
* limitations under the License.
- *
+ *
* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
*/
/* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */
* @(#)nfs_bio.c 8.9 (Berkeley) 3/30/95
* FreeBSD-Id: nfs_bio.c,v 1.44 1997/09/10 19:52:25 phk Exp $
*/
+
+#include <nfs/nfs_conf.h>
+#if CONFIG_NFS_CLIENT
+
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/resourcevar.h>
#include <sys/dirent.h>
#include <sys/mount_internal.h>
#include <sys/kernel.h>
-#include <sys/sysctl.h>
#include <sys/ubc_internal.h>
#include <sys/uio_internal.h>
+#include <sys/kpi_mbuf.h>
#include <sys/vm.h>
#include <sys/vmparam.h>
#include <kern/clock.h>
#include <libkern/OSAtomic.h>
#include <kern/kalloc.h>
+#include <kern/thread_call.h>
#include <nfs/rpcv2.h>
#include <nfs/nfsproto.h>
#include <nfs/nfs.h>
+#include <nfs/nfs_gss.h>
#include <nfs/nfsmount.h>
#include <nfs/nfsnode.h>
#include <sys/buf_internal.h>
+#include <libkern/OSAtomic.h>
+#include <os/refcnt.h>
-#include <sys/kdebug.h>
-
-#define FSDBG(A, B, C, D, E) \
- KERNEL_DEBUG((FSDBG_CODE(DBG_FSRW, (A))) | DBG_FUNC_NONE, \
- (int)(B), (int)(C), (int)(D), (int)(E), 0)
-#define FSDBG_TOP(A, B, C, D, E) \
- KERNEL_DEBUG((FSDBG_CODE(DBG_FSRW, (A))) | DBG_FUNC_START, \
- (int)(B), (int)(C), (int)(D), (int)(E), 0)
-#define FSDBG_BOT(A, B, C, D, E) \
- KERNEL_DEBUG((FSDBG_CODE(DBG_FSRW, (A))) | DBG_FUNC_END, \
- (int)(B), (int)(C), (int)(D), (int)(E), 0)
+#define NFS_BIO_DBG(...) NFS_DBG(NFS_FAC_BIO, 7, ## __VA_ARGS__)
-extern int nfs_numasync;
-extern int nfs_ioddelwri;
-extern struct nfsstats nfsstats;
+kern_return_t thread_terminate(thread_t); /* XXX */
-#define NFSBUFHASH(np, lbn) \
+#define NFSBUFHASH(np, lbn) \
(&nfsbufhashtbl[((long)(np) / sizeof(*(np)) + (int)(lbn)) & nfsbufhash])
-LIST_HEAD(nfsbufhashhead, nfsbuf) *nfsbufhashtbl;
+LIST_HEAD(nfsbufhashhead, nfsbuf) * nfsbufhashtbl;
struct nfsbuffreehead nfsbuffree, nfsbuffreemeta, nfsbufdelwri;
u_long nfsbufhash;
int nfsbufcnt, nfsbufmin, nfsbufmax, nfsbufmetacnt, nfsbufmetamax;
int nfsbuffreecnt, nfsbuffreemetacnt, nfsbufdelwricnt, nfsneedbuffer;
int nfs_nbdwrite;
-time_t nfsbuffreeuptimestamp;
+int nfs_buf_timer_on = 0;
+thread_t nfsbufdelwrithd = NULL;
+
+ZONE_DECLARE(nfsbuf_zone, "NFS bio", sizeof(struct nfsbuf), ZC_NONE);
lck_grp_t *nfs_buf_lck_grp;
-lck_grp_attr_t *nfs_buf_lck_grp_attr;
-lck_attr_t *nfs_buf_lck_attr;
lck_mtx_t *nfs_buf_mutex;
-#define NFSBUFWRITE_THROTTLE 9
-#define NFSBUF_LRU_STALE 120
-#define NFSBUF_META_STALE 240
+#define NFSBUF_FREE_PERIOD 30 /* seconds */
+#define NFSBUF_LRU_STALE 120
+#define NFSBUF_META_STALE 240
/* number of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffree list */
-#define LRU_TO_FREEUP 6
+#define LRU_TO_FREEUP 6
/* number of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffreemeta list */
-#define META_TO_FREEUP 3
+#define META_TO_FREEUP 3
/* total number of nfsbufs nfs_buf_freeup() should attempt to free */
-#define TOTAL_TO_FREEUP (LRU_TO_FREEUP+META_TO_FREEUP)
-/* fraction of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffree list when called from nfs_timer() */
-#define LRU_FREEUP_FRAC_ON_TIMER 8
-/* fraction of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffreemeta list when called from nfs_timer() */
-#define META_FREEUP_FRAC_ON_TIMER 16
+#define TOTAL_TO_FREEUP (LRU_TO_FREEUP+META_TO_FREEUP)
+/* fraction of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffree list when called from timer */
+#define LRU_FREEUP_FRAC_ON_TIMER 8
+/* fraction of nfsbufs nfs_buf_freeup() should attempt to free from nfsbuffreemeta list when called from timer */
+#define META_FREEUP_FRAC_ON_TIMER 16
/* fraction of total nfsbufs that nfsbuffreecnt should exceed before bothering to call nfs_buf_freeup() */
-#define LRU_FREEUP_MIN_FRAC 4
+#define LRU_FREEUP_MIN_FRAC 4
/* fraction of total nfsbufs that nfsbuffreemetacnt should exceed before bothering to call nfs_buf_freeup() */
-#define META_FREEUP_MIN_FRAC 2
+#define META_FREEUP_MIN_FRAC 2
+
+#define NFS_ROUND_BLOCK(p, blksize) ((((uint64_t)(p) + blksize - 1) & ~((uint64_t)blksize - 1)) / blksize)
#define NFS_BUF_FREEUP() \
do { \
- /* only call nfs_buf_freeup() if it has work to do: */ \
- if (((nfsbuffreecnt > nfsbufcnt/LRU_FREEUP_MIN_FRAC) || \
- (nfsbuffreemetacnt > nfsbufcnt/META_FREEUP_MIN_FRAC)) && \
- ((nfsbufcnt - TOTAL_TO_FREEUP) > nfsbufmin)) \
- nfs_buf_freeup(0); \
+ /* only call nfs_buf_freeup() if it has work to do: */ \
+ if (((nfsbuffreecnt > nfsbufcnt/LRU_FREEUP_MIN_FRAC) || \
+ (nfsbuffreemetacnt > nfsbufcnt/META_FREEUP_MIN_FRAC)) && \
+ ((nfsbufcnt - TOTAL_TO_FREEUP) > nfsbufmin)) \
+ nfs_buf_freeup(0); \
} while (0)
+void
+nfs_buf_pgs_get_page_mask(nfsbufpgs *nfsbp, off_t page)
+{
+ off_t page_pos = page / NBPGS_ELEMENT_PAGES;
+ off_t max_page = NBPGS_STRUCT_SIZE * 8;
+ NBPGS_ERASE(nfsbp);
+
+ if (page >= max_page) {
+ nfs_buf_pgs_bit_not(nfsbp);
+ return;
+ }
+
+ NBPGS_SET(nfsbp, page);
+ nfsbp->pages[page_pos]--;
+ for (off_t i = page_pos - 1; i >= 0; i--) {
+ nfsbp->pages[i] = ~0;
+ }
+}
+
+void
+nfs_buf_pgs_bit_not(nfsbufpgs *nfsbp)
+{
+ for (uint32_t i = 0; i < NBPGS_ELEMENTS; i++) {
+ nfsbp->pages[i] = ~nfsbp->pages[i];
+ }
+}
+
+void
+nfs_buf_pgs_bit_and(nfsbufpgs *nfsbp_src1, nfsbufpgs *nfsbp_src2, nfsbufpgs *nfsbp_dst)
+{
+ for (uint32_t i = 0; i < NBPGS_ELEMENTS; i++) {
+ nfsbp_dst->pages[i] = nfsbp_src1->pages[i] & nfsbp_src2->pages[i];
+ }
+}
+
+void
+nfs_buf_pgs_set_pages_between(nfsbufpgs *nfsbp, off_t firstpg, off_t lastpg)
+{
+ nfsbufpgs pagemaskfirst, pagemasklast;
+
+ nfs_buf_pgs_get_page_mask(&pagemasklast, lastpg);
+ nfs_buf_pgs_get_page_mask(&pagemaskfirst, firstpg);
+ nfs_buf_pgs_bit_not(&pagemaskfirst);
+ nfs_buf_pgs_bit_and(&pagemaskfirst, &pagemasklast, nfsbp);
+}
+
+int
+nfs_buf_pgs_is_set(nfsbufpgs *nfsbp)
+{
+ for (uint32_t i = 0; i < NBPGS_ELEMENTS; i++) {
+ if (nfsbp->pages[i] != 0) {
+ return 1;
+ }
+ }
+ return 0;
+}
+
/*
* Initialize nfsbuf lists
*/
void
nfs_nbinit(void)
{
- nfs_buf_lck_grp_attr = lck_grp_attr_alloc_init();
- nfs_buf_lck_grp = lck_grp_alloc_init("nfs_buf", nfs_buf_lck_grp_attr);
-
- nfs_buf_lck_attr = lck_attr_alloc_init();
-
- nfs_buf_mutex = lck_mtx_alloc_init(nfs_buf_lck_grp, nfs_buf_lck_attr);
+ nfs_buf_lck_grp = lck_grp_alloc_init("nfs_buf", LCK_GRP_ATTR_NULL);
+ nfs_buf_mutex = lck_mtx_alloc_init(nfs_buf_lck_grp, LCK_ATTR_NULL);
nfsbufcnt = nfsbufmetacnt =
- nfsbuffreecnt = nfsbuffreemetacnt = nfsbufdelwricnt = 0;
+ nfsbuffreecnt = nfsbuffreemetacnt = nfsbufdelwricnt = 0;
nfsbufmin = 128;
- nfsbufmax = (sane_size >> PAGE_SHIFT) / 4;
- nfsbufmetamax = (sane_size >> PAGE_SHIFT) / 16;
+ /* size nfsbufmax to cover at most half sane_size (w/default buf size) */
+ nfsbufmax = (int)(sane_size >> PAGE_SHIFT) / (2 * (NFS_RWSIZE >> PAGE_SHIFT));
+ nfsbufmetamax = nfsbufmax / 4;
nfsneedbuffer = 0;
nfs_nbdwrite = 0;
- nfsbuffreeuptimestamp = 0;
- nfsbufhashtbl = hashinit(nfsbufmax/4, M_TEMP, &nfsbufhash);
+ nfsbufhashtbl = hashinit(nfsbufmax / 4, M_NFSBIO, &nfsbufhash);
TAILQ_INIT(&nfsbuffree);
TAILQ_INIT(&nfsbuffreemeta);
TAILQ_INIT(&nfsbufdelwri);
+}
+
+/*
+ * Check periodically for stale/unused nfs bufs
+ */
+void
+nfs_buf_timer(__unused void *param0, __unused void *param1)
+{
+ nfs_buf_freeup(1);
+ lck_mtx_lock(nfs_buf_mutex);
+ if (nfsbufcnt <= nfsbufmin) {
+ nfs_buf_timer_on = 0;
+ lck_mtx_unlock(nfs_buf_mutex);
+ return;
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+
+ nfs_interval_timer_start(nfs_buf_timer_call,
+ NFSBUF_FREE_PERIOD * 1000);
}
/*
lck_mtx_lock(nfs_buf_mutex);
microuptime(&now);
- nfsbuffreeuptimestamp = now.tv_sec;
FSDBG(320, nfsbufcnt, nfsbuffreecnt, nfsbuffreemetacnt, 0);
- count = timer ? nfsbuffreecnt/LRU_FREEUP_FRAC_ON_TIMER : LRU_TO_FREEUP;
+ count = timer ? nfsbuffreecnt / LRU_FREEUP_FRAC_ON_TIMER : LRU_TO_FREEUP;
while ((nfsbufcnt > nfsbufmin) && (count-- > 0)) {
fbp = TAILQ_FIRST(&nfsbuffree);
- if (!fbp)
+ if (!fbp) {
break;
- if (fbp->nb_refs)
+ }
+ if (os_ref_get_count(&fbp->nb_refs) > 1) {
break;
+ }
if (NBUFSTAMPVALID(fbp) &&
- (fbp->nb_timestamp + (2*NFSBUF_LRU_STALE)) > now.tv_sec)
+ (fbp->nb_timestamp + (2 * NFSBUF_LRU_STALE)) > now.tv_sec) {
break;
+ }
nfs_buf_remfree(fbp);
- /* disassociate buffer from any vnode */
- if (fbp->nb_vp) {
+ /* disassociate buffer from any nfsnode */
+ if (fbp->nb_np) {
if (fbp->nb_vnbufs.le_next != NFSNOLIST) {
LIST_REMOVE(fbp, nb_vnbufs);
fbp->nb_vnbufs.le_next = NFSNOLIST;
}
- fbp->nb_vp = NULL;
+ fbp->nb_np = NULL;
}
LIST_REMOVE(fbp, nb_hash);
TAILQ_INSERT_TAIL(&nfsbuffreeup, fbp, nb_free);
nfsbufcnt--;
}
- count = timer ? nfsbuffreemetacnt/META_FREEUP_FRAC_ON_TIMER : META_TO_FREEUP;
+ count = timer ? nfsbuffreemetacnt / META_FREEUP_FRAC_ON_TIMER : META_TO_FREEUP;
while ((nfsbufcnt > nfsbufmin) && (count-- > 0)) {
fbp = TAILQ_FIRST(&nfsbuffreemeta);
- if (!fbp)
+ if (!fbp) {
break;
- if (fbp->nb_refs)
+ }
+ if (os_ref_get_count(&fbp->nb_refs) > 1) {
break;
+ }
if (NBUFSTAMPVALID(fbp) &&
- (fbp->nb_timestamp + (2*NFSBUF_META_STALE)) > now.tv_sec)
+ (fbp->nb_timestamp + (2 * NFSBUF_META_STALE)) > now.tv_sec) {
break;
+ }
nfs_buf_remfree(fbp);
- /* disassociate buffer from any vnode */
- if (fbp->nb_vp) {
+ /* disassociate buffer from any nfsnode */
+ if (fbp->nb_np) {
if (fbp->nb_vnbufs.le_next != NFSNOLIST) {
LIST_REMOVE(fbp, nb_vnbufs);
fbp->nb_vnbufs.le_next = NFSNOLIST;
}
- fbp->nb_vp = NULL;
+ fbp->nb_np = NULL;
}
LIST_REMOVE(fbp, nb_hash);
TAILQ_INSERT_TAIL(&nfsbuffreeup, fbp, nb_free);
}
FSDBG(320, nfsbufcnt, nfsbuffreecnt, nfsbuffreemetacnt, 0);
- NFSBUFCNTCHK(1);
+ NFSBUFCNTCHK();
lck_mtx_unlock(nfs_buf_mutex);
kauth_cred_unref(&fbp->nb_wcred);
}
/* if buf was NB_META, dump buffer */
- if (ISSET(fbp->nb_flags, NB_META) && fbp->nb_data)
- kfree(fbp->nb_data, fbp->nb_bufsize);
- FREE(fbp, M_TEMP);
+ if (ISSET(fbp->nb_flags, NB_META) && fbp->nb_data) {
+ kheap_free(KHEAP_DATA_BUFFERS, fbp->nb_data, fbp->nb_bufsize);
+ }
+ NFS_ZFREE(nfsbuf_zone, fbp);
}
-
}
/*
void
nfs_buf_remfree(struct nfsbuf *bp)
{
- if (bp->nb_free.tqe_next == NFSNOLIST)
+ if (bp->nb_free.tqe_next == NFSNOLIST) {
panic("nfsbuf not on free list");
+ }
if (ISSET(bp->nb_flags, NB_DELWRI)) {
nfsbufdelwricnt--;
TAILQ_REMOVE(&nfsbufdelwri, bp, nb_free);
TAILQ_REMOVE(&nfsbuffree, bp, nb_free);
}
bp->nb_free.tqe_next = NFSNOLIST;
- NFSBUFCNTCHK(1);
+ NFSBUFCNTCHK();
}
/*
* check for existence of nfsbuf in cache
*/
boolean_t
-nfs_buf_is_incore(vnode_t vp, daddr64_t blkno)
+nfs_buf_is_incore(nfsnode_t np, daddr64_t blkno)
{
boolean_t rv;
lck_mtx_lock(nfs_buf_mutex);
- if (nfs_buf_incore(vp, blkno))
+ if (nfs_buf_incore(np, blkno)) {
rv = TRUE;
- else
+ } else {
rv = FALSE;
+ }
lck_mtx_unlock(nfs_buf_mutex);
- return (rv);
+ return rv;
}
/*
* return incore buffer (must be called with nfs_buf_mutex held)
*/
struct nfsbuf *
-nfs_buf_incore(vnode_t vp, daddr64_t blkno)
+nfs_buf_incore(nfsnode_t np, daddr64_t blkno)
{
/* Search hash chain */
- struct nfsbuf * bp = NFSBUFHASH(VTONFS(vp), blkno)->lh_first;
- for (; bp != NULL; bp = bp->nb_hash.le_next)
- if (bp->nb_lblkno == blkno && bp->nb_vp == vp) {
+ struct nfsbuf * bp = NFSBUFHASH(np, blkno)->lh_first;
+ for (; bp != NULL; bp = bp->nb_hash.le_next) {
+ if ((bp->nb_lblkno == blkno) && (bp->nb_np == np)) {
if (!ISSET(bp->nb_flags, NB_INVAL)) {
- FSDBG(547, bp, blkno, bp->nb_flags, bp->nb_vp);
- return (bp);
+ FSDBG(547, bp, blkno, bp->nb_flags, bp->nb_np);
+ return bp;
}
}
- return (NULL);
+ }
+ return NULL;
}
/*
int
nfs_buf_page_inval(vnode_t vp, off_t offset)
{
+ struct nfsmount *nmp = VTONMP(vp);
struct nfsbuf *bp;
int error = 0;
+ if (nfs_mount_gone(nmp)) {
+ return ENXIO;
+ }
+
lck_mtx_lock(nfs_buf_mutex);
- bp = nfs_buf_incore(vp, ubc_offtoblk(vp, offset));
- if (!bp)
+ bp = nfs_buf_incore(VTONFS(vp), (daddr64_t)(offset / nmp->nm_biosize));
+ if (!bp) {
goto out;
+ }
FSDBG(325, bp, bp->nb_flags, bp->nb_dirtyoff, bp->nb_dirtyend);
if (ISSET(bp->nb_lflags, NBL_BUSY)) {
error = EBUSY;
* If it does, we can't let the pager drop the page.
*/
if (bp->nb_dirtyend > 0) {
- int start = offset - NBOFF(bp);
- if (bp->nb_dirtyend <= start ||
- bp->nb_dirtyoff >= (start + PAGE_SIZE))
- error = 0;
- else
+ off_t start = offset - NBOFF(bp);
+ if ((bp->nb_dirtyend > start) &&
+ (bp->nb_dirtyoff < (start + PAGE_SIZE))) {
+ /*
+ * Before returning the bad news, move the
+ * buffer to the start of the delwri list and
+ * give the list a push to try to flush the
+ * buffer out.
+ */
error = EBUSY;
+ nfs_buf_remfree(bp);
+ TAILQ_INSERT_HEAD(&nfsbufdelwri, bp, nb_free);
+ nfsbufdelwricnt++;
+ nfs_buf_delwri_push(1);
+ }
}
out:
lck_mtx_unlock(nfs_buf_mutex);
- return (error);
+ return error;
}
/*
upl_t upl;
int upl_flags;
- if (ISSET(bp->nb_flags, NB_PAGELIST))
- return (0);
+ if (ISSET(bp->nb_flags, NB_PAGELIST)) {
+ return 0;
+ }
upl_flags = UPL_PRECIOUS;
- if (! ISSET(bp->nb_flags, NB_READ)) {
+ if (!ISSET(bp->nb_flags, NB_READ)) {
/*
* We're doing a "write", so we intend to modify
* the pages we're gathering.
*/
upl_flags |= UPL_WILL_MODIFY;
}
- kret = ubc_create_upl(bp->nb_vp, NBOFF(bp), bp->nb_bufsize,
- &upl, NULL, upl_flags);
+ kret = ubc_create_upl_kernel(NFSTOV(bp->nb_np), NBOFF(bp), bp->nb_bufsize,
+ &upl, NULL, upl_flags, VM_KERN_MEMORY_FILE);
if (kret == KERN_INVALID_ARGUMENT) {
/* vm object probably doesn't exist any more */
bp->nb_pagelist = NULL;
- return (EINVAL);
+ return EINVAL;
}
if (kret != KERN_SUCCESS) {
printf("nfs_buf_upl_setup(): failed to get pagelist %d\n", kret);
bp->nb_pagelist = NULL;
- return (EIO);
+ return EIO;
}
- FSDBG(538, bp, NBOFF(bp), bp->nb_bufsize, bp->nb_vp);
+ FSDBG(538, bp, NBOFF(bp), bp->nb_bufsize, bp->nb_np);
bp->nb_pagelist = upl;
SET(bp->nb_flags, NB_PAGELIST);
- return (0);
+ return 0;
}
/*
off_t filesize, fileoffset;
int i, npages;
- if (!ISSET(bp->nb_flags, NB_PAGELIST))
+ if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
return;
+ }
npages = round_page_32(bp->nb_bufsize) / PAGE_SIZE;
- filesize = ubc_getsize(bp->nb_vp);
+ filesize = ubc_getsize(NFSTOV(bp->nb_np));
fileoffset = NBOFF(bp);
- if (fileoffset < filesize)
+ if (fileoffset < filesize) {
SET(bp->nb_flags, NB_CACHE);
- else
+ } else {
CLR(bp->nb_flags, NB_CACHE);
+ }
pl = ubc_upl_pageinfo(bp->nb_pagelist);
- bp->nb_valid = bp->nb_dirty = 0;
+ NBPGS_ERASE(&bp->nb_valid);
+ NBPGS_ERASE(&bp->nb_dirty);
- for (i=0; i < npages; i++, fileoffset += PAGE_SIZE_64) {
+ for (i = 0; i < npages; i++, fileoffset += PAGE_SIZE_64) {
/* anything beyond the end of the file is not valid or dirty */
- if (fileoffset >= filesize)
+ if (fileoffset >= filesize) {
break;
+ }
if (!upl_valid_page(pl, i)) {
CLR(bp->nb_flags, NB_CACHE);
continue;
}
- NBPGVALID_SET(bp,i);
+ NBPGVALID_SET(bp, i);
if (upl_dirty_page(pl, i)) {
NBPGDIRTY_SET(bp, i);
- if (!ISSET(bp->nb_flags, NB_WASDIRTY))
- SET(bp->nb_flags, NB_WASDIRTY);
}
}
fileoffset = NBOFF(bp);
if (ISSET(bp->nb_flags, NB_CACHE)) {
bp->nb_validoff = 0;
bp->nb_validend = bp->nb_bufsize;
- if (fileoffset + bp->nb_validend > filesize)
+ if (fileoffset + bp->nb_validend > filesize) {
bp->nb_validend = filesize - fileoffset;
+ }
} else {
bp->nb_validoff = bp->nb_validend = -1;
}
* make sure that a buffer is mapped
* (must NOT be called with nfs_buf_mutex held)
*/
-static int
+int
nfs_buf_map(struct nfsbuf *bp)
{
kern_return_t kret;
- if (bp->nb_data)
- return (0);
- if (!ISSET(bp->nb_flags, NB_PAGELIST))
- return (EINVAL);
+ if (bp->nb_data) {
+ return 0;
+ }
+ if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
+ return EINVAL;
+ }
- kret = ubc_upl_map(bp->nb_pagelist, (vm_address_t *)&(bp->nb_data));
- if (kret != KERN_SUCCESS)
+ kret = ubc_upl_map(bp->nb_pagelist, (vm_offset_t *)&(bp->nb_data));
+ if (kret != KERN_SUCCESS) {
panic("nfs_buf_map: ubc_upl_map() failed with (%d)", kret);
- if (bp->nb_data == 0)
+ }
+ if (bp->nb_data == 0) {
panic("ubc_upl_map mapped 0");
- FSDBG(540, bp, bp->nb_flags, NBOFF(bp), bp->nb_data);
- return (0);
-}
-
-/*
- * check range of pages in nfsbuf's UPL for validity
- */
-static int
-nfs_buf_upl_valid_range(struct nfsbuf *bp, int off, int size)
-{
- off_t fileoffset, filesize;
- int pg, lastpg;
- upl_page_info_t *pl;
-
- if (!ISSET(bp->nb_flags, NB_PAGELIST))
- return (0);
- pl = ubc_upl_pageinfo(bp->nb_pagelist);
-
- size += off & PAGE_MASK;
- off &= ~PAGE_MASK;
- fileoffset = NBOFF(bp);
- filesize = VTONFS(bp->nb_vp)->n_size;
- if ((fileoffset + off + size) > filesize)
- size = filesize - (fileoffset + off);
-
- pg = off/PAGE_SIZE;
- lastpg = (off + size - 1)/PAGE_SIZE;
- while (pg <= lastpg) {
- if (!upl_valid_page(pl, pg))
- return (0);
- pg++;
}
- return (1);
+ FSDBG(540, bp, bp->nb_flags, NBOFF(bp), bp->nb_data);
+ return 0;
}
/*
* here as we extend the valid range through all of the
* contiguous valid pages.
*/
-static void
-nfs_buf_normalize_valid_range(struct nfsnode *np, struct nfsbuf *bp)
+void
+nfs_buf_normalize_valid_range(nfsnode_t np, struct nfsbuf *bp)
{
- int pg, npg;
+ off_t pg, npg;
/* pull validoff back to start of contiguous valid page range */
- pg = bp->nb_validoff/PAGE_SIZE;
- while (pg >= 0 && NBPGVALID(bp,pg))
+ pg = bp->nb_validoff / PAGE_SIZE;
+ while (pg >= 0 && NBPGVALID(bp, pg)) {
pg--;
- bp->nb_validoff = (pg+1) * PAGE_SIZE;
+ }
+ bp->nb_validoff = (pg + 1) * PAGE_SIZE;
/* push validend forward to end of contiguous valid page range */
- npg = bp->nb_bufsize/PAGE_SIZE;
- pg = bp->nb_validend/PAGE_SIZE;
- while (pg < npg && NBPGVALID(bp,pg))
+ npg = bp->nb_bufsize / PAGE_SIZE;
+ pg = bp->nb_validend / PAGE_SIZE;
+ while (pg < npg && NBPGVALID(bp, pg)) {
pg++;
+ }
bp->nb_validend = pg * PAGE_SIZE;
/* clip to EOF */
- if (NBOFF(bp) + bp->nb_validend > (off_t)np->n_size)
+ if (NBOFF(bp) + bp->nb_validend > (off_t)np->n_size) {
bp->nb_validend = np->n_size % bp->nb_bufsize;
+ }
}
/*
- * try to push out some delayed/uncommitted writes
- * ("locked" indicates whether nfs_buf_mutex is already held)
+ * process some entries on the delayed write queue
+ * (must be called with nfs_buf_mutex held)
*/
-static void
-nfs_buf_delwri_push(int locked)
+void
+nfs_buf_delwri_service(void)
{
struct nfsbuf *bp;
- int i, error;
-
- if (TAILQ_EMPTY(&nfsbufdelwri))
- return;
+ nfsnode_t np;
+ int error, i = 0;
- /* first try to tell the nfsiods to do it */
- if (nfs_asyncio(NULL, NULL) == 0)
- return;
-
- /* otherwise, try to do some of the work ourselves */
- i = 0;
- if (!locked)
- lck_mtx_lock(nfs_buf_mutex);
while (i < 8 && (bp = TAILQ_FIRST(&nfsbufdelwri)) != NULL) {
- struct nfsnode *np = VTONFS(bp->nb_vp);
+ np = bp->nb_np;
nfs_buf_remfree(bp);
nfs_buf_refget(bp);
- while ((error = nfs_buf_acquire(bp, 0, 0, 0)) == EAGAIN);
+ while ((error = nfs_buf_acquire(bp, 0, 0, 0)) == EAGAIN) {
+ ;
+ }
nfs_buf_refrele(bp);
- if (error)
+ if (error) {
break;
- if (!bp->nb_vp) {
+ }
+ if (!bp->nb_np) {
/* buffer is no longer valid */
nfs_buf_drop(bp);
continue;
}
- if (ISSET(bp->nb_flags, NB_NEEDCOMMIT))
+ if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
nfs_buf_check_write_verifier(np, bp);
+ }
if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
/* put buffer at end of delwri list */
TAILQ_INSERT_TAIL(&nfsbufdelwri, bp, nb_free);
nfsbufdelwricnt++;
nfs_buf_drop(bp);
lck_mtx_unlock(nfs_buf_mutex);
- nfs_flushcommits(np->n_vnode, NULL, 1);
+ nfs_flushcommits(np, 1);
} else {
SET(bp->nb_flags, NB_ASYNC);
lck_mtx_unlock(nfs_buf_mutex);
i++;
lck_mtx_lock(nfs_buf_mutex);
}
- if (!locked)
+}
+
+/*
+ * thread to service the delayed write queue when asked
+ */
+void
+nfs_buf_delwri_thread(__unused void *arg, __unused wait_result_t wr)
+{
+ struct timespec ts = { .tv_sec = 30, .tv_nsec = 0 };
+ int error = 0;
+
+ lck_mtx_lock(nfs_buf_mutex);
+ while (!error) {
+ nfs_buf_delwri_service();
+ error = msleep(&nfsbufdelwrithd, nfs_buf_mutex, 0, "nfsbufdelwri", &ts);
+ }
+ nfsbufdelwrithd = NULL;
+ lck_mtx_unlock(nfs_buf_mutex);
+ thread_terminate(nfsbufdelwrithd);
+}
+
+/*
+ * try to push out some delayed/uncommitted writes
+ * ("locked" indicates whether nfs_buf_mutex is already held)
+ */
+void
+nfs_buf_delwri_push(int locked)
+{
+ if (TAILQ_EMPTY(&nfsbufdelwri)) {
+ return;
+ }
+ if (!locked) {
+ lck_mtx_lock(nfs_buf_mutex);
+ }
+ /* wake up the delayed write service thread */
+ if (nfsbufdelwrithd) {
+ wakeup(&nfsbufdelwrithd);
+ } else if (kernel_thread_start(nfs_buf_delwri_thread, NULL, &nfsbufdelwrithd) == KERN_SUCCESS) {
+ thread_deallocate(nfsbufdelwrithd);
+ }
+ /* otherwise, try to do some of the work ourselves */
+ if (!nfsbufdelwrithd) {
+ nfs_buf_delwri_service();
+ }
+ if (!locked) {
lck_mtx_unlock(nfs_buf_mutex);
+ }
}
/*
*/
int
nfs_buf_get(
- vnode_t vp,
+ nfsnode_t np,
daddr64_t blkno,
- int size,
- proc_t p,
+ uint32_t size,
+ thread_t thd,
int flags,
struct nfsbuf **bpp)
{
- struct nfsnode *np = VTONFS(vp);
- struct nfsmount *nmp = VFSTONFS(vnode_mount(vp));
+ vnode_t vp = NFSTOV(np);
+ struct nfsmount *nmp = VTONMP(vp);
struct nfsbuf *bp;
- int biosize, bufsize;
+ uint32_t bufsize;
int slpflag = PCATCH;
int operation = (flags & NBLK_OPMASK);
int error = 0;
struct timespec ts;
- FSDBG_TOP(541, vp, blkno, size, flags);
+ FSDBG_TOP(541, np, blkno, size, flags);
*bpp = NULL;
bufsize = size;
- if (bufsize > NFS_MAXBSIZE)
+ if (bufsize > NFS_MAXBSIZE) {
panic("nfs_buf_get: buffer larger than NFS_MAXBSIZE requested");
+ }
- if (!nmp) {
- FSDBG_BOT(541, vp, blkno, 0, ENXIO);
- return (ENXIO);
+ if (nfs_mount_gone(nmp)) {
+ FSDBG_BOT(541, np, blkno, 0, ENXIO);
+ return ENXIO;
}
- biosize = nmp->nm_biosize;
- if (UBCINVALID(vp) || !UBCINFOEXISTS(vp)) {
+ if (!UBCINFOEXISTS(vp)) {
operation = NBLK_META;
- } else if (bufsize < biosize) {
+ } else if (bufsize < (uint32_t)nmp->nm_biosize) {
/* reg files should always have biosize blocks */
- bufsize = biosize;
+ bufsize = nmp->nm_biosize;
}
/* if NBLK_WRITE, check for too many delayed/uncommitted writes */
- if ((operation == NBLK_WRITE) && (nfs_nbdwrite > ((nfsbufcnt*3)/4))) {
- FSDBG_TOP(542, vp, blkno, nfs_nbdwrite, ((nfsbufcnt*3)/4));
+ if ((operation == NBLK_WRITE) && (nfs_nbdwrite > NFS_A_LOT_OF_DELAYED_WRITES)) {
+ FSDBG_TOP(542, np, blkno, nfs_nbdwrite, NFS_A_LOT_OF_DELAYED_WRITES);
/* poke the delwri list */
nfs_buf_delwri_push(0);
/* sleep to let other threads run... */
tsleep(&nfs_nbdwrite, PCATCH, "nfs_nbdwrite", 1);
- FSDBG_BOT(542, vp, blkno, nfs_nbdwrite, ((nfsbufcnt*3)/4));
+ FSDBG_BOT(542, np, blkno, nfs_nbdwrite, NFS_A_LOT_OF_DELAYED_WRITES);
}
loop:
lck_mtx_lock(nfs_buf_mutex);
+ /* wait for any buffer invalidation/flushing to complete */
+ while (np->n_bflag & NBINVALINPROG) {
+ np->n_bflag |= NBINVALWANT;
+ ts.tv_sec = 2;
+ ts.tv_nsec = 0;
+ msleep(&np->n_bflag, nfs_buf_mutex, slpflag, "nfs_buf_get_invalwait", &ts);
+ if ((error = nfs_sigintr(VTONMP(vp), NULL, thd, 0))) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ FSDBG_BOT(541, np, blkno, 0, error);
+ return error;
+ }
+ if (np->n_bflag & NBINVALINPROG) {
+ slpflag = 0;
+ }
+ }
+
/* check for existence of nfsbuf in cache */
- if ((bp = nfs_buf_incore(vp, blkno))) {
+ if ((bp = nfs_buf_incore(np, blkno))) {
/* if busy, set wanted and wait */
if (ISSET(bp->nb_lflags, NBL_BUSY)) {
if (flags & NBLK_NOWAIT) {
lck_mtx_unlock(nfs_buf_mutex);
- FSDBG_BOT(541, vp, blkno, bp, 0xbcbcbcbc);
- return (0);
+ FSDBG_BOT(541, np, blkno, bp, 0xbcbcbcbc);
+ return 0;
}
- FSDBG_TOP(543, vp, blkno, bp, bp->nb_flags);
+ FSDBG_TOP(543, np, blkno, bp, bp->nb_flags);
SET(bp->nb_lflags, NBL_WANTED);
ts.tv_sec = 2;
ts.tv_nsec = 0;
- msleep(bp, nfs_buf_mutex, slpflag|(PRIBIO+1)|PDROP,
- "nfsbufget", (slpflag == PCATCH) ? 0 : &ts);
+ msleep(bp, nfs_buf_mutex, slpflag | (PRIBIO + 1) | PDROP,
+ "nfsbufget", (slpflag == PCATCH) ? NULL : &ts);
slpflag = 0;
- FSDBG_BOT(543, vp, blkno, bp, bp->nb_flags);
- if ((error = nfs_sigintr(VFSTONFS(vnode_mount(vp)), NULL, p))) {
- FSDBG_BOT(541, vp, blkno, 0, error);
- return (error);
+ FSDBG_BOT(543, np, blkno, bp, bp->nb_flags);
+ if ((error = nfs_sigintr(VTONMP(vp), NULL, thd, 0))) {
+ FSDBG_BOT(541, np, blkno, 0, error);
+ return error;
}
goto loop;
}
- if (bp->nb_bufsize != bufsize)
+ if (bp->nb_bufsize != bufsize) {
panic("nfsbuf size mismatch");
+ }
SET(bp->nb_lflags, NBL_BUSY);
SET(bp->nb_flags, NB_CACHE);
nfs_buf_remfree(bp);
/* additional paranoia: */
- if (ISSET(bp->nb_flags, NB_PAGELIST))
+ if (ISSET(bp->nb_flags, NB_PAGELIST)) {
panic("pagelist buffer was not busy");
+ }
goto buffer_setup;
}
if (flags & NBLK_ONLYVALID) {
lck_mtx_unlock(nfs_buf_mutex);
- FSDBG_BOT(541, vp, blkno, 0, 0x0000cace);
- return (0);
+ FSDBG_BOT(541, np, blkno, 0, 0x0000cace);
+ return 0;
}
/*
/* if the next LRU or META buffer is invalid or stale, use it */
lrubp = TAILQ_FIRST(&nfsbuffree);
if (lrubp && (!NBUFSTAMPVALID(lrubp) ||
- ((lrubp->nb_timestamp + NFSBUF_LRU_STALE) < now.tv_sec)))
+ ((lrubp->nb_timestamp + NFSBUF_LRU_STALE) < now.tv_sec))) {
bp = lrubp;
+ }
metabp = TAILQ_FIRST(&nfsbuffreemeta);
if (!bp && metabp && (!NBUFSTAMPVALID(metabp) ||
- ((metabp->nb_timestamp + NFSBUF_META_STALE) < now.tv_sec)))
+ ((metabp->nb_timestamp + NFSBUF_META_STALE) < now.tv_sec))) {
bp = metabp;
+ }
if (!bp && (nfsbufcnt >= nfsbufmax)) {
/* we've already allocated all bufs, so */
/* choose the buffer that'll go stale first */
- if (!metabp)
+ if (!metabp) {
bp = lrubp;
- else if (!lrubp)
+ } else if (!lrubp) {
bp = metabp;
- else {
- int32_t lru_stale_time, meta_stale_time;
+ } else {
+ time_t lru_stale_time, meta_stale_time;
lru_stale_time = lrubp->nb_timestamp + NFSBUF_LRU_STALE;
meta_stale_time = metabp->nb_timestamp + NFSBUF_META_STALE;
- if (lru_stale_time <= meta_stale_time)
+ if (lru_stale_time <= meta_stale_time) {
bp = lrubp;
- else
+ } else {
bp = metabp;
+ }
}
}
}
if (bp) {
/* we have a buffer to reuse */
- FSDBG(544, vp, blkno, bp, bp->nb_flags);
+ FSDBG(544, np, blkno, bp, bp->nb_flags);
nfs_buf_remfree(bp);
- if (ISSET(bp->nb_flags, NB_DELWRI))
+ if (ISSET(bp->nb_flags, NB_DELWRI)) {
panic("nfs_buf_get: delwri");
+ }
SET(bp->nb_lflags, NBL_BUSY);
- /* disassociate buffer from previous vnode */
- if (bp->nb_vp) {
+ /* disassociate buffer from previous nfsnode */
+ if (bp->nb_np) {
if (bp->nb_vnbufs.le_next != NFSNOLIST) {
LIST_REMOVE(bp, nb_vnbufs);
bp->nb_vnbufs.le_next = NFSNOLIST;
}
- bp->nb_vp = NULL;
+ bp->nb_np = NULL;
}
LIST_REMOVE(bp, nb_hash);
/* nuke any creds we're holding */
}
/* if buf will no longer be NB_META, dump old buffer */
if (operation == NBLK_META) {
- if (!ISSET(bp->nb_flags, NB_META))
+ if (!ISSET(bp->nb_flags, NB_META)) {
nfsbufmetacnt++;
+ }
} else if (ISSET(bp->nb_flags, NB_META)) {
if (bp->nb_data) {
- kfree(bp->nb_data, bp->nb_bufsize);
+ kheap_free(KHEAP_DATA_BUFFERS, bp->nb_data, bp->nb_bufsize);
bp->nb_data = NULL;
}
nfsbufmetacnt--;
bp->nb_error = 0;
bp->nb_validoff = bp->nb_validend = -1;
bp->nb_dirtyoff = bp->nb_dirtyend = 0;
- bp->nb_valid = 0;
- bp->nb_dirty = 0;
+ NBPGS_ERASE(&bp->nb_valid);
+ NBPGS_ERASE(&bp->nb_dirty);
bp->nb_verf = 0;
} else {
/* no buffer to reuse */
if ((nfsbufcnt < nfsbufmax) &&
((operation != NBLK_META) || (nfsbufmetacnt < nfsbufmetamax))) {
/* just alloc a new one */
- MALLOC(bp, struct nfsbuf *, sizeof(struct nfsbuf), M_TEMP, M_WAITOK);
- if (!bp) {
- lck_mtx_unlock(nfs_buf_mutex);
- FSDBG_BOT(541, vp, blkno, 0, error);
- return (ENOMEM);
- }
+ bp = zalloc(nfsbuf_zone);
nfsbufcnt++;
- if (operation == NBLK_META)
+
+ /*
+ * If any excess bufs, make sure the timer
+ * is running to free them up later.
+ */
+ if (nfsbufcnt > nfsbufmin && !nfs_buf_timer_on) {
+ nfs_buf_timer_on = 1;
+ nfs_interval_timer_start(nfs_buf_timer_call,
+ NFSBUF_FREE_PERIOD * 1000);
+ }
+
+ if (operation == NBLK_META) {
nfsbufmetacnt++;
- NFSBUFCNTCHK(1);
+ }
+ NFSBUFCNTCHK();
/* init nfsbuf */
bzero(bp, sizeof(*bp));
+ os_ref_init(&bp->nb_refs, NULL);
+
bp->nb_free.tqe_next = NFSNOLIST;
bp->nb_validoff = bp->nb_validend = -1;
- FSDBG(545, vp, blkno, bp, 0);
+ FSDBG(545, np, blkno, bp, 0);
} else {
/* too many bufs... wait for buffers to free up */
- FSDBG_TOP(546, vp, blkno, nfsbufcnt, nfsbufmax);
+ FSDBG_TOP(546, np, blkno, nfsbufcnt, nfsbufmax);
/* poke the delwri list */
nfs_buf_delwri_push(1);
nfsneedbuffer = 1;
- msleep(&nfsneedbuffer, nfs_buf_mutex, PCATCH|PDROP,
- "nfsbufget", 0);
- FSDBG_BOT(546, vp, blkno, nfsbufcnt, nfsbufmax);
- if ((error = nfs_sigintr(VFSTONFS(vnode_mount(vp)), NULL, p))) {
- FSDBG_BOT(541, vp, blkno, 0, error);
- return (error);
+ msleep(&nfsneedbuffer, nfs_buf_mutex, PCATCH | PDROP, "nfsbufget", NULL);
+ FSDBG_BOT(546, np, blkno, nfsbufcnt, nfsbufmax);
+ if ((error = nfs_sigintr(VTONMP(vp), NULL, thd, 0))) {
+ FSDBG_BOT(541, np, blkno, 0, error);
+ return error;
}
goto loop;
}
}
- /* setup nfsbuf */
- bp->nb_lflags = NBL_BUSY;
+ /* set up nfsbuf */
+ SET(bp->nb_lflags, NBL_BUSY);
bp->nb_flags = 0;
bp->nb_lblkno = blkno;
/* insert buf in hash */
LIST_INSERT_HEAD(NFSBUFHASH(np, blkno), bp, nb_hash);
- /* associate buffer with new vnode */
- bp->nb_vp = vp;
+ /* associate buffer with new nfsnode */
+ bp->nb_np = np;
LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
buffer_setup:
case NBLK_META:
SET(bp->nb_flags, NB_META);
if ((bp->nb_bufsize != bufsize) && bp->nb_data) {
- kfree(bp->nb_data, bp->nb_bufsize);
+ kheap_free(KHEAP_DATA_BUFFERS, bp->nb_data, bp->nb_bufsize);
bp->nb_data = NULL;
bp->nb_validoff = bp->nb_validend = -1;
bp->nb_dirtyoff = bp->nb_dirtyend = 0;
- bp->nb_valid = 0;
- bp->nb_dirty = 0;
+ NBPGS_ERASE(&bp->nb_valid);
+ NBPGS_ERASE(&bp->nb_dirty);
CLR(bp->nb_flags, NB_CACHE);
}
- if (!bp->nb_data)
- bp->nb_data = kalloc(bufsize);
+ if (!bp->nb_data) {
+ bp->nb_data = kheap_alloc(KHEAP_DATA_BUFFERS,
+ bufsize, Z_WAITOK);
+ }
if (!bp->nb_data) {
/* Ack! couldn't allocate the data buffer! */
- /* cleanup buffer and return error */
+ /* clean up buffer and return error */
lck_mtx_lock(nfs_buf_mutex);
LIST_REMOVE(bp, nb_vnbufs);
bp->nb_vnbufs.le_next = NFSNOLIST;
- bp->nb_vp = NULL;
+ bp->nb_np = NULL;
/* invalidate usage timestamp to allow immediate freeing */
NBUFSTAMPINVALIDATE(bp);
- if (bp->nb_free.tqe_next != NFSNOLIST)
+ if (bp->nb_free.tqe_next != NFSNOLIST) {
panic("nfsbuf on freelist");
+ }
TAILQ_INSERT_HEAD(&nfsbuffree, bp, nb_free);
nfsbuffreecnt++;
lck_mtx_unlock(nfs_buf_mutex);
- FSDBG_BOT(541, vp, blkno, 0xb00, ENOMEM);
- return (ENOMEM);
+ FSDBG_BOT(541, np, blkno, 0xb00, ENOMEM);
+ return ENOMEM;
}
bp->nb_bufsize = bufsize;
break;
} else {
CLR(bp->nb_flags, NB_READ);
}
- if (bufsize < PAGE_SIZE)
+ if (bufsize < PAGE_SIZE) {
bufsize = PAGE_SIZE;
+ }
bp->nb_bufsize = bufsize;
bp->nb_validoff = bp->nb_validend = -1;
if (UBCINFOEXISTS(vp)) {
- /* setup upl */
+ /* set up upl */
if (nfs_buf_upl_setup(bp)) {
/* unable to create upl */
/* vm object must no longer exist */
- /* cleanup buffer and return error */
+ /* clean up buffer and return error */
lck_mtx_lock(nfs_buf_mutex);
LIST_REMOVE(bp, nb_vnbufs);
bp->nb_vnbufs.le_next = NFSNOLIST;
- bp->nb_vp = NULL;
+ bp->nb_np = NULL;
/* invalidate usage timestamp to allow immediate freeing */
NBUFSTAMPINVALIDATE(bp);
- if (bp->nb_free.tqe_next != NFSNOLIST)
+ if (bp->nb_free.tqe_next != NFSNOLIST) {
panic("nfsbuf on freelist");
+ }
TAILQ_INSERT_HEAD(&nfsbuffree, bp, nb_free);
nfsbuffreecnt++;
lck_mtx_unlock(nfs_buf_mutex);
- FSDBG_BOT(541, vp, blkno, 0x2bc, EIO);
- return (EIO);
+ FSDBG_BOT(541, np, blkno, 0x2bc, EIO);
+ return EIO;
}
nfs_buf_upl_check(bp);
}
*bpp = bp;
- FSDBG_BOT(541, vp, blkno, bp, bp->nb_flags);
+ FSDBG_BOT(541, np, blkno, bp, bp->nb_flags);
- return (0);
+ return 0;
}
void
nfs_buf_release(struct nfsbuf *bp, int freeup)
{
- vnode_t vp = bp->nb_vp;
+ nfsnode_t np = bp->nb_np;
+ vnode_t vp;
struct timeval now;
int wakeup_needbuffer, wakeup_buffer, wakeup_nbdwrite;
FSDBG(548, bp->nb_validoff, bp->nb_validend, bp->nb_dirtyoff, bp->nb_dirtyend);
FSDBG(548, bp->nb_valid, 0, bp->nb_dirty, 0);
- if (UBCINFOEXISTS(vp) && bp->nb_bufsize) {
- int upl_flags;
+ vp = np ? NFSTOV(np) : NULL;
+ if (vp && UBCINFOEXISTS(vp) && bp->nb_bufsize) {
+ int upl_flags, rv;
upl_t upl;
- int i, rv;
+ uint32_t i;
if (!ISSET(bp->nb_flags, NB_PAGELIST) && !ISSET(bp->nb_flags, NB_INVAL)) {
rv = nfs_buf_upl_setup(bp);
- if (rv)
+ if (rv) {
printf("nfs_buf_release: upl create failed %d\n", rv);
- else
+ } else {
nfs_buf_upl_check(bp);
+ }
}
upl = bp->nb_pagelist;
- if (!upl)
+ if (!upl) {
goto pagelist_cleanup_done;
+ }
if (bp->nb_data) {
- if (ubc_upl_unmap(upl) != KERN_SUCCESS)
+ if (ubc_upl_unmap(upl) != KERN_SUCCESS) {
panic("ubc_upl_unmap failed");
+ }
bp->nb_data = NULL;
}
- /* abort pages if error, invalid, or non-needcommit nocache */
- if ((bp->nb_flags & (NB_ERROR | NB_INVAL)) ||
- ((bp->nb_flags & NB_NOCACHE) && !(bp->nb_flags & (NB_NEEDCOMMIT | NB_DELWRI)))) {
- if (bp->nb_flags & (NB_READ | NB_INVAL | NB_NOCACHE))
+ /*
+ * Abort the pages on error or: if this is an invalid or
+ * non-needcommit nocache buffer AND no pages are dirty.
+ */
+ if (ISSET(bp->nb_flags, NB_ERROR) || (!nfs_buf_pgs_is_set(&bp->nb_dirty) && (ISSET(bp->nb_flags, NB_INVAL) ||
+ (ISSET(bp->nb_flags, NB_NOCACHE) && !ISSET(bp->nb_flags, (NB_NEEDCOMMIT | NB_DELWRI)))))) {
+ if (ISSET(bp->nb_flags, (NB_READ | NB_INVAL | NB_NOCACHE))) {
upl_flags = UPL_ABORT_DUMP_PAGES;
- else
+ } else {
upl_flags = 0;
+ }
ubc_upl_abort(upl, upl_flags);
goto pagelist_cleanup_done;
}
- for (i=0; i <= (bp->nb_bufsize - 1)/PAGE_SIZE; i++) {
- if (!NBPGVALID(bp,i))
+ for (i = 0; i <= (bp->nb_bufsize - 1) / PAGE_SIZE; i++) {
+ if (!NBPGVALID(bp, i)) {
ubc_upl_abort_range(upl,
- i*PAGE_SIZE, PAGE_SIZE,
- UPL_ABORT_DUMP_PAGES |
- UPL_ABORT_FREE_ON_EMPTY);
- else {
- if (NBPGDIRTY(bp,i))
+ i * PAGE_SIZE, PAGE_SIZE,
+ UPL_ABORT_DUMP_PAGES |
+ UPL_ABORT_FREE_ON_EMPTY);
+ } else {
+ if (NBPGDIRTY(bp, i)) {
upl_flags = UPL_COMMIT_SET_DIRTY;
- else
+ } else {
upl_flags = UPL_COMMIT_CLEAR_DIRTY;
+ }
+
+ if (!ISSET(bp->nb_flags, (NB_NEEDCOMMIT | NB_DELWRI))) {
+ upl_flags |= UPL_COMMIT_CLEAR_PRECIOUS;
+ }
+
ubc_upl_commit_range(upl,
- i*PAGE_SIZE, PAGE_SIZE,
- upl_flags |
- UPL_COMMIT_INACTIVATE |
- UPL_COMMIT_FREE_ON_EMPTY);
+ i * PAGE_SIZE, PAGE_SIZE,
+ upl_flags |
+ UPL_COMMIT_INACTIVATE |
+ UPL_COMMIT_FREE_ON_EMPTY);
}
}
pagelist_cleanup_done:
- /* was this the last buffer in the file? */
- if (NBOFF(bp) + bp->nb_bufsize > (off_t)(VTONFS(vp)->n_size)) {
- /* if so, invalidate all pages of last buffer past EOF */
+ /* invalidate any pages past EOF */
+ if (NBOFF(bp) + bp->nb_bufsize > (off_t)(np->n_size)) {
off_t start, end;
- start = trunc_page_64(VTONFS(vp)->n_size) + PAGE_SIZE_64;
+ start = trunc_page_64(np->n_size) + PAGE_SIZE_64;
end = trunc_page_64(NBOFF(bp) + bp->nb_bufsize);
+ if (start < NBOFF(bp)) {
+ start = NBOFF(bp);
+ }
if (end > start) {
- if (!(rv = ubc_sync_range(vp, start, end, UBC_INVALIDATE)))
- printf("nfs_buf_release(): ubc_sync_range failed!\n");
+ if ((rv = ubc_msync(vp, start, end, NULL, UBC_INVALIDATE))) {
+ printf("nfs_buf_release(): ubc_msync failed!, error %d\n", rv);
+ }
}
}
CLR(bp->nb_flags, NB_PAGELIST);
/* If it's non-needcommit nocache, or an error, mark it invalid. */
if (ISSET(bp->nb_flags, NB_ERROR) ||
- (ISSET(bp->nb_flags, NB_NOCACHE) && !ISSET(bp->nb_flags, (NB_NEEDCOMMIT | NB_DELWRI))))
+ (ISSET(bp->nb_flags, NB_NOCACHE) && !ISSET(bp->nb_flags, (NB_NEEDCOMMIT | NB_DELWRI)))) {
SET(bp->nb_flags, NB_INVAL);
+ }
if ((bp->nb_bufsize <= 0) || ISSET(bp->nb_flags, NB_INVAL)) {
- /* If it's invalid or empty, dissociate it from its vnode */
+ /* If it's invalid or empty, dissociate it from its nfsnode */
if (bp->nb_vnbufs.le_next != NFSNOLIST) {
LIST_REMOVE(bp, nb_vnbufs);
bp->nb_vnbufs.le_next = NFSNOLIST;
}
- bp->nb_vp = NULL;
+ bp->nb_np = NULL;
/* if this was a delayed write, wakeup anyone */
/* waiting for delayed writes to complete */
if (ISSET(bp->nb_flags, NB_DELWRI)) {
CLR(bp->nb_flags, NB_DELWRI);
- OSAddAtomic(-1, (SInt32*)&nfs_nbdwrite);
- NFSBUFCNTCHK(1);
+ nfs_nbdwrite--;
+ NFSBUFCNTCHK();
wakeup_nbdwrite = 1;
}
/* invalidate usage timestamp to allow immediate freeing */
NBUFSTAMPINVALIDATE(bp);
/* put buffer at head of free list */
- if (bp->nb_free.tqe_next != NFSNOLIST)
+ if (bp->nb_free.tqe_next != NFSNOLIST) {
panic("nfsbuf on freelist");
+ }
SET(bp->nb_flags, NB_INVAL);
if (ISSET(bp->nb_flags, NB_META)) {
TAILQ_INSERT_HEAD(&nfsbuffreemeta, bp, nb_free);
}
} else if (ISSET(bp->nb_flags, NB_DELWRI)) {
/* put buffer at end of delwri list */
- if (bp->nb_free.tqe_next != NFSNOLIST)
+ if (bp->nb_free.tqe_next != NFSNOLIST) {
panic("nfsbuf on freelist");
+ }
TAILQ_INSERT_TAIL(&nfsbufdelwri, bp, nb_free);
nfsbufdelwricnt++;
freeup = 0;
microuptime(&now);
bp->nb_timestamp = now.tv_sec;
/* put buffer at end of free list */
- if (bp->nb_free.tqe_next != NFSNOLIST)
+ if (bp->nb_free.tqe_next != NFSNOLIST) {
panic("nfsbuf on freelist");
+ }
if (ISSET(bp->nb_flags, NB_META)) {
TAILQ_INSERT_TAIL(&nfsbuffreemeta, bp, nb_free);
nfsbuffreemetacnt++;
}
}
- NFSBUFCNTCHK(1);
+ NFSBUFCNTCHK();
/* Unlock the buffer. */
- CLR(bp->nb_flags, (NB_ASYNC | NB_STABLE | NB_IOD));
+ CLR(bp->nb_flags, (NB_ASYNC | NB_STABLE));
CLR(bp->nb_lflags, NBL_BUSY);
FSDBG_BOT(548, bp, NBOFF(bp), bp->nb_flags, bp->nb_data);
lck_mtx_unlock(nfs_buf_mutex);
- if (wakeup_needbuffer)
+ if (wakeup_needbuffer) {
wakeup(&nfsneedbuffer);
- if (wakeup_buffer)
+ }
+ if (wakeup_buffer) {
wakeup(bp);
- if (wakeup_nbdwrite)
+ }
+ if (wakeup_nbdwrite) {
wakeup(&nfs_nbdwrite);
- if (freeup)
+ }
+ if (freeup) {
NFS_BUF_FREEUP();
+ }
}
/*
lck_mtx_lock(nfs_buf_mutex);
- while (!ISSET(bp->nb_flags, NB_DONE))
- msleep(bp, nfs_buf_mutex, PRIBIO + 1, "nfs_buf_iowait", 0);
+ while (!ISSET(bp->nb_flags, NB_DONE)) {
+ msleep(bp, nfs_buf_mutex, PRIBIO + 1, "nfs_buf_iowait", NULL);
+ }
lck_mtx_unlock(nfs_buf_mutex);
/* check for interruption of I/O, then errors. */
if (ISSET(bp->nb_flags, NB_EINTR)) {
CLR(bp->nb_flags, NB_EINTR);
- return (EINTR);
- } else if (ISSET(bp->nb_flags, NB_ERROR))
- return (bp->nb_error ? bp->nb_error : EIO);
- return (0);
+ return EINTR;
+ } else if (ISSET(bp->nb_flags, NB_ERROR)) {
+ return bp->nb_error ? bp->nb_error : EIO;
+ }
+ return 0;
}
/*
void
nfs_buf_iodone(struct nfsbuf *bp)
{
-
FSDBG_TOP(550, bp, NBOFF(bp), bp->nb_flags, bp->nb_error);
- if (ISSET(bp->nb_flags, NB_DONE))
+ if (ISSET(bp->nb_flags, NB_DONE)) {
panic("nfs_buf_iodone already");
- /*
- * I/O was done, so don't believe
- * the DIRTY state from VM anymore
- */
- CLR(bp->nb_flags, NB_WASDIRTY);
+ }
if (!ISSET(bp->nb_flags, NB_READ)) {
CLR(bp->nb_flags, NB_WRITEINPROG);
* vnode_writedone() takes care of waking up
* any throttled write operations
*/
- vnode_writedone(bp->nb_vp);
+ vnode_writedone(NFSTOV(bp->nb_np));
+ nfs_node_lock_force(bp->nb_np);
+ bp->nb_np->n_numoutput--;
+ nfs_node_unlock(bp->nb_np);
}
- if (ISSET(bp->nb_flags, NB_ASYNC)) { /* if async, release it */
- SET(bp->nb_flags, NB_DONE); /* note that it's done */
+ if (ISSET(bp->nb_flags, NB_ASYNC)) { /* if async, release it */
+ SET(bp->nb_flags, NB_DONE); /* note that it's done */
nfs_buf_release(bp, 1);
- } else { /* or just wakeup the buffer */
- lck_mtx_lock(nfs_buf_mutex);
- SET(bp->nb_flags, NB_DONE); /* note that it's done */
+ } else { /* or just wakeup the buffer */
+ lck_mtx_lock(nfs_buf_mutex);
+ SET(bp->nb_flags, NB_DONE); /* note that it's done */
CLR(bp->nb_lflags, NBL_WANTED);
- lck_mtx_unlock(nfs_buf_mutex);
+ lck_mtx_unlock(nfs_buf_mutex);
wakeup(bp);
}
}
void
-nfs_buf_write_delayed(struct nfsbuf *bp, proc_t p)
+nfs_buf_write_delayed(struct nfsbuf *bp)
{
- vnode_t vp = bp->nb_vp;
+ nfsnode_t np = bp->nb_np;
FSDBG_TOP(551, bp, NBOFF(bp), bp->nb_flags, 0);
FSDBG(551, bp, bp->nb_dirtyoff, bp->nb_dirtyend, bp->nb_dirty);
/*
* If the block hasn't been seen before:
* (1) Mark it as having been seen,
- * (2) Charge for the write.
- * (3) Make sure it's on its vnode's correct block list,
+ * (2) Make sure it's on its node's correct block list,
*/
if (!ISSET(bp->nb_flags, NB_DELWRI)) {
SET(bp->nb_flags, NB_DELWRI);
- if (p && p->p_stats)
- p->p_stats->p_ru.ru_oublock++; /* XXX */
- OSAddAtomic(1, (SInt32*)&nfs_nbdwrite);
- NFSBUFCNTCHK(0);
/* move to dirty list */
lck_mtx_lock(nfs_buf_mutex);
- if (bp->nb_vnbufs.le_next != NFSNOLIST)
+ nfs_nbdwrite++;
+ NFSBUFCNTCHK();
+ if (bp->nb_vnbufs.le_next != NFSNOLIST) {
LIST_REMOVE(bp, nb_vnbufs);
- LIST_INSERT_HEAD(&VTONFS(vp)->n_dirtyblkhd, bp, nb_vnbufs);
+ }
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
lck_mtx_unlock(nfs_buf_mutex);
}
* If the vnode has "too many" write operations in progress
* wait for them to finish the IO
*/
- (void)vnode_waitforwrites(vp, VNODE_ASYNC_THROTTLE, 0, 0, "nfs_buf_write_delayed");
+ vnode_waitforwrites(NFSTOV(np), VNODE_ASYNC_THROTTLE, 0, 0, "nfs_buf_write_delayed");
+
+ /* the file is in a modified state, so make sure the flag's set */
+ nfs_node_lock_force(np);
+ np->n_flag |= NMODIFIED;
+ nfs_node_unlock(np);
/*
- * If we have too many delayed write buffers,
- * more than we can "safely" handle, just fall back to
- * doing the async write
+ * If we have too many delayed write buffers,
+ * just fall back to doing the async write.
*/
- if (nfs_nbdwrite < 0)
+ if (nfs_nbdwrite < 0) {
panic("nfs_buf_write_delayed: Negative nfs_nbdwrite");
-
- if (nfs_nbdwrite > ((nfsbufcnt/4)*3)) {
+ }
+ if (nfs_nbdwrite > NFS_A_LOT_OF_DELAYED_WRITES) {
/* issue async write */
SET(bp->nb_flags, NB_ASYNC);
nfs_buf_write(bp);
FSDBG_BOT(551, bp, NBOFF(bp), bp->nb_flags, bp->nb_error);
return;
}
-
+
/* Otherwise, the "write" is done, so mark and release the buffer. */
SET(bp->nb_flags, NB_DONE);
nfs_buf_release(bp, 1);
* the needcommit flag.
*/
void
-nfs_buf_check_write_verifier(struct nfsnode *np, struct nfsbuf *bp)
+nfs_buf_check_write_verifier(nfsnode_t np, struct nfsbuf *bp)
{
struct nfsmount *nmp;
- if (!ISSET(bp->nb_flags, NB_NEEDCOMMIT))
+ if (!ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
return;
+ }
- nmp = VFSTONFS(vnode_mount(NFSTOV(np)));
- if (!nmp || (bp->nb_verf == nmp->nm_verf))
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ return;
+ }
+ if (!ISSET(bp->nb_flags, NB_STALEWVERF) && (bp->nb_verf == nmp->nm_verf)) {
return;
+ }
- /* write verifier changed, clear commit flag */
- bp->nb_flags &= ~NB_NEEDCOMMIT;
+ /* write verifier changed, clear commit/wverf flags */
+ CLR(bp->nb_flags, (NB_NEEDCOMMIT | NB_STALEWVERF));
+ bp->nb_verf = 0;
+ nfs_node_lock_force(np);
np->n_needcommitcnt--;
CHECK_NEEDCOMMITCNT(np);
+ nfs_node_unlock(np);
}
/*
void
nfs_buf_refget(struct nfsbuf *bp)
{
- bp->nb_refs++;
+ os_ref_retain_locked(&bp->nb_refs);
}
/*
* release a reference on a buffer
void
nfs_buf_refrele(struct nfsbuf *bp)
{
- bp->nb_refs--;
+ (void) os_ref_release_locked(&bp->nb_refs);
}
/*
struct timespec ts;
if (ISSET(bp->nb_lflags, NBL_BUSY)) {
- /*
- * since the mutex_lock may block, the buffer
+ /*
+ * since the lck_mtx_lock may block, the buffer
* may become BUSY, so we need to recheck for
* a NOWAIT request
*/
- if (flags & NBAC_NOWAIT)
- return (EBUSY);
- SET(bp->nb_lflags, NBL_WANTED);
-
- ts.tv_sec = (slptimeo/100);
- /* the hz value is 100; which leads to 10ms */
- ts.tv_nsec = (slptimeo % 100) * 10 * NSEC_PER_USEC * 1000;
-
- error = msleep(bp, nfs_buf_mutex, slpflag | (PRIBIO + 1),
- "nfs_buf_acquire", &ts);
- if (error)
- return (error);
- return (EAGAIN);
- }
- if (flags & NBAC_REMOVE)
- nfs_buf_remfree(bp);
+ if (flags & NBAC_NOWAIT) {
+ return EBUSY;
+ }
+ SET(bp->nb_lflags, NBL_WANTED);
+
+ ts.tv_sec = (slptimeo / 100);
+ /* the hz value is 100; which leads to 10ms */
+ ts.tv_nsec = (slptimeo % 100) * 10 * NSEC_PER_USEC * 1000;
+
+ error = msleep(bp, nfs_buf_mutex, slpflag | (PRIBIO + 1),
+ "nfs_buf_acquire", &ts);
+ if (error) {
+ return error;
+ }
+ return EAGAIN;
+ }
+ if (flags & NBAC_REMOVE) {
+ nfs_buf_remfree(bp);
+ }
SET(bp->nb_lflags, NBL_BUSY);
- return (0);
+ return 0;
}
/*
{
int need_wakeup = 0;
- if (!ISSET(bp->nb_lflags, NBL_BUSY))
+ if (!ISSET(bp->nb_lflags, NBL_BUSY)) {
panic("nfs_buf_drop: buffer not busy!");
+ }
if (ISSET(bp->nb_lflags, NBL_WANTED)) {
- /*
- * delay the actual wakeup until after we
- * clear NBL_BUSY and we've dropped nfs_buf_mutex
- */
+ /* delay the actual wakeup until after we clear NBL_BUSY */
need_wakeup = 1;
}
/* Unlock the buffer. */
CLR(bp->nb_lflags, (NBL_BUSY | NBL_WANTED));
- if (need_wakeup)
- wakeup(bp);
+ if (need_wakeup) {
+ wakeup(bp);
+ }
}
/*
* (must be called with nfs_buf_mutex held)
*/
int
-nfs_buf_iterprepare(struct nfsnode *np, struct nfsbuflists *iterheadp, int flags)
+nfs_buf_iterprepare(nfsnode_t np, struct nfsbuflists *iterheadp, int flags)
{
struct nfsbuflists *listheadp;
- if (flags & NBI_DIRTY)
+ if (flags & NBI_DIRTY) {
listheadp = &np->n_dirtyblkhd;
- else
+ } else {
listheadp = &np->n_cleanblkhd;
+ }
if ((flags & NBI_NOWAIT) && (np->n_bufiterflags & NBI_ITER)) {
- LIST_INIT(iterheadp);
- return(EWOULDBLOCK);
+ LIST_INIT(iterheadp);
+ return EWOULDBLOCK;
}
- while (np->n_bufiterflags & NBI_ITER) {
- np->n_bufiterflags |= NBI_ITERWANT;
- msleep(&np->n_bufiterflags, nfs_buf_mutex, 0, "nfs_buf_iterprepare", 0);
+ while (np->n_bufiterflags & NBI_ITER) {
+ np->n_bufiterflags |= NBI_ITERWANT;
+ msleep(&np->n_bufiterflags, nfs_buf_mutex, 0, "nfs_buf_iterprepare", NULL);
}
if (LIST_EMPTY(listheadp)) {
- LIST_INIT(iterheadp);
- return(EINVAL);
+ LIST_INIT(iterheadp);
+ return EINVAL;
}
np->n_bufiterflags |= NBI_ITER;
iterheadp->lh_first = listheadp->lh_first;
- listheadp->lh_first->nb_vnbufs.le_prev = &iterheadp->lh_first;
+ listheadp->lh_first->nb_vnbufs.le_prev = &iterheadp->lh_first;
LIST_INIT(listheadp);
- return(0);
+ return 0;
}
/*
- * cleanup after iterating over an nfsnode's buffer list
+ * clean up after iterating over an nfsnode's buffer list
* this lock protects the queue manipulation
* (must be called with nfs_buf_mutex held)
*/
void
-nfs_buf_itercomplete(struct nfsnode *np, struct nfsbuflists *iterheadp, int flags)
+nfs_buf_itercomplete(nfsnode_t np, struct nfsbuflists *iterheadp, int flags)
{
struct nfsbuflists * listheadp;
struct nfsbuf *bp;
- if (flags & NBI_DIRTY)
+ if (flags & NBI_DIRTY) {
listheadp = &np->n_dirtyblkhd;
- else
+ } else {
listheadp = &np->n_cleanblkhd;
+ }
while (!LIST_EMPTY(iterheadp)) {
bp = LIST_FIRST(iterheadp);
/*
- * Vnode op for read using bio
- * Any similarity to readip() is purely coincidental
+ * Read an NFS buffer for a file.
*/
int
-nfs_bioread(
- vnode_t vp,
- struct uio *uio,
- __unused int ioflag,
- kauth_cred_t cred,
- proc_t p)
+nfs_buf_read(struct nfsbuf *bp)
{
- struct nfsnode *np = VTONFS(vp);
- int biosize;
- off_t diff;
- struct nfsbuf *bp = NULL, *rabp;
- struct nfs_vattr nvattr;
- struct nfsmount *nmp = VFSTONFS(vnode_mount(vp));
- daddr64_t lbn, rabn, lastrabn = -1, tlbn;
- int bufsize;
- int nra, error = 0, n = 0, on = 0;
- caddr_t dp;
- struct dirent *direntp = NULL;
- enum vtype vtype;
- int nocachereadahead = 0;
-
- FSDBG_TOP(514, vp, uio->uio_offset, uio_uio_resid(uio), ioflag);
-
-#if DIAGNOSTIC
- if (uio->uio_rw != UIO_READ)
- panic("nfs_read mode");
-#endif
- if (uio_uio_resid(uio) == 0) {
- FSDBG_BOT(514, vp, 0xd1e0001, 0, 0);
- return (0);
+ int error = 0;
+ nfsnode_t np;
+ thread_t thd;
+ kauth_cred_t cred;
+
+ np = bp->nb_np;
+ cred = bp->nb_rcred;
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
}
- if (uio->uio_offset < 0) {
- FSDBG_BOT(514, vp, 0xd1e0002, 0, EINVAL);
- return (EINVAL);
+ thd = ISSET(bp->nb_flags, NB_ASYNC) ? NULL : current_thread();
+
+ /* sanity checks */
+ if (!ISSET(bp->nb_flags, NB_READ)) {
+ panic("nfs_buf_read: !NB_READ");
+ }
+ if (ISSET(bp->nb_flags, NB_DONE)) {
+ CLR(bp->nb_flags, NB_DONE);
}
- biosize = nmp->nm_biosize;
- if ((nmp->nm_flag & NFSMNT_NFSV3) && !(nmp->nm_state & NFSSTA_GOTFSINFO))
- nfs_fsinfo(nmp, vp, cred, p);
+ NFS_BUF_MAP(bp);
- vtype = vnode_vtype(vp);
+ OSAddAtomic64(1, &nfsstats.read_bios);
+
+ error = nfs_buf_read_rpc(bp, thd, cred);
/*
- * For nfs, cache consistency can only be maintained approximately.
- * Although RFC1094 does not specify the criteria, the following is
- * believed to be compatible with the reference port.
- * For nfs:
- * If the file's modify time on the server has changed since the
- * last read rpc or you have written to the file,
- * you may have lost data cache consistency with the
- * server, so flush all of the file's data out of the cache.
- * Then force a getattr rpc to ensure that you have up to date
- * attributes.
- * NB: This implies that cache data can be read when up to
- * NFS_MAXATTRTIMEO seconds out of date. If you find that you need
- * current attributes this could be forced by setting calling
- * NATTRINVALIDATE() before the nfs_getattr() call.
+ * For async I/O, the callbacks will finish up the
+ * read. Otherwise, the read has already been finished.
*/
- if (np->n_flag & NNEEDINVALIDATE) {
- np->n_flag &= ~NNEEDINVALIDATE;
- nfs_vinvalbuf(vp, V_SAVE|V_IGNORE_WRITEERR, cred, p, 1);
- }
- if (np->n_flag & NMODIFIED) {
- if (vtype != VREG) {
- if (vtype != VDIR)
- panic("nfs: bioread, not dir");
- nfs_invaldir(vp);
- error = nfs_vinvalbuf(vp, V_SAVE, cred, p, 1);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0003, 0, error);
- return (error);
+
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ return error;
+}
+
+/*
+ * finish the reading of a buffer
+ */
+void
+nfs_buf_read_finish(struct nfsbuf *bp)
+{
+ nfsnode_t np = bp->nb_np;
+ struct nfsmount *nmp;
+
+ if (!ISSET(bp->nb_flags, NB_ERROR)) {
+ /* update valid range */
+ bp->nb_validoff = 0;
+ bp->nb_validend = bp->nb_endio;
+ if (bp->nb_endio < bp->nb_bufsize) {
+ /*
+ * The read may be short because we have unflushed writes
+ * that are extending the file size and the reads hit the
+ * (old) EOF on the server. So, just make sure nb_validend
+ * correctly tracks EOF.
+ * Note that the missing data should have already been zeroed
+ * in nfs_buf_read_rpc_finish().
+ */
+ off_t boff = NBOFF(bp);
+ if ((off_t)np->n_size >= (boff + bp->nb_bufsize)) {
+ bp->nb_validend = bp->nb_bufsize;
+ } else if ((off_t)np->n_size >= boff) {
+ bp->nb_validend = np->n_size - boff;
+ } else {
+ bp->nb_validend = 0;
}
}
- NATTRINVALIDATE(np);
- error = nfs_getattr(vp, &nvattr, cred, p);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0004, 0, error);
- return (error);
+ if ((nmp = NFSTONMP(np)) && (nmp->nm_vers == NFS_VER2) &&
+ ((NBOFF(bp) + bp->nb_validend) > 0x100000000LL)) {
+ bp->nb_validend = 0x100000000LL - NBOFF(bp);
+ }
+ nfs_buf_pgs_get_page_mask(&bp->nb_valid, round_page_64(bp->nb_validend) / PAGE_SIZE);
+ if (bp->nb_validend & PAGE_MASK) {
+ /* zero-fill remainder of last page */
+ bzero(bp->nb_data + bp->nb_validend, PAGE_SIZE - (bp->nb_validend & PAGE_MASK));
+ }
+ }
+ nfs_buf_iodone(bp);
+}
+
+/*
+ * initiate the NFS READ RPC(s) for a buffer
+ */
+int
+nfs_buf_read_rpc(struct nfsbuf *bp, thread_t thd, kauth_cred_t cred)
+{
+ struct nfsmount *nmp;
+ nfsnode_t np = bp->nb_np;
+ int error = 0, nfsvers, async;
+ int offset;
+ uint64_t length, nrpcs;
+ uint32_t nmrsize;
+ size_t len;
+ off_t boff;
+ struct nfsreq *req;
+ struct nfsreq_cbinfo cb;
+
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ bp->nb_error = error = ENXIO;
+ SET(bp->nb_flags, NB_ERROR);
+ nfs_buf_iodone(bp);
+ return error;
+ }
+ nfsvers = nmp->nm_vers;
+ nmrsize = nmp->nm_rsize;
+
+ boff = NBOFF(bp);
+ offset = 0;
+ length = bp->nb_bufsize;
+
+ if (nfsvers == NFS_VER2) {
+ if (boff > 0xffffffffLL) {
+ bp->nb_error = error = EFBIG;
+ SET(bp->nb_flags, NB_ERROR);
+ nfs_buf_iodone(bp);
+ return error;
}
- if (vtype == VDIR) {
- /* if directory changed, purge any name cache entries */
- if (nfstimespeccmp(&np->n_ncmtime, &nvattr.nva_mtime, !=))
- cache_purge(vp);
- np->n_ncmtime = nvattr.nva_mtime;
+ if ((boff + length - 1) > 0xffffffffLL) {
+ length = 0x100000000LL - boff;
}
- np->n_mtime = nvattr.nva_mtime;
+ }
+
+ /* Note: Can only do async I/O if nfsiods are configured. */
+ async = (bp->nb_flags & NB_ASYNC);
+ cb.rcb_func = async ? nfs_buf_read_rpc_finish : NULL;
+ cb.rcb_bp = bp;
+
+ bp->nb_offio = bp->nb_endio = 0;
+ bp->nb_rpcs = nrpcs = (length + nmrsize - 1) / nmrsize;
+ if (async && (nrpcs > 1)) {
+ SET(bp->nb_flags, NB_MULTASYNCRPC);
} else {
- error = nfs_getattr(vp, &nvattr, cred, p);
+ CLR(bp->nb_flags, NB_MULTASYNCRPC);
+ }
+
+ while (length > 0) {
+ if (ISSET(bp->nb_flags, NB_ERROR)) {
+ error = bp->nb_error;
+ break;
+ }
+ len = (length > nmrsize) ? nmrsize : (uint32_t)length;
+ cb.rcb_args.offset = offset;
+ cb.rcb_args.length = len;
+#if CONFIG_NFS4
+ if (nmp->nm_vers >= NFS_VER4) {
+ cb.rcb_args.stategenid = nmp->nm_stategenid;
+ }
+#endif
+ req = NULL;
+ error = nmp->nm_funcs->nf_read_rpc_async(np, boff + offset, len, thd, cred, &cb, &req);
if (error) {
- FSDBG_BOT(514, vp, 0xd1e0005, 0, error);
- return (error);
+ break;
}
- if (nfstimespeccmp(&np->n_mtime, &nvattr.nva_mtime, !=)) {
- if (vtype == VDIR) {
- nfs_invaldir(vp);
- /* purge name cache entries */
- if (nfstimespeccmp(&np->n_ncmtime, &nvattr.nva_mtime, !=))
- cache_purge(vp);
- }
- error = nfs_vinvalbuf(vp, V_SAVE, cred, p, 1);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0006, 0, error);
- return (error);
+ offset += len;
+ length -= len;
+ if (async) {
+ continue;
+ }
+ nfs_buf_read_rpc_finish(req);
+ if (ISSET(bp->nb_flags, NB_ERROR)) {
+ error = bp->nb_error;
+ break;
+ }
+ }
+
+ if (length > 0) {
+ /*
+ * Something bad happened while trying to send the RPC(s).
+ * Wait for any outstanding requests to complete.
+ */
+ bp->nb_error = error;
+ SET(bp->nb_flags, NB_ERROR);
+ if (ISSET(bp->nb_flags, NB_MULTASYNCRPC)) {
+ nrpcs = (length + nmrsize - 1) / nmrsize;
+ lck_mtx_lock(nfs_buf_mutex);
+ bp->nb_rpcs -= nrpcs;
+ if (bp->nb_rpcs == 0) {
+ /* No RPCs left, so the buffer's done */
+ lck_mtx_unlock(nfs_buf_mutex);
+ nfs_buf_iodone(bp);
+ } else {
+ /* wait for the last RPC to mark it done */
+ while (bp->nb_rpcs > 0) {
+ msleep(&bp->nb_rpcs, nfs_buf_mutex, 0,
+ "nfs_buf_read_rpc_cancel", NULL);
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
}
- if (vtype == VDIR)
- np->n_ncmtime = nvattr.nva_mtime;
- np->n_mtime = nvattr.nva_mtime;
+ } else {
+ nfs_buf_iodone(bp);
}
}
- if (vnode_isnocache(vp)) {
- if (!(np->n_flag & NNOCACHE)) {
- if (NVALIDBUFS(np)) {
- error = nfs_vinvalbuf(vp, V_SAVE, cred, p, 1);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e000a, 0, error);
- return (error);
+ return error;
+}
+
+/*
+ * finish up an NFS READ RPC on a buffer
+ */
+void
+nfs_buf_read_rpc_finish(struct nfsreq *req)
+{
+ struct nfsmount *nmp;
+ size_t rlen, length;
+ struct nfsreq_cbinfo cb;
+ struct nfsbuf *bp;
+ int error = 0, nfsvers, eof = 0, multasyncrpc, finished;
+ off_t offset;
+ void *wakeme = NULL;
+ struct nfsreq *rreq = NULL;
+ nfsnode_t np;
+ thread_t thd;
+ kauth_cred_t cred;
+ uio_t auio;
+ char uio_buf[UIO_SIZEOF(1)];
+
+finish:
+ np = req->r_np;
+ thd = req->r_thread;
+ cred = req->r_cred;
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
+ }
+ cb = req->r_callback;
+ bp = cb.rcb_bp;
+ if (cb.rcb_func) { /* take an extra reference on the nfsreq in case we want to resend it later due to grace error */
+ nfs_request_ref(req, 0);
+ }
+
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = ENXIO;
+ }
+ if (error || ISSET(bp->nb_flags, NB_ERROR)) {
+ /* just drop it */
+ nfs_request_async_cancel(req);
+ goto out;
+ }
+
+ nfsvers = nmp->nm_vers;
+ offset = cb.rcb_args.offset;
+ rlen = length = cb.rcb_args.length;
+
+ auio = uio_createwithbuffer(1, NBOFF(bp) + offset, UIO_SYSSPACE,
+ UIO_READ, &uio_buf, sizeof(uio_buf));
+ uio_addiov(auio, CAST_USER_ADDR_T(bp->nb_data + offset), length);
+
+ /* finish the RPC */
+ error = nmp->nm_funcs->nf_read_rpc_async_finish(np, req, auio, &rlen, &eof);
+ if ((error == EINPROGRESS) && cb.rcb_func) {
+ /* async request restarted */
+ if (cb.rcb_func) {
+ nfs_request_rele(req);
+ }
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ return;
+ }
+#if CONFIG_NFS4
+ if ((nmp->nm_vers >= NFS_VER4) && nfs_mount_state_error_should_restart(error) && !ISSET(bp->nb_flags, NB_ERROR)) {
+ lck_mtx_lock(&nmp->nm_lock);
+ if ((error != NFSERR_OLD_STATEID) && (error != NFSERR_GRACE) && (cb.rcb_args.stategenid == nmp->nm_stategenid)) {
+ NP(np, "nfs_buf_read_rpc_finish: error %d @ 0x%llx, 0x%x 0x%x, initiating recovery",
+ error, NBOFF(bp) + offset, cb.rcb_args.stategenid, nmp->nm_stategenid);
+ nfs_need_recover(nmp, error);
+ }
+ lck_mtx_unlock(&nmp->nm_lock);
+ if (np->n_flag & NREVOKE) {
+ error = EIO;
+ } else {
+ if (error == NFSERR_GRACE) {
+ if (cb.rcb_func) {
+ /*
+ * For an async I/O request, handle a grace delay just like
+ * jukebox errors. Set the resend time and queue it up.
+ */
+ struct timeval now;
+ if (req->r_nmrep.nmc_mhead) {
+ mbuf_freem(req->r_nmrep.nmc_mhead);
+ req->r_nmrep.nmc_mhead = NULL;
+ }
+ req->r_error = 0;
+ microuptime(&now);
+ lck_mtx_lock(&req->r_mtx);
+ req->r_resendtime = now.tv_sec + 2;
+ req->r_xid = 0; // get a new XID
+ req->r_flags |= R_RESTART;
+ req->r_start = 0;
+ nfs_asyncio_resend(req);
+ lck_mtx_unlock(&req->r_mtx);
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ /* Note: nfsreq reference taken will be dropped later when finished */
+ return;
}
+ /* otherwise, just pause a couple seconds and retry */
+ tsleep(&nmp->nm_state, (PZERO - 1), "nfsgrace", 2 * hz);
+ }
+ if (!(error = nfs_mount_state_wait_for_recovery(nmp))) {
+ rlen = 0;
+ goto readagain;
}
- np->n_flag |= NNOCACHE;
}
- } else if (np->n_flag & NNOCACHE) {
- np->n_flag &= ~NNOCACHE;
+ }
+#endif
+ if (error) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ goto out;
}
- do {
- if (np->n_flag & NNOCACHE) {
- switch (vtype) {
- case VREG:
+ if ((rlen > 0) && (bp->nb_endio < (offset + (int)rlen))) {
+ bp->nb_endio = offset + rlen;
+ }
+
+ if ((nfsvers == NFS_VER2) || eof || (rlen == 0)) {
+ /* zero out the remaining data (up to EOF) */
+ off_t rpcrem, eofrem, rem;
+ rpcrem = (length - rlen);
+ eofrem = np->n_size - (NBOFF(bp) + offset + rlen);
+ rem = (rpcrem < eofrem) ? rpcrem : eofrem;
+ if (rem > 0) {
+ NFS_BZERO(bp->nb_data + offset + rlen, rem);
+ }
+ } else if ((rlen < length) && !ISSET(bp->nb_flags, NB_ERROR)) {
+ /*
+ * short read
+ *
+ * We haven't hit EOF and we didn't get all the data
+ * requested, so we need to issue another read for the rest.
+ * (Don't bother if the buffer already hit an error.)
+ */
+#if CONFIG_NFS4
+readagain:
+#endif
+ offset += rlen;
+ length -= rlen;
+ cb.rcb_args.offset = offset;
+ cb.rcb_args.length = length;
+#if CONFIG_NFS4
+ if (nmp->nm_vers >= NFS_VER4) {
+ cb.rcb_args.stategenid = nmp->nm_stategenid;
+ }
+#endif
+ error = nmp->nm_funcs->nf_read_rpc_async(np, NBOFF(bp) + offset, length, thd, cred, &cb, &rreq);
+ if (!error) {
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ if (!cb.rcb_func) {
+ /* if !async we'll need to wait for this RPC to finish */
+ req = rreq;
+ rreq = NULL;
+ goto finish;
+ }
+ nfs_request_rele(req);
/*
- * If we have only a block or so to read,
- * just do the rpc directly.
- * If we have a couple blocks or more to read,
- * then we'll take advantage of readahead within
- * this loop to try to fetch all the data in parallel
+ * We're done here.
+ * Outstanding RPC count is unchanged.
+ * Callback will be called when RPC is done.
*/
- if (!nocachereadahead && (uio_uio_resid(uio) < 2*biosize)) {
- error = nfs_readrpc(vp, uio, cred, p);
- FSDBG_BOT(514, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
- }
- nocachereadahead = 1;
+ return;
+ }
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ }
+
+out:
+ if (cb.rcb_func) {
+ nfs_request_rele(req);
+ }
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+
+ /*
+ * Decrement outstanding RPC count on buffer
+ * and call nfs_buf_read_finish on last RPC.
+ *
+ * (Note: when there are multiple async RPCs issued for a
+ * buffer we need nfs_buffer_mutex to avoid problems when
+ * aborting a partially-initiated set of RPCs)
+ */
+
+ multasyncrpc = ISSET(bp->nb_flags, NB_MULTASYNCRPC);
+ if (multasyncrpc) {
+ lck_mtx_lock(nfs_buf_mutex);
+ }
+
+ bp->nb_rpcs--;
+ finished = (bp->nb_rpcs == 0);
+
+ if (multasyncrpc) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+
+ if (finished) {
+ if (multasyncrpc) {
+ wakeme = &bp->nb_rpcs;
+ }
+ nfs_buf_read_finish(bp);
+ if (wakeme) {
+ wakeup(wakeme);
+ }
+ }
+}
+
+/*
+ * Do buffer readahead.
+ * Initiate async I/O to read buffers not in cache.
+ */
+int
+nfs_buf_readahead(nfsnode_t np, int ioflag, daddr64_t *rabnp, daddr64_t lastrabn, thread_t thd, kauth_cred_t cred)
+{
+ struct nfsmount *nmp = NFSTONMP(np);
+ struct nfsbuf *bp;
+ int error = 0;
+ uint32_t nra;
+
+ if (nfs_mount_gone(nmp)) {
+ return ENXIO;
+ }
+ if (nmp->nm_readahead <= 0) {
+ return 0;
+ }
+ if (*rabnp > lastrabn) {
+ return 0;
+ }
+
+ for (nra = 0; (nra < nmp->nm_readahead) && (*rabnp <= lastrabn); nra++, *rabnp = *rabnp + 1) {
+ /* check if block exists and is valid. */
+ if ((*rabnp * nmp->nm_biosize) >= (off_t)np->n_size) {
+ /* stop reading ahead if we're beyond EOF */
+ *rabnp = lastrabn;
break;
- case VLNK:
- error = nfs_readlinkrpc(vp, uio, cred, p);
- FSDBG_BOT(514, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
- case VDIR:
+ }
+ error = nfs_buf_get(np, *rabnp, nmp->nm_biosize, thd, NBLK_READ | NBLK_NOWAIT, &bp);
+ if (error) {
break;
- default:
- printf(" NFSNOCACHE: type %x unexpected\n", vtype);
- };
- }
- switch (vtype) {
- case VREG:
- lbn = uio->uio_offset / biosize;
+ }
+ nfs_node_lock_force(np);
+ np->n_lastrahead = *rabnp;
+ nfs_node_unlock(np);
+ if (!bp) {
+ continue;
+ }
+ if ((ioflag & IO_NOCACHE) && ISSET(bp->nb_flags, NB_CACHE) &&
+ !nfs_buf_pgs_is_set(&bp->nb_dirty) && !ISSET(bp->nb_flags, (NB_DELWRI | NB_NCRDAHEAD))) {
+ CLR(bp->nb_flags, NB_CACHE);
+ NBPGS_ERASE(&bp->nb_valid);
+ bp->nb_validoff = bp->nb_validend = -1;
+ }
+ if ((bp->nb_dirtyend <= 0) && !nfs_buf_pgs_is_set(&bp->nb_dirty) &&
+ !ISSET(bp->nb_flags, (NB_CACHE | NB_DELWRI))) {
+ SET(bp->nb_flags, (NB_READ | NB_ASYNC));
+ if (ioflag & IO_NOCACHE) {
+ SET(bp->nb_flags, NB_NCRDAHEAD);
+ }
+ if (!IS_VALID_CRED(bp->nb_rcred) && IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
+ bp->nb_rcred = cred;
+ }
+ if ((error = nfs_buf_read(bp))) {
+ break;
+ }
+ continue;
+ }
+ nfs_buf_release(bp, 1);
+ }
+ return error;
+}
+
+/*
+ * NFS buffer I/O for reading files.
+ */
+int
+nfs_bioread(nfsnode_t np, uio_t uio, int ioflag, vfs_context_t ctx)
+{
+ vnode_t vp = NFSTOV(np);
+ struct nfsbuf *bp = NULL;
+ struct nfsmount *nmp = VTONMP(vp);
+ daddr64_t lbn, rabn = 0, lastrabn, maxrabn = -1;
+ off_t diff, on = 0, n = 0;
+ int error = 0, n32;
+ int nfsvers, biosize, modified, readaheads = 0;
+ thread_t thd;
+ kauth_cred_t cred;
+ int64_t io_resid;
+
+ FSDBG_TOP(514, np, uio_offset(uio), uio_resid(uio), ioflag);
+
+ nfsvers = nmp->nm_vers;
+ biosize = nmp->nm_biosize;
+ thd = vfs_context_thread(ctx);
+ cred = vfs_context_ucred(ctx);
+
+ if (vnode_vtype(vp) != VREG) {
+ printf("nfs_bioread: type %x unexpected\n", vnode_vtype(vp));
+ FSDBG_BOT(514, np, 0xd1e0016, 0, EINVAL);
+ return EINVAL;
+ }
+
+ /*
+ * For NFS, cache consistency can only be maintained approximately.
+ * Although RFC1094 does not specify the criteria, the following is
+ * believed to be compatible with the reference port.
+ *
+ * If the file has changed since the last read RPC or you have
+ * written to the file, you may have lost data cache consistency
+ * with the server. So, check for a change, and flush all of the
+ * file's data out of the cache.
+ * NB: This implies that cache data can be read when up to
+ * NFS_MAXATTRTIMO seconds out of date. If you find that you
+ * need current attributes, nfs_getattr() can be forced to fetch
+ * new attributes (via NATTRINVALIDATE() or NGA_UNCACHED).
+ */
+
+ if (ISSET(np->n_flag, NUPDATESIZE)) {
+ nfs_data_update_size(np, 0);
+ }
+
+ if ((error = nfs_node_lock(np))) {
+ FSDBG_BOT(514, np, 0xd1e0222, 0, error);
+ return error;
+ }
+
+ if (np->n_flag & NNEEDINVALIDATE) {
+ np->n_flag &= ~NNEEDINVALIDATE;
+ nfs_node_unlock(np);
+ error = nfs_vinvalbuf(vp, V_SAVE | V_IGNORE_WRITEERR, ctx, 1);
+ if (!error) {
+ error = nfs_node_lock(np);
+ }
+ if (error) {
+ FSDBG_BOT(514, np, 0xd1e0322, 0, error);
+ return error;
+ }
+ }
+
+ modified = (np->n_flag & NMODIFIED);
+ nfs_node_unlock(np);
+ /* nfs_getattr() will check changed and purge caches */
+ error = nfs_getattr(np, NULL, ctx, modified ? NGA_UNCACHED : NGA_CACHED);
+ if (error) {
+ FSDBG_BOT(514, np, 0xd1e0004, 0, error);
+ return error;
+ }
+
+ if (uio_resid(uio) == 0) {
+ FSDBG_BOT(514, np, 0xd1e0001, 0, 0);
+ return 0;
+ }
+ if (uio_offset(uio) < 0) {
+ FSDBG_BOT(514, np, 0xd1e0002, 0, EINVAL);
+ return EINVAL;
+ }
+
+ /*
+ * set up readahead - which may be limited by:
+ * + current request length (for IO_NOCACHE)
+ * + readahead setting
+ * + file size
+ */
+ if (nmp->nm_readahead > 0) {
+ off_t end = uio_offset(uio) + uio_resid(uio);
+ if (end > (off_t)np->n_size) {
+ end = np->n_size;
+ }
+ rabn = uio_offset(uio) / biosize;
+ maxrabn = (end - 1) / biosize;
+ nfs_node_lock_force(np);
+ if (!(ioflag & IO_NOCACHE) &&
+ (!rabn || (rabn == np->n_lastread) || (rabn == (np->n_lastread + 1)))) {
+ maxrabn += nmp->nm_readahead;
+ if ((maxrabn * biosize) >= (off_t)np->n_size) {
+ maxrabn = ((off_t)np->n_size - 1) / biosize;
+ }
+ }
+ if (maxrabn < np->n_lastrahead) {
+ np->n_lastrahead = -1;
+ }
+ if (rabn < np->n_lastrahead) {
+ rabn = np->n_lastrahead + 1;
+ }
+ nfs_node_unlock(np);
+ } else {
+ rabn = maxrabn = 0;
+ }
+
+ do {
+ nfs_data_lock(np, NFS_DATA_LOCK_SHARED);
+ lbn = uio_offset(uio) / biosize;
/*
* Copy directly from any cached pages without grabbing the bufs.
- *
- * Note: for "nocache" reads, we don't copy directly from UBC
- * because any cached pages will be for readahead buffers that
- * need to be invalidated anyway before we finish this request.
+ * (If we are NOCACHE and we've issued readahead requests, we need
+ * to grab the NB_NCRDAHEAD bufs to drop them.)
*/
- if (!(np->n_flag & NNOCACHE) &&
- (uio->uio_segflg == UIO_USERSPACE32 ||
- uio->uio_segflg == UIO_USERSPACE64 ||
- uio->uio_segflg == UIO_USERSPACE)) {
- // LP64todo - fix this!
- int io_resid = uio_uio_resid(uio);
- diff = np->n_size - uio->uio_offset;
- if (diff < io_resid)
+ if ((!(ioflag & IO_NOCACHE) || !readaheads) &&
+ ((uio->uio_segflg == UIO_USERSPACE32 ||
+ uio->uio_segflg == UIO_USERSPACE64 ||
+ uio->uio_segflg == UIO_USERSPACE))) {
+ io_resid = uio_resid(uio);
+ diff = np->n_size - uio_offset(uio);
+ if (diff < io_resid) {
io_resid = diff;
+ }
if (io_resid > 0) {
- error = cluster_copy_ubc_data(vp, uio, &io_resid, 0);
+ int count = (io_resid > INT_MAX) ? INT_MAX : (int)io_resid;
+ error = cluster_copy_ubc_data(vp, uio, &count, 0);
if (error) {
- FSDBG_BOT(514, vp, uio->uio_offset, 0xcacefeed, error);
- return (error);
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, uio_offset(uio), 0xcacefeed, error);
+ return error;
}
}
/* count any biocache reads that we just copied directly */
- if (lbn != uio->uio_offset / biosize) {
- OSAddAtomic((uio->uio_offset / biosize) - lbn, (SInt32*)&nfsstats.biocache_reads);
- FSDBG(514, vp, 0xcacefeed, uio->uio_offset, error);
+ if (lbn != (uio_offset(uio) / biosize)) {
+ OSAddAtomic64(NFS_ROUND_BLOCK(uio_offset(uio), biosize) - lbn, &nfsstats.biocache_reads);
+ FSDBG(514, np, 0xcacefeed, uio_offset(uio), error);
}
}
- lbn = uio->uio_offset / biosize;
- on = uio->uio_offset % biosize;
+ lbn = uio_offset(uio) / biosize;
+ on = uio_offset(uio) % biosize;
+ nfs_node_lock_force(np);
+ np->n_lastread = (uio_offset(uio) - 1) / biosize;
+ nfs_node_unlock(np);
- /*
- * Start the read ahead(s), as required.
- */
- if (nfs_numasync > 0 && nmp->nm_readahead > 0) {
- for (nra = 0; nra < nmp->nm_readahead; nra++) {
- rabn = lbn + 1 + nra;
- if (rabn <= lastrabn) {
- /* we've already (tried to) read this block */
- /* no need to try it again... */
- continue;
- }
- lastrabn = rabn;
- if ((off_t)rabn * biosize >= (off_t)np->n_size)
- break;
- if ((np->n_flag & NNOCACHE) &&
- (((off_t)rabn * biosize) >= (uio->uio_offset + uio_uio_resid(uio))))
- /* for uncached readahead, don't go beyond end of request */
- break;
- /* check if block exists and is valid. */
- error = nfs_buf_get(vp, rabn, biosize, p, NBLK_READ|NBLK_NOWAIT, &rabp);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e000b, 1, error);
- return (error);
- }
- if (!rabp)
- continue;
- if (nfs_buf_upl_valid_range(rabp, 0, rabp->nb_bufsize)) {
- nfs_buf_release(rabp, 1);
- continue;
- }
- if (!ISSET(rabp->nb_flags, (NB_CACHE|NB_DELWRI))) {
- SET(rabp->nb_flags, (NB_READ|NB_ASYNC));
- if (nfs_asyncio(rabp, cred)) {
- SET(rabp->nb_flags, (NB_INVAL|NB_ERROR));
- rabp->nb_error = EIO;
- nfs_buf_release(rabp, 1);
- }
- } else
- nfs_buf_release(rabp, 1);
- }
+ if ((uio_resid(uio) <= 0) || (uio_offset(uio) >= (off_t)np->n_size)) {
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, uio_offset(uio), uio_resid(uio), 0xaaaaaaaa);
+ return 0;
}
- if ((uio_uio_resid(uio) <= 0) || (uio->uio_offset >= (off_t)np->n_size)) {
- FSDBG_BOT(514, vp, uio->uio_offset, uio_uio_resid(uio), 0xaaaaaaaa);
- return (0);
+ /* adjust readahead block number, if necessary */
+ if (rabn < lbn) {
+ rabn = lbn;
+ }
+ lastrabn = MIN(maxrabn, lbn + nmp->nm_readahead);
+ if (rabn <= lastrabn) { /* start readaheads */
+ error = nfs_buf_readahead(np, ioflag, &rabn, lastrabn, thd, cred);
+ if (error) {
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, 0xd1e000b, 1, error);
+ return error;
+ }
+ readaheads = 1;
+ OSAddAtomic64(rabn - lbn, &nfsstats.biocache_reads);
+ } else {
+ OSAddAtomic64(1, &nfsstats.biocache_reads);
}
-
- OSAddAtomic(1, (SInt32*)&nfsstats.biocache_reads);
/*
* If the block is in the cache and has the required data
* as required.
*/
again:
- bufsize = biosize;
- // LP64todo - fix this!
- n = min((unsigned)(bufsize - on), uio_uio_resid(uio));
- diff = np->n_size - uio->uio_offset;
- if (diff < n)
+ io_resid = uio_resid(uio);
+ n = (io_resid > (biosize - on)) ? (biosize - on) : io_resid;
+ diff = np->n_size - uio_offset(uio);
+ if (diff < n) {
n = diff;
+ }
- error = nfs_buf_get(vp, lbn, bufsize, p, NBLK_READ, &bp);
+ error = nfs_buf_get(np, lbn, biosize, thd, NBLK_READ, &bp);
if (error) {
- FSDBG_BOT(514, vp, 0xd1e000c, 0, EINTR);
- return (EINTR);
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, 0xd1e000c, 0, error);
+ return error;
+ }
+
+ if ((ioflag & IO_NOCACHE) && ISSET(bp->nb_flags, NB_CACHE)) {
+ /*
+ * IO_NOCACHE found a cached buffer.
+ * Flush the buffer if it's dirty.
+ * Invalidate the data if it wasn't just read
+ * in as part of a "nocache readahead".
+ */
+ if (nfs_buf_pgs_is_set(&bp->nb_dirty) || (bp->nb_dirtyend > 0)) {
+ /* so write the buffer out and try again */
+ SET(bp->nb_flags, NB_NOCACHE);
+ goto flushbuffer;
+ }
+ if (ISSET(bp->nb_flags, NB_NCRDAHEAD)) {
+ CLR(bp->nb_flags, NB_NCRDAHEAD);
+ SET(bp->nb_flags, NB_NOCACHE);
+ }
}
/* if any pages are valid... */
- if (bp->nb_valid) {
+ if (nfs_buf_pgs_is_set(&bp->nb_valid)) {
/* ...check for any invalid pages in the read range */
- int pg, firstpg, lastpg, dirtypg;
+ off_t pg, firstpg, lastpg, dirtypg;
dirtypg = firstpg = lastpg = -1;
- pg = on/PAGE_SIZE;
- while (pg <= (on + n - 1)/PAGE_SIZE) {
- if (!NBPGVALID(bp,pg)) {
- if (firstpg < 0)
+ pg = on / PAGE_SIZE;
+ while (pg <= (on + n - 1) / PAGE_SIZE) {
+ if (!NBPGVALID(bp, pg)) {
+ if (firstpg < 0) {
firstpg = pg;
+ }
lastpg = pg;
- } else if (firstpg >= 0 && dirtypg < 0 && NBPGDIRTY(bp,pg))
+ } else if (firstpg >= 0 && dirtypg < 0 && NBPGDIRTY(bp, pg)) {
dirtypg = pg;
+ }
pg++;
}
if (bp->nb_validoff < 0) {
/* valid range isn't set up, so */
/* set it to what we know is valid */
- bp->nb_validoff = trunc_page(on);
- bp->nb_validend = round_page(on+n);
+ bp->nb_validoff = trunc_page_64(on);
+ bp->nb_validend = round_page_64(on + n);
nfs_buf_normalize_valid_range(np, bp);
}
goto buffer_ready;
}
/* there are invalid pages in the read range */
- if ((dirtypg > firstpg) && (dirtypg < lastpg)) {
- /* there are also dirty page(s) in the range, */
+ if (((dirtypg > firstpg) && (dirtypg < lastpg)) ||
+ (((firstpg * PAGE_SIZE) < bp->nb_dirtyend) && (((lastpg + 1) * PAGE_SIZE) > bp->nb_dirtyoff))) {
+ /* there are also dirty page(s) (or range) in the read range, */
/* so write the buffer out and try again */
+flushbuffer:
CLR(bp->nb_flags, (NB_DONE | NB_ERROR | NB_INVAL));
SET(bp->nb_flags, NB_ASYNC);
- if (!IS_VALID_CRED(bp->nb_wcred)) {
+ if (!IS_VALID_CRED(bp->nb_wcred)) {
kauth_cred_ref(cred);
bp->nb_wcred = cred;
}
error = nfs_buf_write(bp);
if (error) {
- FSDBG_BOT(514, vp, 0xd1e000d, 0, error);
- return (error);
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, 0xd1e000d, 0, error);
+ return error;
}
goto again;
}
- if (!bp->nb_dirty && bp->nb_dirtyend <= 0 &&
- (lastpg - firstpg + 1) > (bufsize/PAGE_SIZE)/2) {
+ if (!nfs_buf_pgs_is_set(&bp->nb_dirty) && bp->nb_dirtyend <= 0 &&
+ (lastpg - firstpg + 1) > (biosize / PAGE_SIZE) / 2) {
/* we need to read in more than half the buffer and the */
/* buffer's not dirty, so just fetch the whole buffer */
- bp->nb_valid = 0;
+ NBPGS_ERASE(&bp->nb_valid);
} else {
/* read the page range in */
uio_t auio;
- char uio_buf[ UIO_SIZEOF(1) ];
-
+ char uio_buf[UIO_SIZEOF(1)];
+
NFS_BUF_MAP(bp);
- auio = uio_createwithbuffer(1, (NBOFF(bp) + firstpg * PAGE_SIZE_64),
- UIO_SYSSPACE, UIO_READ, &uio_buf[0], sizeof(uio_buf));
+ auio = uio_createwithbuffer(1, (NBOFF(bp) + firstpg * PAGE_SIZE_64),
+ UIO_SYSSPACE, UIO_READ, &uio_buf[0], sizeof(uio_buf));
if (!auio) {
error = ENOMEM;
} else {
- uio_addiov(auio, CAST_USER_ADDR_T((bp->nb_data + firstpg * PAGE_SIZE)),
- ((lastpg - firstpg + 1) * PAGE_SIZE));
- error = nfs_readrpc(vp, auio, cred, p);
+ NFS_UIO_ADDIOV(auio, CAST_USER_ADDR_T(bp->nb_data + (firstpg * PAGE_SIZE)),
+ ((lastpg - firstpg + 1) * PAGE_SIZE));
+ error = nfs_read_rpc(np, auio, ctx);
}
if (error) {
- if (np->n_flag & NNOCACHE)
+ if (ioflag & IO_NOCACHE) {
SET(bp->nb_flags, NB_NOCACHE);
+ }
nfs_buf_release(bp, 1);
- FSDBG_BOT(514, vp, 0xd1e000e, 0, error);
- return (error);
+ nfs_data_unlock(np);
+ FSDBG_BOT(514, np, 0xd1e000e, 0, error);
+ return error;
}
/* Make sure that the valid range is set to cover this read. */
- bp->nb_validoff = trunc_page_32(on);
- bp->nb_validend = round_page_32(on+n);
+ bp->nb_validoff = trunc_page_64(on);
+ bp->nb_validend = round_page_64(on + n);
nfs_buf_normalize_valid_range(np, bp);
if (uio_resid(auio) > 0) {
/* if short read, must have hit EOF, */
bzero(CAST_DOWN(caddr_t, uio_curriovbase(auio)), uio_resid(auio));
}
/* mark the pages (successfully read) as valid */
- for (pg=firstpg; pg <= lastpg; pg++)
- NBPGVALID_SET(bp,pg);
+ for (pg = firstpg; pg <= lastpg; pg++) {
+ NBPGVALID_SET(bp, pg);
+ }
}
}
/* if no pages are valid, read the whole block */
- if (!bp->nb_valid) {
- SET(bp->nb_flags, NB_READ);
+ if (!nfs_buf_pgs_is_set(&bp->nb_valid)) {
+ if (!IS_VALID_CRED(bp->nb_rcred) && IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
+ bp->nb_rcred = cred;
+ }
+ SET(bp->nb_flags, NB_READ);
CLR(bp->nb_flags, (NB_DONE | NB_ERROR | NB_INVAL));
- error = nfs_doio(bp, cred, p);
+ error = nfs_buf_read(bp);
+ if (ioflag & IO_NOCACHE) {
+ SET(bp->nb_flags, NB_NOCACHE);
+ }
if (error) {
- if (np->n_flag & NNOCACHE)
- SET(bp->nb_flags, NB_NOCACHE);
+ nfs_data_unlock(np);
nfs_buf_release(bp, 1);
- FSDBG_BOT(514, vp, 0xd1e000f, 0, error);
- return (error);
+ FSDBG_BOT(514, np, 0xd1e000f, 0, error);
+ return error;
}
}
buffer_ready:
/* validate read range against valid range and clip */
if (bp->nb_validend > 0) {
diff = (on >= bp->nb_validend) ? 0 : (bp->nb_validend - on);
- if (diff < n)
+ if (diff < n) {
n = diff;
- }
- if (n > 0)
- NFS_BUF_MAP(bp);
- break;
- case VLNK:
- OSAddAtomic(1, (SInt32*)&nfsstats.biocache_readlinks);
- error = nfs_buf_get(vp, 0, NFS_MAXPATHLEN, p, NBLK_READ, &bp);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0010, 0, error);
- return (error);
- }
- if (!ISSET(bp->nb_flags, NB_CACHE)) {
- SET(bp->nb_flags, NB_READ);
- error = nfs_doio(bp, cred, p);
- if (error) {
- SET(bp->nb_flags, NB_ERROR);
- nfs_buf_release(bp, 1);
- FSDBG_BOT(514, vp, 0xd1e0011, 0, error);
- return (error);
- }
- }
- // LP64todo - fix this!
- n = min(uio_uio_resid(uio), bp->nb_validend);
- on = 0;
- break;
- case VDIR:
- OSAddAtomic(1, (SInt32*)&nfsstats.biocache_readdirs);
- if (np->n_direofoffset && uio->uio_offset >= np->n_direofoffset) {
- FSDBG_BOT(514, vp, 0xde0f0001, 0, 0);
- return (0);
- }
- lbn = uio->uio_offset / NFS_DIRBLKSIZ;
- on = uio->uio_offset & (NFS_DIRBLKSIZ - 1);
- error = nfs_buf_get(vp, lbn, NFS_DIRBLKSIZ, p, NBLK_READ, &bp);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0012, 0, error);
- return (error);
- }
- if (!ISSET(bp->nb_flags, NB_CACHE)) {
- SET(bp->nb_flags, NB_READ);
- error = nfs_doio(bp, cred, p);
- if (error) {
- nfs_buf_release(bp, 1);
- }
- while (error == NFSERR_BAD_COOKIE) {
- nfs_invaldir(vp);
- error = nfs_vinvalbuf(vp, 0, cred, p, 1);
- /*
- * Yuck! The directory has been modified on the
- * server. The only way to get the block is by
- * reading from the beginning to get all the
- * offset cookies.
- */
- for (tlbn = 0; tlbn <= lbn && !error; tlbn++) {
- if (np->n_direofoffset
- && (tlbn * NFS_DIRBLKSIZ) >= np->n_direofoffset) {
- FSDBG_BOT(514, vp, 0xde0f0002, 0, 0);
- return (0);
- }
- error = nfs_buf_get(vp, tlbn, NFS_DIRBLKSIZ, p, NBLK_READ, &bp);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0013, 0, error);
- return (error);
- }
- if (!ISSET(bp->nb_flags, NB_CACHE)) {
- SET(bp->nb_flags, NB_READ);
- error = nfs_doio(bp, cred, p);
- /*
- * no error + NB_INVAL == directory EOF,
- * use the block.
- */
- if (error == 0 && (bp->nb_flags & NB_INVAL))
- break;
- }
- /*
- * An error will throw away the block and the
- * for loop will break out. If no error and this
- * is not the block we want, we throw away the
- * block and go for the next one via the for loop.
- */
- if (error || tlbn < lbn)
- nfs_buf_release(bp, 1);
- }
- }
- /*
- * The above while is repeated if we hit another cookie
- * error. If we hit an error and it wasn't a cookie error,
- * we give up.
- */
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0014, 0, error);
- return (error);
- }
- }
-
- /*
- * If not eof and read aheads are enabled, start one.
- * (You need the current block first, so that you have the
- * directory offset cookie of the next block.)
- */
- if (nfs_numasync > 0 && nmp->nm_readahead > 0 &&
- (np->n_direofoffset == 0 ||
- (lbn + 1) * NFS_DIRBLKSIZ < np->n_direofoffset) &&
- !nfs_buf_is_incore(vp, lbn + 1)) {
- error = nfs_buf_get(vp, lbn + 1, NFS_DIRBLKSIZ, p, NBLK_READ|NBLK_NOWAIT, &rabp);
- if (error) {
- FSDBG_BOT(514, vp, 0xd1e0015, 0, error);
- return (error);
- }
- if (rabp) {
- if (!ISSET(rabp->nb_flags, (NB_CACHE))) {
- SET(rabp->nb_flags, (NB_READ | NB_ASYNC));
- if (nfs_asyncio(rabp, cred)) {
- SET(rabp->nb_flags, (NB_INVAL|NB_ERROR));
- rabp->nb_error = EIO;
- nfs_buf_release(rabp, 1);
- }
- } else {
- nfs_buf_release(rabp, 1);
- }
}
}
- /*
- * Make sure we use a signed variant of min() since
- * the second term may be negative.
- */
- // LP64todo - fix this!
- n = lmin(uio_uio_resid(uio), bp->nb_validend - on);
- /*
- * We keep track of the directory eof in
- * np->n_direofoffset and chop it off as an
- * extra step right here.
- */
- if (np->n_direofoffset &&
- n > np->n_direofoffset - uio->uio_offset)
- n = np->n_direofoffset - uio->uio_offset;
- /*
- * Make sure that we return an integral number of entries so
- * that any subsequent calls will start copying from the start
- * of the next entry.
- *
- * If the current value of n has the last entry cut short,
- * set n to copy everything up to the last entry instead.
- */
if (n > 0) {
- dp = bp->nb_data + on;
- while (dp < (bp->nb_data + on + n)) {
- direntp = (struct dirent *)dp;
- dp += direntp->d_reclen;
+ NFS_BUF_MAP(bp);
+ n32 = n > INT_MAX ? INT_MAX : (int)n;
+ error = uiomove(bp->nb_data + on, n32, uio);
+ if (!error && n > n32) {
+ error = uiomove(bp->nb_data + on + n32, (int)(n - n32), uio);
}
- if (dp > (bp->nb_data + on + n))
- n = (dp - direntp->d_reclen) - (bp->nb_data + on);
}
- break;
- default:
- printf("nfs_bioread: type %x unexpected\n", vtype);
- FSDBG_BOT(514, vp, 0xd1e0016, 0, EINVAL);
- return (EINVAL);
- };
-
- if (n > 0) {
- error = uiomove(bp->nb_data + on, (int)n, uio);
- }
- switch (vtype) {
- case VREG:
- if (np->n_flag & NNOCACHE)
- SET(bp->nb_flags, NB_NOCACHE);
- break;
- case VLNK:
- n = 0;
- break;
- case VDIR:
- break;
- default:
- break;
- }
- nfs_buf_release(bp, 1);
- } while (error == 0 && uio_uio_resid(uio) > 0 && n > 0);
- FSDBG_BOT(514, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+
+
+ nfs_buf_release(bp, 1);
+ nfs_data_unlock(np);
+ nfs_node_lock_force(np);
+ np->n_lastread = (uio_offset(uio) - 1) / biosize;
+ nfs_node_unlock(np);
+ } while (error == 0 && uio_resid(uio) > 0 && n > 0);
+ FSDBG_BOT(514, np, uio_offset(uio), uio_resid(uio), error);
+ return error;
}
+/*
+ * limit the number of outstanding async I/O writes
+ */
+int
+nfs_async_write_start(struct nfsmount *nmp)
+{
+ int error = 0, slpflag = NMFLAG(nmp, INTR) ? PCATCH : 0;
+ struct timespec ts = { .tv_sec = 1, .tv_nsec = 0 };
+
+ if (nfs_max_async_writes <= 0) {
+ return 0;
+ }
+ lck_mtx_lock(&nmp->nm_lock);
+ while ((nfs_max_async_writes > 0) && (nmp->nm_asyncwrites >= nfs_max_async_writes)) {
+ if ((error = nfs_sigintr(nmp, NULL, current_thread(), 1))) {
+ break;
+ }
+ msleep(&nmp->nm_asyncwrites, &nmp->nm_lock, slpflag | (PZERO - 1), "nfsasyncwrites", &ts);
+ slpflag = 0;
+ }
+ if (!error) {
+ nmp->nm_asyncwrites++;
+ }
+ lck_mtx_unlock(&nmp->nm_lock);
+ return error;
+}
+void
+nfs_async_write_done(struct nfsmount *nmp)
+{
+ if (nmp->nm_asyncwrites <= 0) {
+ return;
+ }
+ lck_mtx_lock(&nmp->nm_lock);
+ if (nmp->nm_asyncwrites-- >= nfs_max_async_writes) {
+ wakeup(&nmp->nm_asyncwrites);
+ }
+ lck_mtx_unlock(&nmp->nm_lock);
+}
/*
- * Vnode op for write using bio
+ * write (or commit) the given NFS buffer
+ *
+ * Commit the buffer if we can.
+ * Write out any dirty range.
+ * If any dirty pages remain, write them out.
+ * Mark buffer done.
+ *
+ * For async requests, all the work beyond sending the initial
+ * write RPC is handled in the RPC callback(s).
*/
int
-nfs_write(ap)
- struct vnop_write_args /* {
- struct vnodeop_desc *a_desc;
- vnode_t a_vp;
- struct uio *a_uio;
- int a_ioflag;
- vfs_context_t a_context;
- } */ *ap;
+nfs_buf_write(struct nfsbuf *bp)
{
- struct uio *uio = ap->a_uio;
- vnode_t vp = ap->a_vp;
- struct nfsnode *np = VTONFS(vp);
- proc_t p;
+ int error = 0, oldflags, async;
+ nfsnode_t np;
+ thread_t thd;
kauth_cred_t cred;
- int ioflag = ap->a_ioflag;
- struct nfsbuf *bp;
- struct nfs_vattr nvattr;
- struct nfsmount *nmp = VFSTONFS(vnode_mount(vp));
- daddr64_t lbn;
- int biosize, bufsize;
- int n, on, error = 0;
- off_t boff, start, end, cureof;
- struct iovec_32 iov;
- struct uio auio;
-
- FSDBG_TOP(515, vp, uio->uio_offset, uio_uio_resid(uio), ioflag);
-
-#if DIAGNOSTIC
- if (uio->uio_rw != UIO_WRITE)
- panic("nfs_write mode");
- if (UIO_SEG_IS_USER_SPACE(uio->uio_segflg))
- panic("nfs_write proc");
-#endif
+ proc_t p = current_proc();
+ int iomode;
+ off_t doff, dend, firstpg, lastpg;
- p = vfs_context_proc(ap->a_context);
- cred = vfs_context_ucred(ap->a_context);
+ FSDBG_TOP(553, bp, NBOFF(bp), bp->nb_flags, 0);
- if (vnode_vtype(vp) != VREG)
- return (EIO);
+ if (!ISSET(bp->nb_lflags, NBL_BUSY)) {
+ panic("nfs_buf_write: buffer is not busy???");
+ }
- np->n_flag |= NWRBUSY;
+ np = bp->nb_np;
+ async = ISSET(bp->nb_flags, NB_ASYNC);
+ oldflags = bp->nb_flags;
- if (np->n_flag & NNEEDINVALIDATE) {
- np->n_flag &= ~NNEEDINVALIDATE;
- nfs_vinvalbuf(vp, V_SAVE|V_IGNORE_WRITEERR, cred, p, 1);
- }
- if (np->n_flag & NWRITEERR) {
- np->n_flag &= ~(NWRITEERR | NWRBUSY);
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), np->n_error);
- return (np->n_error);
+ CLR(bp->nb_flags, (NB_READ | NB_DONE | NB_ERROR | NB_DELWRI));
+ if (ISSET(oldflags, NB_DELWRI)) {
+ lck_mtx_lock(nfs_buf_mutex);
+ nfs_nbdwrite--;
+ NFSBUFCNTCHK();
+ lck_mtx_unlock(nfs_buf_mutex);
+ wakeup(&nfs_nbdwrite);
}
- biosize = nmp->nm_biosize;
- if ((nmp->nm_flag & NFSMNT_NFSV3) && !(nmp->nm_state & NFSSTA_GOTFSINFO))
- nfs_fsinfo(nmp, vp, cred, p);
-
- if (ioflag & (IO_APPEND | IO_SYNC)) {
- if (np->n_flag & NMODIFIED) {
- NATTRINVALIDATE(np);
- error = nfs_vinvalbuf(vp, V_SAVE, cred, p, 1);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, 0x10bad01, error);
- return (error);
- }
- }
- if (ioflag & IO_APPEND) {
- NATTRINVALIDATE(np);
- error = nfs_getattr(vp, &nvattr, cred, p);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, 0x10bad02, error);
- return (error);
- }
- uio->uio_offset = np->n_size;
+ /* move to clean list */
+ if (ISSET(oldflags, (NB_ASYNC | NB_DELWRI))) {
+ lck_mtx_lock(nfs_buf_mutex);
+ if (bp->nb_vnbufs.le_next != NFSNOLIST) {
+ LIST_REMOVE(bp, nb_vnbufs);
}
+ LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+ nfs_node_lock_force(np);
+ np->n_numoutput++;
+ nfs_node_unlock(np);
+ vnode_startwrite(NFSTOV(np));
+
+ if (p && p->p_stats) {
+ OSIncrementAtomicLong(&p->p_stats->p_ru.ru_oublock);
}
- if (uio->uio_offset < 0) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, 0xbad0ff, EINVAL);
- return (EINVAL);
+
+ cred = bp->nb_wcred;
+ if (!IS_VALID_CRED(cred) && ISSET(bp->nb_flags, NB_READ)) {
+ cred = bp->nb_rcred; /* shouldn't really happen, but... */
}
- if (uio_uio_resid(uio) == 0) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), 0);
- return (0);
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
}
+ thd = async ? NULL : current_thread();
- if (vnode_isnocache(vp)) {
- if (!(np->n_flag & NNOCACHE)) {
- if (NVALIDBUFS(np)) {
- error = nfs_vinvalbuf(vp, V_SAVE, cred, p, 1);
+ /* We need to make sure the pages are locked before doing I/O. */
+ if (!ISSET(bp->nb_flags, NB_META)) {
+ if (UBCINFOEXISTS(NFSTOV(np))) {
+ if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
+ error = nfs_buf_upl_setup(bp);
if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, 0, 0, error);
- return (error);
+ printf("nfs_buf_write: upl create failed %d\n", error);
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = EIO;
+ nfs_buf_iodone(bp);
+ goto out;
}
+ nfs_buf_upl_check(bp);
}
- np->n_flag |= NNOCACHE;
+ } else {
+ /* We should never be in nfs_buf_write() with no UBCINFO. */
+ printf("nfs_buf_write: ubcinfo already gone\n");
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = EIO;
+ nfs_buf_iodone(bp);
+ goto out;
}
- } else if (np->n_flag & NNOCACHE) {
- np->n_flag &= ~NNOCACHE;
}
- do {
- OSAddAtomic(1, (SInt32*)&nfsstats.biocache_writes);
- lbn = uio->uio_offset / biosize;
- on = uio->uio_offset % biosize;
- // LP64todo - fix this
- n = min((unsigned)(biosize - on), uio_uio_resid(uio));
-again:
- bufsize = biosize;
- /*
- * Get a cache block for writing. The range to be written is
- * (off..off+n) within the block. We ensure that the block
- * either has no dirty region or that the given range is
- * contiguous with the existing dirty region.
- */
- error = nfs_buf_get(vp, lbn, bufsize, p, NBLK_WRITE, &bp);
+ /* If NB_NEEDCOMMIT is set, a commit RPC may do the trick. */
+ if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_buf_check_write_verifier(np, bp);
+ }
+ if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ struct nfsmount *nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = EIO;
+ nfs_buf_iodone(bp);
+ goto out;
+ }
+ SET(bp->nb_flags, NB_WRITEINPROG);
+ error = nmp->nm_funcs->nf_commit_rpc(np, NBOFF(bp) + bp->nb_dirtyoff,
+ bp->nb_dirtyend - bp->nb_dirtyoff, bp->nb_wcred, bp->nb_verf);
+ CLR(bp->nb_flags, NB_WRITEINPROG);
if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ if (error != NFSERR_STALEWRITEVERF) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ }
+ nfs_buf_iodone(bp);
+ goto out;
}
- /* map the block because we know we're going to write to it */
+ bp->nb_dirtyoff = bp->nb_dirtyend = 0;
+ CLR(bp->nb_flags, NB_NEEDCOMMIT);
+ nfs_node_lock_force(np);
+ np->n_needcommitcnt--;
+ CHECK_NEEDCOMMITCNT(np);
+ nfs_node_unlock(np);
+ }
+ if (!error && (bp->nb_dirtyend > 0)) {
+ /* sanity check the dirty range */
+ if (NBOFF(bp) + bp->nb_dirtyend > (off_t) np->n_size) {
+ bp->nb_dirtyend = np->n_size - NBOFF(bp);
+ if (bp->nb_dirtyoff >= bp->nb_dirtyend) {
+ bp->nb_dirtyoff = bp->nb_dirtyend = 0;
+ }
+ }
+ }
+ if (!error && (bp->nb_dirtyend > 0)) {
+ /* there's a dirty range that needs to be written out */
+ nfsbufpgs pagemask, pagemaskand;
NFS_BUF_MAP(bp);
- if (np->n_flag & NNOCACHE)
- SET(bp->nb_flags, NB_NOCACHE);
+ doff = bp->nb_dirtyoff;
+ dend = bp->nb_dirtyend;
- if (!IS_VALID_CRED(bp->nb_wcred)) {
- kauth_cred_ref(cred);
- bp->nb_wcred = cred;
+ /* if doff page is dirty, move doff to start of page */
+ if (NBPGDIRTY(bp, doff / PAGE_SIZE)) {
+ doff -= doff & PAGE_MASK;
}
-
- /*
- * If there's already a dirty range AND dirty pages in this block we
- * need to send a commit AND write the dirty pages before continuing.
- *
- * If there's already a dirty range OR dirty pages in this block
- * and the new write range is not contiguous with the existing range,
- * then force the buffer to be written out now.
- * (We used to just extend the dirty range to cover the valid,
- * but unwritten, data in between also. But writing ranges
- * of data that weren't actually written by an application
- * risks overwriting some other client's data with stale data
- * that's just masquerading as new written data.)
- */
- if (bp->nb_dirtyend > 0) {
- if (on > bp->nb_dirtyend || (on + n) < bp->nb_dirtyoff || bp->nb_dirty) {
- FSDBG(515, vp, uio->uio_offset, bp, 0xd15c001);
- /* write/commit buffer "synchronously" */
- /* (NB_STABLE indicates that data writes should be FILESYNC) */
- CLR(bp->nb_flags, (NB_DONE | NB_ERROR | NB_INVAL));
- SET(bp->nb_flags, (NB_ASYNC | NB_STABLE));
- error = nfs_buf_write(bp);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ /* try to expand write range to include preceding dirty pages */
+ if (!(doff & PAGE_MASK)) {
+ while ((doff > 0) && NBPGDIRTY(bp, (doff - 1) / PAGE_SIZE)) {
+ doff -= PAGE_SIZE;
}
- goto again;
- }
- } else if (bp->nb_dirty) {
- int firstpg, lastpg;
- u_int32_t pagemask;
- /* calculate write range pagemask */
- firstpg = on/PAGE_SIZE;
- lastpg = (on+n-1)/PAGE_SIZE;
- pagemask = ((1 << (lastpg+1)) - 1) & ~((1 << firstpg) - 1);
- /* check if there are dirty pages outside the write range */
- if (bp->nb_dirty & ~pagemask) {
- FSDBG(515, vp, uio->uio_offset, bp, 0xd15c002);
- /* write/commit buffer "synchronously" */
- /* (NB_STABLE indicates that data writes should be FILESYNC) */
- CLR(bp->nb_flags, (NB_DONE | NB_ERROR | NB_INVAL));
- SET(bp->nb_flags, (NB_ASYNC | NB_STABLE));
- error = nfs_buf_write(bp);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ }
+ /* if dend page is dirty, move dend to start of next page */
+ if ((dend & PAGE_MASK) && NBPGDIRTY(bp, dend / PAGE_SIZE)) {
+ dend = round_page_64(dend);
+ }
+ /* try to expand write range to include trailing dirty pages */
+ if (!(dend & PAGE_MASK)) {
+ while ((dend < (int)bp->nb_bufsize) && NBPGDIRTY(bp, dend / PAGE_SIZE)) {
+ dend += PAGE_SIZE;
}
- goto again;
- }
- /* if the first or last pages are already dirty */
- /* make sure that the dirty range encompasses those pages */
- if (NBPGDIRTY(bp,firstpg) || NBPGDIRTY(bp,lastpg)) {
- FSDBG(515, vp, uio->uio_offset, bp, 0xd15c003);
- bp->nb_dirtyoff = min(on, firstpg * PAGE_SIZE);
- if (NBPGDIRTY(bp,lastpg)) {
- bp->nb_dirtyend = (lastpg+1) * PAGE_SIZE;
- /* clip to EOF */
- if (NBOFF(bp) + bp->nb_dirtyend > (off_t)np->n_size)
- bp->nb_dirtyend = np->n_size - NBOFF(bp);
- } else
- bp->nb_dirtyend = on+n;
- }
+ }
+ /* make sure to keep dend clipped to EOF */
+ if ((NBOFF(bp) + dend) > (off_t) np->n_size) {
+ dend = np->n_size - NBOFF(bp);
+ }
+ /* calculate range of complete pages being written */
+ if (dend > doff) {
+ firstpg = doff / PAGE_SIZE;
+ lastpg = (dend - 1) / PAGE_SIZE;
+ /* calculate mask for that page range */
+ nfs_buf_pgs_set_pages_between(&pagemask, firstpg, lastpg + 1);
+ } else {
+ NBPGS_ERASE(&pagemask);
}
/*
- * Are we extending the size of the file with this write?
- * If so, update file size now that we have the block.
- * If there was a partial buf at the old eof, validate
- * and zero the new bytes.
+ * compare page mask to nb_dirty; if there are other dirty pages
+ * then write FILESYNC; otherwise, write UNSTABLE if async and
+ * not needcommit/stable; otherwise write FILESYNC
*/
- cureof = (off_t)np->n_size;
- if (uio->uio_offset + n > (off_t)np->n_size) {
- struct nfsbuf *eofbp = NULL;
- daddr64_t eofbn = np->n_size / biosize;
- int eofoff = np->n_size % biosize;
- int neweofoff = (uio->uio_offset + n) % biosize;
+ nfs_buf_pgs_bit_not(&pagemask);
+ nfs_buf_pgs_bit_and(&bp->nb_dirty, &pagemask, &pagemaskand);
+ if (nfs_buf_pgs_is_set(&pagemaskand)) {
+ iomode = NFS_WRITE_FILESYNC;
+ } else if ((bp->nb_flags & (NB_ASYNC | NB_NEEDCOMMIT | NB_STABLE)) == NB_ASYNC) {
+ iomode = NFS_WRITE_UNSTABLE;
+ } else {
+ iomode = NFS_WRITE_FILESYNC;
+ }
- FSDBG(515, 0xb1ffa000, uio->uio_offset + n, eofoff, neweofoff);
+ /* write the whole contiguous dirty range */
+ bp->nb_offio = doff;
+ bp->nb_endio = dend;
- if (eofoff && (eofbn < lbn)) {
- error = nfs_buf_get(vp, eofbn, biosize, p, NBLK_WRITE|NBLK_ONLYVALID, &eofbp);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
- }
- }
+ OSAddAtomic64(1, &nfsstats.write_bios);
- /* if we're extending within the same last block */
- /* and the block is flagged as being cached... */
- if ((lbn == eofbn) && ISSET(bp->nb_flags, NB_CACHE)) {
- /* ...check that all pages in buffer are valid */
- int endpg = ((neweofoff ? neweofoff : biosize) - 1)/PAGE_SIZE;
- u_int32_t pagemask;
- /* pagemask only has to extend to last page being written to */
- pagemask = (1 << (endpg+1)) - 1;
- FSDBG(515, 0xb1ffa001, bp->nb_valid, pagemask, 0);
- if ((bp->nb_valid & pagemask) != pagemask) {
- /* zerofill any hole */
- if (on > bp->nb_validend) {
- int i;
- for (i=bp->nb_validend/PAGE_SIZE; i <= (on - 1)/PAGE_SIZE; i++)
- NBPGVALID_SET(bp, i);
- NFS_BUF_MAP(bp);
- FSDBG(516, bp, bp->nb_validend, on - bp->nb_validend, 0xf01e);
- bzero((char *)bp->nb_data + bp->nb_validend,
- on - bp->nb_validend);
- }
- /* zerofill any trailing data in the last page */
- if (neweofoff) {
- NFS_BUF_MAP(bp);
- FSDBG(516, bp, neweofoff, PAGE_SIZE - (neweofoff & PAGE_MASK), 0xe0f);
- bzero((char *)bp->nb_data + neweofoff,
- PAGE_SIZE - (neweofoff & PAGE_MASK));
- }
- }
+ SET(bp->nb_flags, NB_WRITEINPROG);
+ error = nfs_buf_write_rpc(bp, iomode, thd, cred);
+ /*
+ * For async I/O, the callbacks will finish up the
+ * write and push out any dirty pages. Otherwise,
+ * the write has already been finished and any dirty
+ * pages pushed out.
+ */
+ } else {
+ if (!error && nfs_buf_pgs_is_set(&bp->nb_dirty)) { /* write out any dirty pages */
+ error = nfs_buf_write_dirty_pages(bp, thd, cred);
+ }
+ nfs_buf_iodone(bp);
+ }
+ /* note: bp is still valid only for !async case */
+out:
+ if (!async) {
+ error = nfs_buf_iowait(bp);
+ /* move to clean list */
+ if (oldflags & NB_DELWRI) {
+ lck_mtx_lock(nfs_buf_mutex);
+ if (bp->nb_vnbufs.le_next != NFSNOLIST) {
+ LIST_REMOVE(bp, nb_vnbufs);
}
- np->n_flag |= NMODIFIED;
- np->n_size = uio->uio_offset + n;
- ubc_setsize(vp, (off_t)np->n_size); /* XXX errors */
- if (eofbp) {
+ LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+ FSDBG_BOT(553, bp, NBOFF(bp), bp->nb_flags, error);
+ nfs_buf_release(bp, 1);
+ /* check if we need to invalidate (and we can) */
+ if ((np->n_flag & NNEEDINVALIDATE) &&
+ !(np->n_bflag & (NBINVALINPROG | NBFLUSHINPROG))) {
+ int invalidate = 0;
+ nfs_node_lock_force(np);
+ if (np->n_flag & NNEEDINVALIDATE) {
+ invalidate = 1;
+ np->n_flag &= ~NNEEDINVALIDATE;
+ }
+ nfs_node_unlock(np);
+ if (invalidate) {
/*
- * We may need to zero any previously invalid data
- * after the old EOF in the previous EOF buffer.
+ * There was a write error and we need to
+ * invalidate attrs and flush buffers in
+ * order to sync up with the server.
+ * (if this write was extending the file,
+ * we may no longer know the correct size)
*
- * For the old last page, don't zero bytes if there
- * are invalid bytes in that page (i.e. the page isn't
- * currently valid).
- * For pages after the old last page, zero them and
- * mark them as valid.
+ * But we couldn't call vinvalbuf while holding
+ * the buffer busy. So we call vinvalbuf() after
+ * releasing the buffer.
*/
- char *d;
- int i;
- if (np->n_flag & NNOCACHE)
- SET(eofbp->nb_flags, NB_NOCACHE);
- NFS_BUF_MAP(eofbp);
- FSDBG(516, eofbp, eofoff, biosize - eofoff, 0xe0fff01e);
- d = eofbp->nb_data;
- i = eofoff/PAGE_SIZE;
- while (eofoff < biosize) {
- int poff = eofoff & PAGE_MASK;
- if (!poff || NBPGVALID(eofbp,i)) {
- bzero(d + eofoff, PAGE_SIZE - poff);
- NBPGVALID_SET(eofbp, i);
- }
- if (bp->nb_validend == eofoff)
- bp->nb_validend += PAGE_SIZE - poff;
- eofoff += PAGE_SIZE - poff;
- i++;
- }
- nfs_buf_release(eofbp, 1);
+ nfs_vinvalbuf2(NFSTOV(np), V_SAVE | V_IGNORE_WRITEERR, thd, cred, 1);
}
}
- /*
- * If dirtyend exceeds file size, chop it down. This should
- * not occur unless there is a race.
- */
- if (NBOFF(bp) + bp->nb_dirtyend > (off_t)np->n_size)
- bp->nb_dirtyend = np->n_size - NBOFF(bp);
- /*
- * UBC doesn't handle partial pages, so we need to make sure
- * that any pages left in the page cache are completely valid.
- *
- * Writes that are smaller than a block are delayed if they
- * don't extend to the end of the block.
- *
- * If the block isn't (completely) cached, we may need to read
- * in some parts of pages that aren't covered by the write.
- * If the write offset (on) isn't page aligned, we'll need to
- * read the start of the first page being written to. Likewise,
- * if the offset of the end of the write (on+n) isn't page aligned,
- * we'll need to read the end of the last page being written to.
- *
- * Notes:
- * We don't want to read anything we're just going to write over.
- * We don't want to issue multiple I/Os if we don't have to
- * (because they're synchronous rpcs).
- * We don't want to read anything we already have modified in the
- * page cache.
- */
- if (!ISSET(bp->nb_flags, NB_CACHE) && n < biosize) {
- int firstpg, lastpg, dirtypg;
- int firstpgoff, lastpgoff;
- start = end = -1;
- firstpg = on/PAGE_SIZE;
- firstpgoff = on & PAGE_MASK;
- lastpg = (on+n-1)/PAGE_SIZE;
- lastpgoff = (on+n) & PAGE_MASK;
- if (firstpgoff && !NBPGVALID(bp,firstpg)) {
- /* need to read start of first page */
- start = firstpg * PAGE_SIZE;
- end = start + firstpgoff;
- }
- if (lastpgoff && !NBPGVALID(bp,lastpg)) {
- /* need to read end of last page */
- if (start < 0)
- start = (lastpg * PAGE_SIZE) + lastpgoff;
- end = (lastpg + 1) * PAGE_SIZE;
- }
- if (end > start) {
- /* need to read the data in range: start...end-1 */
-
- /* first, check for dirty pages in between */
- /* if there are, we'll have to do two reads because */
- /* we don't want to overwrite the dirty pages. */
- for (dirtypg=start/PAGE_SIZE; dirtypg <= (end-1)/PAGE_SIZE; dirtypg++)
- if (NBPGDIRTY(bp,dirtypg))
- break;
-
- /* if start is at beginning of page, try */
- /* to get any preceeding pages as well. */
- if (!(start & PAGE_MASK)) {
- /* stop at next dirty/valid page or start of block */
- for (; start > 0; start-=PAGE_SIZE)
- if (NBPGVALID(bp,((start-1)/PAGE_SIZE)))
- break;
- }
+ }
- NFS_BUF_MAP(bp);
- /* setup uio for read(s) */
- boff = NBOFF(bp);
- auio.uio_iovs.iov32p = &iov;
- auio.uio_iovcnt = 1;
-#if 1 /* LP64todo - can't use new segment flags until the drivers are ready */
- auio.uio_segflg = UIO_SYSSPACE;
-#else
- auio.uio_segflg = UIO_SYSSPACE32;
-#endif
- auio.uio_rw = UIO_READ;
-
- if (dirtypg <= (end-1)/PAGE_SIZE) {
- /* there's a dirty page in the way, so just do two reads */
- /* we'll read the preceding data here */
- auio.uio_offset = boff + start;
- iov.iov_len = on - start;
- uio_uio_resid_set(&auio, iov.iov_len);
- iov.iov_base = (uintptr_t) bp->nb_data + start;
- error = nfs_readrpc(vp, &auio, cred, p);
- if (error) {
- bp->nb_error = error;
- SET(bp->nb_flags, NB_ERROR);
- printf("nfs_write: readrpc %d", error);
- }
- if (uio_uio_resid(&auio) > 0) {
- FSDBG(516, bp, iov.iov_base - bp->nb_data, uio_uio_resid(&auio), 0xd00dee01);
- // LP64todo - fix this
- bzero((caddr_t)iov.iov_base, uio_uio_resid(&auio));
- }
- /* update validoff/validend if necessary */
- if ((bp->nb_validoff < 0) || (bp->nb_validoff > start))
- bp->nb_validoff = start;
- if ((bp->nb_validend < 0) || (bp->nb_validend < on))
- bp->nb_validend = on;
- if ((off_t)np->n_size > boff + bp->nb_validend)
- bp->nb_validend = min(np->n_size - (boff + start), biosize);
- /* validate any pages before the write offset */
- for (; start < on/PAGE_SIZE; start+=PAGE_SIZE)
- NBPGVALID_SET(bp, start/PAGE_SIZE);
- /* adjust start to read any trailing data */
- start = on+n;
- }
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ return error;
+}
- /* if end is at end of page, try to */
- /* get any following pages as well. */
- if (!(end & PAGE_MASK)) {
- /* stop at next valid page or end of block */
- for (; end < bufsize; end+=PAGE_SIZE)
- if (NBPGVALID(bp,end/PAGE_SIZE))
- break;
- }
+/*
+ * finish the writing of a buffer
+ */
+void
+nfs_buf_write_finish(struct nfsbuf *bp, thread_t thd, kauth_cred_t cred)
+{
+ nfsnode_t np = bp->nb_np;
+ int error = (bp->nb_flags & NB_ERROR) ? bp->nb_error : 0;
+ off_t firstpg, lastpg;
- if (((boff+start) >= cureof) || ((start >= on) && ((boff + on + n) >= cureof))) {
- /*
- * Either this entire read is beyond the current EOF
- * or the range that we won't be modifying (on+n...end)
- * is all beyond the current EOF.
- * No need to make a trip across the network to
- * read nothing. So, just zero the buffer instead.
- */
- FSDBG(516, bp, start, end - start, 0xd00dee00);
- bzero(bp->nb_data + start, end - start);
- } else {
- /* now we'll read the (rest of the) data */
- auio.uio_offset = boff + start;
- iov.iov_len = end - start;
- uio_uio_resid_set(&auio, iov.iov_len);
- iov.iov_base = (uintptr_t) (bp->nb_data + start);
- error = nfs_readrpc(vp, &auio, cred, p);
- if (error) {
- bp->nb_error = error;
- SET(bp->nb_flags, NB_ERROR);
- printf("nfs_write: readrpc %d", error);
- }
- if (uio_uio_resid(&auio) > 0) {
- FSDBG(516, bp, iov.iov_base - bp->nb_data, uio_uio_resid(&auio), 0xd00dee02);
- // LP64todo - fix this
- bzero((caddr_t)iov.iov_base, uio_uio_resid(&auio));
- }
- }
- /* update validoff/validend if necessary */
- if ((bp->nb_validoff < 0) || (bp->nb_validoff > start))
- bp->nb_validoff = start;
- if ((bp->nb_validend < 0) || (bp->nb_validend < end))
- bp->nb_validend = end;
- if ((off_t)np->n_size > boff + bp->nb_validend)
- bp->nb_validend = min(np->n_size - (boff + start), biosize);
- /* validate any pages before the write offset's page */
- for (; start < trunc_page_32(on); start+=PAGE_SIZE)
- NBPGVALID_SET(bp, start/PAGE_SIZE);
- /* validate any pages after the range of pages being written to */
- for (; (end - 1) > round_page_32(on+n-1); end-=PAGE_SIZE)
- NBPGVALID_SET(bp, (end-1)/PAGE_SIZE);
- /* Note: pages being written to will be validated when written */
- }
+ if ((error == EINTR) || (error == ERESTART)) {
+ CLR(bp->nb_flags, NB_ERROR);
+ SET(bp->nb_flags, NB_EINTR);
+ }
+
+ if (!error) {
+ nfsbufpgs pagemask;
+ /* calculate range of complete pages being written */
+ if (bp->nb_endio > bp->nb_offio) {
+ firstpg = bp->nb_offio / PAGE_SIZE;
+ lastpg = (bp->nb_endio - 1) / PAGE_SIZE;
+ /* calculate mask for that page range written */
+ nfs_buf_pgs_set_pages_between(&pagemask, firstpg, lastpg + 1);
+ } else {
+ NBPGS_ERASE(&pagemask);
}
+ /* clear dirty bits for pages we've written */
+ nfs_buf_pgs_bit_not(&pagemask);
+ nfs_buf_pgs_bit_and(&bp->nb_dirty, &pagemask, &bp->nb_dirty);
+ }
- if (ISSET(bp->nb_flags, NB_ERROR)) {
- error = bp->nb_error;
- nfs_buf_release(bp, 1);
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ /* manage needcommit state */
+ if (!error && (bp->nb_commitlevel == NFS_WRITE_UNSTABLE)) {
+ if (!ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_node_lock_force(np);
+ np->n_needcommitcnt++;
+ nfs_node_unlock(np);
+ SET(bp->nb_flags, NB_NEEDCOMMIT);
}
+ /* make sure nb_dirtyoff/nb_dirtyend reflect actual range written */
+ bp->nb_dirtyoff = bp->nb_offio;
+ bp->nb_dirtyend = bp->nb_endio;
+ } else if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_node_lock_force(np);
+ np->n_needcommitcnt--;
+ CHECK_NEEDCOMMITCNT(np);
+ nfs_node_unlock(np);
+ CLR(bp->nb_flags, NB_NEEDCOMMIT);
+ }
- np->n_flag |= NMODIFIED;
+ CLR(bp->nb_flags, NB_WRITEINPROG);
- NFS_BUF_MAP(bp);
- error = uiomove((char *)bp->nb_data + on, n, uio);
- if (error) {
- SET(bp->nb_flags, NB_ERROR);
- nfs_buf_release(bp, 1);
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ /*
+ * For an unstable write, the buffer is still treated as dirty until
+ * a commit (or stable (re)write) is performed. Buffers needing only
+ * a commit are marked with the NB_DELWRI and NB_NEEDCOMMIT flags.
+ *
+ * If the write was interrupted we set NB_EINTR. Don't set NB_ERROR
+ * because that would cause the buffer to be dropped. The buffer is
+ * still valid and simply needs to be written again.
+ */
+ if ((error == EINTR) || (error == ERESTART) || (!error && (bp->nb_flags & NB_NEEDCOMMIT))) {
+ CLR(bp->nb_flags, NB_INVAL);
+ if (!ISSET(bp->nb_flags, NB_DELWRI)) {
+ SET(bp->nb_flags, NB_DELWRI);
+ lck_mtx_lock(nfs_buf_mutex);
+ nfs_nbdwrite++;
+ NFSBUFCNTCHK();
+ lck_mtx_unlock(nfs_buf_mutex);
}
-
- /* validate any pages written to */
- start = on & ~PAGE_MASK;
- for (; start < on+n; start += PAGE_SIZE) {
- NBPGVALID_SET(bp, start/PAGE_SIZE);
+ /*
+ * Since for the NB_ASYNC case, we've reassigned the buffer to the
+ * clean list, we have to reassign it back to the dirty one. Ugh.
+ */
+ if (ISSET(bp->nb_flags, NB_ASYNC)) {
+ /* move to dirty list */
+ lck_mtx_lock(nfs_buf_mutex);
+ if (bp->nb_vnbufs.le_next != NFSNOLIST) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ }
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+ } else {
+ /* either there's an error or we don't need to commit */
+ if (error) {
/*
- * This may seem a little weird, but we don't actually set the
- * dirty bits for writes. This is because we keep the dirty range
- * in the nb_dirtyoff/nb_dirtyend fields. Also, particularly for
- * delayed writes, when we give the pages back to the VM we don't
- * want to keep them marked dirty, because when we later write the
- * buffer we won't be able to tell which pages were written dirty
- * and which pages were mmapped and dirtied.
+ * There was a write error and we need to invalidate
+ * attrs and flush buffers in order to sync up with the
+ * server. (if this write was extending the file, we
+ * may no longer know the correct size)
+ *
+ * But we can't call vinvalbuf while holding this
+ * buffer busy. Set a flag to do it after releasing
+ * the buffer.
*/
+ nfs_node_lock_force(np);
+ np->n_error = error;
+ np->n_flag |= (NWRITEERR | NNEEDINVALIDATE);
+ NATTRINVALIDATE(np);
+ nfs_node_unlock(np);
}
- if (bp->nb_dirtyend > 0) {
- bp->nb_dirtyoff = min(on, bp->nb_dirtyoff);
- bp->nb_dirtyend = max((on + n), bp->nb_dirtyend);
- } else {
- bp->nb_dirtyoff = on;
- bp->nb_dirtyend = on + n;
+ /* clear the dirty range */
+ bp->nb_dirtyoff = bp->nb_dirtyend = 0;
+ }
+
+ if (!error && nfs_buf_pgs_is_set(&bp->nb_dirty)) {
+ nfs_buf_write_dirty_pages(bp, thd, cred);
+ }
+ nfs_buf_iodone(bp);
+}
+
+/*
+ * write out any pages marked dirty in a buffer
+ *
+ * We do use unstable writes and follow up with a commit.
+ * If we catch the write verifier changing we'll restart
+ * do the writes filesync.
+ */
+int
+nfs_buf_write_dirty_pages(struct nfsbuf *bp, thread_t thd, kauth_cred_t cred)
+{
+ nfsnode_t np = bp->nb_np;
+ struct nfsmount *nmp = NFSTONMP(np);
+ int error = 0, commit, iomode, iomode2, len, pg, count, npages, off;
+ nfsbufpgs dirty;
+ uint64_t wverf;
+ uio_t auio;
+ char uio_buf[UIO_SIZEOF(1)];
+
+ if (!nfs_buf_pgs_is_set(&bp->nb_dirty)) {
+ return 0;
+ }
+
+ /* there are pages marked dirty that need to be written out */
+ OSAddAtomic64(1, &nfsstats.write_bios);
+ NFS_BUF_MAP(bp);
+ SET(bp->nb_flags, NB_WRITEINPROG);
+ npages = bp->nb_bufsize / PAGE_SIZE;
+ iomode = NFS_WRITE_UNSTABLE;
+
+ auio = uio_createwithbuffer(1, 0, UIO_SYSSPACE, UIO_WRITE,
+ &uio_buf, sizeof(uio_buf));
+
+again:
+ NBPGS_COPY(&dirty, &bp->nb_dirty);
+ wverf = bp->nb_verf;
+ commit = NFS_WRITE_FILESYNC;
+ for (pg = 0; pg < npages; pg++) {
+ if (!NBPGDIRTY(bp, pg)) {
+ continue;
}
- if (bp->nb_validend <= 0 || bp->nb_validend < bp->nb_dirtyoff ||
- bp->nb_validoff > bp->nb_dirtyend) {
- bp->nb_validoff = bp->nb_dirtyoff;
- bp->nb_validend = bp->nb_dirtyend;
- } else {
- bp->nb_validoff = min(bp->nb_validoff, bp->nb_dirtyoff);
- bp->nb_validend = max(bp->nb_validend, bp->nb_dirtyend);
+ count = 1;
+ while (((pg + count) < npages) && NBPGDIRTY(bp, pg + count)) {
+ count++;
}
- if (!ISSET(bp->nb_flags, NB_CACHE))
- nfs_buf_normalize_valid_range(np, bp);
-
+ /* write count pages starting with page pg */
+ off = pg * PAGE_SIZE;
+ len = count * PAGE_SIZE;
+ /* clip writes to EOF */
+ if (NBOFF(bp) + off + len > (off_t) np->n_size) {
+ len -= (NBOFF(bp) + off + len) - np->n_size;
+ }
+ if (len > 0) {
+ iomode2 = iomode;
+ uio_reset(auio, NBOFF(bp) + off, UIO_SYSSPACE, UIO_WRITE);
+ uio_addiov(auio, CAST_USER_ADDR_T(bp->nb_data + off), len);
+ error = nfs_write_rpc2(np, auio, thd, cred, &iomode2, &bp->nb_verf);
+ if (error) {
+ break;
+ }
+ if (iomode2 < commit) { /* Retain the lowest commitment level returned. */
+ commit = iomode2;
+ }
+ if ((commit != NFS_WRITE_FILESYNC) && (wverf != bp->nb_verf)) {
+ /* verifier changed, redo all the writes filesync */
+ iomode = NFS_WRITE_FILESYNC;
+ goto again;
+ }
+ }
+ /* clear dirty bits */
+ while (count--) {
+ NBPGS_UNSET(&dirty, pg);
+ if (count) { /* leave pg on last page */
+ pg++;
+ }
+ }
+ }
+ CLR(bp->nb_flags, NB_WRITEINPROG);
+
+ if (!error && (commit != NFS_WRITE_FILESYNC)) {
+ error = nmp->nm_funcs->nf_commit_rpc(np, NBOFF(bp), bp->nb_bufsize, cred, wverf);
+ if (error == NFSERR_STALEWRITEVERF) {
+ /* verifier changed, so we need to restart all the writes */
+ iomode = NFS_WRITE_FILESYNC;
+ goto again;
+ }
+ }
+ if (!error) {
+ NBPGS_COPY(&bp->nb_dirty, &dirty);
+ } else {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ }
+ return error;
+}
+
+/*
+ * initiate the NFS WRITE RPC(s) for a buffer
+ */
+int
+nfs_buf_write_rpc(struct nfsbuf *bp, int iomode, thread_t thd, kauth_cred_t cred)
+{
+ struct nfsmount *nmp;
+ nfsnode_t np = bp->nb_np;
+ int error = 0, nfsvers, async;
+ int64_t nrpcs;
+ size_t len;
+ uint32_t nmwsize;
+ struct nfsreq *req;
+ struct nfsreq_cbinfo cb;
+ uio_t auio;
+ char uio_buf[UIO_SIZEOF(1)];
+ off_t offset, length;
+
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ bp->nb_error = error = ENXIO;
+ SET(bp->nb_flags, NB_ERROR);
+ nfs_buf_iodone(bp);
+ return error;
+ }
+ nfsvers = nmp->nm_vers;
+ nmwsize = nmp->nm_wsize;
+
+ offset = bp->nb_offio;
+ length = bp->nb_endio - bp->nb_offio;
+
+ /* Note: Can only do async I/O if nfsiods are configured. */
+ async = (bp->nb_flags & NB_ASYNC) && (NFSIOD_MAX > 0);
+ bp->nb_commitlevel = NFS_WRITE_FILESYNC;
+ cb.rcb_func = async ? nfs_buf_write_rpc_finish : NULL;
+ cb.rcb_bp = bp;
+
+ if ((nfsvers == NFS_VER2) && ((NBOFF(bp) + bp->nb_endio) > 0xffffffffLL)) {
+ bp->nb_error = error = EFBIG;
+ SET(bp->nb_flags, NB_ERROR);
+ nfs_buf_iodone(bp);
+ return error;
+ }
+
+ if (length == 0) {
+ /* We should never get here */
+#if DEVELOPMENT
+ printf("nfs_buf_write_rpc: Got request with zero length. np %p, bp %p, offset %lld\n", np, bp, offset);
+#else
+ printf("nfs_buf_write_rpc: Got request with zero length.\n");
+#endif /* DEVELOPMENT */
+ nfs_buf_iodone(bp);
+ return 0;
+ }
+
+ auio = uio_createwithbuffer(1, NBOFF(bp) + offset, UIO_SYSSPACE,
+ UIO_WRITE, &uio_buf, sizeof(uio_buf));
+ NFS_UIO_ADDIOV(auio, CAST_USER_ADDR_T(bp->nb_data + offset), length);
+
+ bp->nb_rpcs = nrpcs = (length + nmwsize - 1) / nmwsize;
+ if (async && (nrpcs > 1)) {
+ SET(bp->nb_flags, NB_MULTASYNCRPC);
+ } else {
+ CLR(bp->nb_flags, NB_MULTASYNCRPC);
+ }
+
+ while (length > 0) {
+ if (ISSET(bp->nb_flags, NB_ERROR)) {
+ error = bp->nb_error;
+ break;
+ }
+ len = (length > nmwsize) ? nmwsize : (uint32_t)length;
+ cb.rcb_args.offset = offset;
+ cb.rcb_args.length = len;
+#if CONFIG_NFS4
+ if (nmp->nm_vers >= NFS_VER4) {
+ cb.rcb_args.stategenid = nmp->nm_stategenid;
+ }
+#endif
+ if (async && ((error = nfs_async_write_start(nmp)))) {
+ break;
+ }
+ req = NULL;
+ error = nmp->nm_funcs->nf_write_rpc_async(np, auio, len, thd, cred,
+ iomode, &cb, &req);
+ if (error) {
+ if (async) {
+ nfs_async_write_done(nmp);
+ }
+ break;
+ }
+ offset += len;
+ length -= len;
+ if (async) {
+ continue;
+ }
+ nfs_buf_write_rpc_finish(req);
+ }
+
+ if (length > 0) {
+ /*
+ * Something bad happened while trying to send the RPCs.
+ * Wait for any outstanding requests to complete.
+ */
+ bp->nb_error = error;
+ SET(bp->nb_flags, NB_ERROR);
+ if (ISSET(bp->nb_flags, NB_MULTASYNCRPC)) {
+ nrpcs = (length + nmwsize - 1) / nmwsize;
+ lck_mtx_lock(nfs_buf_mutex);
+ bp->nb_rpcs -= nrpcs;
+ if (bp->nb_rpcs == 0) {
+ /* No RPCs left, so the buffer's done */
+ lck_mtx_unlock(nfs_buf_mutex);
+ nfs_buf_write_finish(bp, thd, cred);
+ } else {
+ /* wait for the last RPC to mark it done */
+ while (bp->nb_rpcs > 0) {
+ msleep(&bp->nb_rpcs, nfs_buf_mutex, 0,
+ "nfs_buf_write_rpc_cancel", NULL);
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+ } else {
+ nfs_buf_write_finish(bp, thd, cred);
+ }
+ /* It may have just been an interrupt... that's OK */
+ if (!ISSET(bp->nb_flags, NB_ERROR)) {
+ error = 0;
+ }
+ }
+
+ return error;
+}
+
+/*
+ * finish up an NFS WRITE RPC on a buffer
+ */
+void
+nfs_buf_write_rpc_finish(struct nfsreq *req)
+{
+ int error = 0, nfsvers, multasyncrpc, finished;
+ int committed = NFS_WRITE_FILESYNC;
+ uint64_t wverf = 0;
+ off_t offset;
+ size_t rlen, length;
+ void *wakeme = NULL;
+ struct nfsreq_cbinfo cb;
+ struct nfsreq *wreq = NULL;
+ struct nfsbuf *bp;
+ struct nfsmount *nmp;
+ nfsnode_t np;
+ thread_t thd;
+ kauth_cred_t cred;
+ uio_t auio;
+ char uio_buf[UIO_SIZEOF(1)];
+
+finish:
+ np = req->r_np;
+ thd = req->r_thread;
+ cred = req->r_cred;
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_ref(cred);
+ }
+ cb = req->r_callback;
+ bp = cb.rcb_bp;
+ if (cb.rcb_func) { /* take an extra reference on the nfsreq in case we want to resend it later due to grace error */
+ nfs_request_ref(req, 0);
+ }
+
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = ENXIO;
+ }
+ if (error || ISSET(bp->nb_flags, NB_ERROR)) {
+ /* just drop it */
+ nfs_request_async_cancel(req);
+ goto out;
+ }
+ nfsvers = nmp->nm_vers;
+
+ offset = cb.rcb_args.offset;
+ rlen = length = cb.rcb_args.length;
+
+ /* finish the RPC */
+ error = nmp->nm_funcs->nf_write_rpc_async_finish(np, req, &committed, &rlen, &wverf);
+ if ((error == EINPROGRESS) && cb.rcb_func) {
+ /* async request restarted */
+ if (cb.rcb_func) {
+ nfs_request_rele(req);
+ }
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ return;
+ }
+#if CONFIG_NFS4
+ if ((nmp->nm_vers >= NFS_VER4) && nfs_mount_state_error_should_restart(error) && !ISSET(bp->nb_flags, NB_ERROR)) {
+ lck_mtx_lock(&nmp->nm_lock);
+ if ((error != NFSERR_OLD_STATEID) && (error != NFSERR_GRACE) && (cb.rcb_args.stategenid == nmp->nm_stategenid)) {
+ NP(np, "nfs_buf_write_rpc_finish: error %d @ 0x%llx, 0x%x 0x%x, initiating recovery",
+ error, NBOFF(bp) + offset, cb.rcb_args.stategenid, nmp->nm_stategenid);
+ nfs_need_recover(nmp, error);
+ }
+ lck_mtx_unlock(&nmp->nm_lock);
+ if (np->n_flag & NREVOKE) {
+ error = EIO;
+ } else {
+ if (error == NFSERR_GRACE) {
+ if (cb.rcb_func) {
+ /*
+ * For an async I/O request, handle a grace delay just like
+ * jukebox errors. Set the resend time and queue it up.
+ */
+ struct timeval now;
+ if (req->r_nmrep.nmc_mhead) {
+ mbuf_freem(req->r_nmrep.nmc_mhead);
+ req->r_nmrep.nmc_mhead = NULL;
+ }
+ req->r_error = 0;
+ microuptime(&now);
+ lck_mtx_lock(&req->r_mtx);
+ req->r_resendtime = now.tv_sec + 2;
+ req->r_xid = 0; // get a new XID
+ req->r_flags |= R_RESTART;
+ req->r_start = 0;
+ nfs_asyncio_resend(req);
+ lck_mtx_unlock(&req->r_mtx);
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ /* Note: nfsreq reference taken will be dropped later when finished */
+ return;
+ }
+ /* otherwise, just pause a couple seconds and retry */
+ tsleep(&nmp->nm_state, (PZERO - 1), "nfsgrace", 2 * hz);
+ }
+ if (!(error = nfs_mount_state_wait_for_recovery(nmp))) {
+ rlen = 0;
+ goto writeagain;
+ }
+ }
+ }
+#endif
+ if (error) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ }
+ if (error || (nfsvers == NFS_VER2)) {
+ goto out;
+ }
+ if (rlen <= 0) {
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error = EIO;
+ goto out;
+ }
+
+ /* save lowest commit level returned */
+ if (committed < bp->nb_commitlevel) {
+ bp->nb_commitlevel = committed;
+ }
+
+ /* check the write verifier */
+ if (!bp->nb_verf) {
+ bp->nb_verf = wverf;
+ } else if (bp->nb_verf != wverf) {
+ /* verifier changed, so buffer will need to be rewritten */
+ bp->nb_flags |= NB_STALEWVERF;
+ bp->nb_commitlevel = NFS_WRITE_UNSTABLE;
+ bp->nb_verf = wverf;
+ }
+
+ if (!ISSET(bp->nb_flags, NB_STALEWVERF) && rlen > 0 && (bp->nb_offio < (offset + (int)rlen))) {
+ bp->nb_offio = offset + rlen;
+ }
+
+ /*
+ * check for a short write
+ *
+ * If the server didn't write all the data, then we
+ * need to issue another write for the rest of it.
+ * (Don't bother if the buffer hit an error or stale wverf.)
+ */
+ if ((rlen < length) && !(bp->nb_flags & (NB_STALEWVERF | NB_ERROR))) {
+#if CONFIG_NFS4
+writeagain:
+#endif
+ offset += rlen;
+ length -= rlen;
+
+ auio = uio_createwithbuffer(1, NBOFF(bp) + offset, UIO_SYSSPACE,
+ UIO_WRITE, &uio_buf, sizeof(uio_buf));
+ uio_addiov(auio, CAST_USER_ADDR_T(bp->nb_data + offset), length);
+
+ cb.rcb_args.offset = offset;
+ cb.rcb_args.length = length;
+#if CONFIG_NFS4
+ if (nmp->nm_vers >= NFS_VER4) {
+ cb.rcb_args.stategenid = nmp->nm_stategenid;
+ }
+#endif
+ // XXX iomode should really match the original request
+ error = nmp->nm_funcs->nf_write_rpc_async(np, auio, length, thd, cred,
+ NFS_WRITE_FILESYNC, &cb, &wreq);
+ if (!error) {
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+ if (!cb.rcb_func) {
+ /* if !async we'll need to wait for this RPC to finish */
+ req = wreq;
+ wreq = NULL;
+ goto finish;
+ }
+ nfs_request_rele(req);
+ /*
+ * We're done here.
+ * Outstanding RPC count is unchanged.
+ * Callback will be called when RPC is done.
+ */
+ return;
+ }
+ SET(bp->nb_flags, NB_ERROR);
+ bp->nb_error = error;
+ }
+
+out:
+ if (cb.rcb_func) {
+ nfs_async_write_done(nmp);
+ nfs_request_rele(req);
+ }
+ /*
+ * Decrement outstanding RPC count on buffer
+ * and call nfs_buf_write_finish on last RPC.
+ *
+ * (Note: when there are multiple async RPCs issued for a
+ * buffer we need nfs_buffer_mutex to avoid problems when
+ * aborting a partially-initiated set of RPCs)
+ */
+ multasyncrpc = ISSET(bp->nb_flags, NB_MULTASYNCRPC);
+ if (multasyncrpc) {
+ lck_mtx_lock(nfs_buf_mutex);
+ }
+
+ bp->nb_rpcs--;
+ finished = (bp->nb_rpcs == 0);
+
+ if (multasyncrpc) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ }
+
+ if (finished) {
+ if (multasyncrpc) {
+ wakeme = &bp->nb_rpcs;
+ }
+ nfs_buf_write_finish(bp, thd, cred);
+ if (wakeme) {
+ wakeup(wakeme);
+ }
+ }
+
+ if (IS_VALID_CRED(cred)) {
+ kauth_cred_unref(&cred);
+ }
+
+ if (cb.rcb_func && np->n_needcommitcnt >= NFS_A_LOT_OF_NEEDCOMMITS) {
+ nfs_flushcommits(np, 1);
+ }
+}
+
+/*
+ * Send commit(s) for the given node's "needcommit" buffers
+ */
+int
+nfs_flushcommits(nfsnode_t np, int nowait)
+{
+ struct nfsmount *nmp;
+ struct nfsbuf *bp, *prevlbp, *lbp;
+ struct nfsbuflists blist, commitlist;
+ int error = 0, retv, wcred_set, flags;
+ u_quad_t off, endoff, toff;
+ uint64_t wverf, count;
+ kauth_cred_t wcred = NULL;
+ nfsbufpgs dirty;
+
+ FSDBG_TOP(557, np, 0, 0, 0);
+
+ /*
+ * A nb_flags == (NB_DELWRI | NB_NEEDCOMMIT) block has been written to the
+ * server, but nas not been committed to stable storage on the server
+ * yet. The byte range is worked out for as many nfsbufs as we can handle
+ * and the commit rpc is done.
+ */
+ if (!LIST_EMPTY(&np->n_dirtyblkhd)) {
+ error = nfs_node_lock(np);
+ if (error) {
+ goto done;
+ }
+ np->n_flag |= NMODIFIED;
+ nfs_node_unlock(np);
+ }
+
+ off = (u_quad_t)-1;
+ endoff = 0;
+ wcred_set = 0;
+ LIST_INIT(&commitlist);
+
+ nmp = NFSTONMP(np);
+ if (nfs_mount_gone(nmp)) {
+ error = ENXIO;
+ goto done;
+ }
+ if (nmp->nm_vers == NFS_VER2) {
+ error = EINVAL;
+ goto done;
+ }
+
+ flags = NBI_DIRTY;
+ if (nowait) {
+ flags |= NBI_NOWAIT;
+ }
+ lck_mtx_lock(nfs_buf_mutex);
+ wverf = nmp->nm_verf;
+ if (!nfs_buf_iterprepare(np, &blist, flags)) {
+ while ((bp = LIST_FIRST(&blist))) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ error = nfs_buf_acquire(bp, NBAC_NOWAIT, 0, 0);
+ if (error) {
+ continue;
+ }
+ if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_buf_check_write_verifier(np, bp);
+ }
+ if (((bp->nb_flags & (NB_DELWRI | NB_NEEDCOMMIT)) != (NB_DELWRI | NB_NEEDCOMMIT)) ||
+ (bp->nb_verf != wverf)) {
+ nfs_buf_drop(bp);
+ continue;
+ }
+ nfs_buf_remfree(bp);
+
+ /* buffer UPLs will be grabbed *in order* below */
+
+ FSDBG(557, bp, bp->nb_flags, bp->nb_valid, bp->nb_dirty);
+ FSDBG(557, bp->nb_validoff, bp->nb_validend,
+ bp->nb_dirtyoff, bp->nb_dirtyend);
+
+ /*
+ * Work out if all buffers are using the same cred
+ * so we can deal with them all with one commit.
+ *
+ * Note: creds in bp's must be obtained by kauth_cred_ref
+ * on the same original cred in order for them to be equal.
+ */
+ if (wcred_set == 0) {
+ wcred = bp->nb_wcred;
+ if (!IS_VALID_CRED(wcred)) {
+ panic("nfs: needcommit w/out wcred");
+ }
+ wcred_set = 1;
+ } else if ((wcred_set == 1) && wcred != bp->nb_wcred) {
+ wcred_set = -1;
+ }
+ SET(bp->nb_flags, NB_WRITEINPROG);
+
+ /*
+ * Add this buffer to the list of buffers we are committing.
+ * Buffers are inserted into the list in ascending order so that
+ * we can take the UPLs in order after the list is complete.
+ */
+ prevlbp = NULL;
+ LIST_FOREACH(lbp, &commitlist, nb_vnbufs) {
+ if (bp->nb_lblkno < lbp->nb_lblkno) {
+ break;
+ }
+ prevlbp = lbp;
+ }
+ LIST_REMOVE(bp, nb_vnbufs);
+ if (prevlbp) {
+ LIST_INSERT_AFTER(prevlbp, bp, nb_vnbufs);
+ } else {
+ LIST_INSERT_HEAD(&commitlist, bp, nb_vnbufs);
+ }
+
+ /* update commit range start, end */
+ toff = NBOFF(bp) + bp->nb_dirtyoff;
+ if (toff < off) {
+ off = toff;
+ }
+ toff += (u_quad_t)(bp->nb_dirtyend - bp->nb_dirtyoff);
+ if (toff > endoff) {
+ endoff = toff;
+ }
+ }
+ nfs_buf_itercomplete(np, &blist, NBI_DIRTY);
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+
+ if (LIST_EMPTY(&commitlist)) {
+ error = ENOBUFS;
+ goto done;
+ }
+
+ /*
+ * We need a UPL to prevent others from accessing the buffers during
+ * our commit RPC(s).
+ *
+ * We used to also check for dirty pages here; if there were any we'd
+ * abort the commit and force the entire buffer to be written again.
+ * Instead of doing that, we just go ahead and commit the dirty range,
+ * and then leave the buffer around with dirty pages that will be
+ * written out later.
+ */
+ LIST_FOREACH(bp, &commitlist, nb_vnbufs) {
+ if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
+ retv = nfs_buf_upl_setup(bp);
+ if (retv) {
+ /* Unable to create the UPL, the VM object probably no longer exists. */
+ printf("nfs_flushcommits: upl create failed %d\n", retv);
+ NBPGS_ERASE(&bp->nb_valid);
+ NBPGS_ERASE(&bp->nb_dirty);
+ }
+ }
+ nfs_buf_upl_check(bp);
+ }
+
+ /*
+ * Commit data on the server, as required.
+ * If all bufs are using the same wcred, then use that with
+ * one call for all of them, otherwise commit each one
+ * separately.
+ */
+ if (wcred_set == 1) {
+ /*
+ * Note, it's possible the commit range could be >2^32-1.
+ * If it is, we'll send one commit that covers the whole file.
+ */
+ if ((endoff - off) > 0xffffffff) {
+ count = 0;
+ } else {
+ count = (endoff - off);
+ }
+ retv = nmp->nm_funcs->nf_commit_rpc(np, off, count, wcred, wverf);
+ } else {
+ retv = 0;
+ LIST_FOREACH(bp, &commitlist, nb_vnbufs) {
+ toff = NBOFF(bp) + bp->nb_dirtyoff;
+ count = bp->nb_dirtyend - bp->nb_dirtyoff;
+ retv = nmp->nm_funcs->nf_commit_rpc(np, toff, count, bp->nb_wcred, wverf);
+ if (retv) {
+ break;
+ }
+ }
+ }
+
+ /*
+ * Now, either mark the blocks I/O done or mark the
+ * blocks dirty, depending on whether the commit
+ * succeeded.
+ */
+ while ((bp = LIST_FIRST(&commitlist))) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ FSDBG(557, bp, retv, bp->nb_flags, bp->nb_dirty);
+ nfs_node_lock_force(np);
+ CLR(bp->nb_flags, (NB_NEEDCOMMIT | NB_WRITEINPROG));
+ np->n_needcommitcnt--;
+ CHECK_NEEDCOMMITCNT(np);
+ nfs_node_unlock(np);
+
+ if (retv) {
+ /* move back to dirty list */
+ lck_mtx_lock(nfs_buf_mutex);
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ lck_mtx_unlock(nfs_buf_mutex);
+ nfs_buf_release(bp, 1);
+ continue;
+ }
+
+ nfs_node_lock_force(np);
+ np->n_numoutput++;
+ nfs_node_unlock(np);
+ vnode_startwrite(NFSTOV(np));
+ if (ISSET(bp->nb_flags, NB_DELWRI)) {
+ lck_mtx_lock(nfs_buf_mutex);
+ nfs_nbdwrite--;
+ NFSBUFCNTCHK();
+ lck_mtx_unlock(nfs_buf_mutex);
+ wakeup(&nfs_nbdwrite);
+ }
+ CLR(bp->nb_flags, (NB_READ | NB_DONE | NB_ERROR | NB_DELWRI));
+ /* if block still has dirty pages, we don't want it to */
+ /* be released in nfs_buf_iodone(). So, don't set NB_ASYNC. */
+ NBPGS_COPY(&dirty, &bp->nb_dirty);
+ if (!nfs_buf_pgs_is_set(&dirty)) {
+ SET(bp->nb_flags, NB_ASYNC);
+ } else {
+ CLR(bp->nb_flags, NB_ASYNC);
+ }
+
+ /* move to clean list */
+ lck_mtx_lock(nfs_buf_mutex);
+ LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
+ lck_mtx_unlock(nfs_buf_mutex);
+
+ bp->nb_dirtyoff = bp->nb_dirtyend = 0;
+
+ nfs_buf_iodone(bp);
+ if (nfs_buf_pgs_is_set(&dirty)) {
+ /* throw it back in as a delayed write buffer */
+ CLR(bp->nb_flags, NB_DONE);
+ nfs_buf_write_delayed(bp);
+ }
+ }
+
+done:
+ FSDBG_BOT(557, np, 0, 0, error);
+ return error;
+}
+
+/*
+ * Flush all the blocks associated with a vnode.
+ * Walk through the buffer pool and push any dirty pages
+ * associated with the vnode.
+ */
+int
+nfs_flush(nfsnode_t np, int waitfor, thread_t thd, int ignore_writeerr)
+{
+ struct nfsbuf *bp;
+ struct nfsbuflists blist;
+ struct nfsmount *nmp = NFSTONMP(np);
+ int error = 0, error2, slptimeo = 0, slpflag = 0;
+ int nfsvers, flags, passone = 1;
+
+ FSDBG_TOP(517, np, waitfor, ignore_writeerr, 0);
+
+ if (nfs_mount_gone(nmp)) {
+ error = ENXIO;
+ goto out;
+ }
+ nfsvers = nmp->nm_vers;
+ if (NMFLAG(nmp, INTR)) {
+ slpflag = PCATCH;
+ }
+
+ if (!LIST_EMPTY(&np->n_dirtyblkhd)) {
+ nfs_node_lock_force(np);
+ np->n_flag |= NMODIFIED;
+ nfs_node_unlock(np);
+ }
+
+ lck_mtx_lock(nfs_buf_mutex);
+ while (np->n_bflag & NBFLUSHINPROG) {
+ np->n_bflag |= NBFLUSHWANT;
+ error = msleep(&np->n_bflag, nfs_buf_mutex, slpflag, "nfs_flush", NULL);
+ if ((error && (error != EWOULDBLOCK)) ||
+ ((error = nfs_sigintr(NFSTONMP(np), NULL, thd, 0)))) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ goto out;
+ }
+ }
+ np->n_bflag |= NBFLUSHINPROG;
+
+ /*
+ * On the first pass, start async/unstable writes on all
+ * delayed write buffers. Then wait for all writes to complete
+ * and call nfs_flushcommits() to commit any uncommitted buffers.
+ * On all subsequent passes, start STABLE writes on any remaining
+ * dirty buffers. Then wait for all writes to complete.
+ */
+again:
+ FSDBG(518, LIST_FIRST(&np->n_dirtyblkhd), np->n_flag, 0, 0);
+ if (!NFSTONMP(np)) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ error = ENXIO;
+ goto done;
+ }
+
+ /* Start/do any write(s) that are required. */
+ if (!nfs_buf_iterprepare(np, &blist, NBI_DIRTY)) {
+ while ((bp = LIST_FIRST(&blist))) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ flags = (passone || !(waitfor == MNT_WAIT || waitfor == MNT_DWAIT)) ? NBAC_NOWAIT : 0;
+ if (flags != NBAC_NOWAIT) {
+ nfs_buf_refget(bp);
+ }
+ while ((error = nfs_buf_acquire(bp, flags, slpflag, slptimeo))) {
+ FSDBG(524, bp, flags, bp->nb_lflags, bp->nb_flags);
+ if (error == EBUSY) {
+ break;
+ }
+ if (error) {
+ error2 = nfs_sigintr(NFSTONMP(np), NULL, thd, 0);
+ if (error2) {
+ if (flags != NBAC_NOWAIT) {
+ nfs_buf_refrele(bp);
+ }
+ nfs_buf_itercomplete(np, &blist, NBI_DIRTY);
+ lck_mtx_unlock(nfs_buf_mutex);
+ error = error2;
+ goto done;
+ }
+ if (slpflag == PCATCH) {
+ slpflag = 0;
+ slptimeo = 2 * hz;
+ }
+ }
+ }
+ if (flags != NBAC_NOWAIT) {
+ nfs_buf_refrele(bp);
+ }
+ if (error == EBUSY) {
+ continue;
+ }
+ if (!bp->nb_np) {
+ /* buffer is no longer valid */
+ nfs_buf_drop(bp);
+ continue;
+ }
+ if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_buf_check_write_verifier(np, bp);
+ }
+ if (!ISSET(bp->nb_flags, NB_DELWRI)) {
+ /* buffer is no longer dirty */
+ nfs_buf_drop(bp);
+ continue;
+ }
+ FSDBG(525, bp, passone, bp->nb_lflags, bp->nb_flags);
+ if ((passone || !(waitfor == MNT_WAIT || waitfor == MNT_DWAIT)) &&
+ ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
+ nfs_buf_drop(bp);
+ continue;
+ }
+ nfs_buf_remfree(bp);
+ lck_mtx_unlock(nfs_buf_mutex);
+ if (ISSET(bp->nb_flags, NB_ERROR)) {
+ nfs_node_lock_force(np);
+ np->n_error = bp->nb_error ? bp->nb_error : EIO;
+ np->n_flag |= NWRITEERR;
+ nfs_node_unlock(np);
+ nfs_buf_release(bp, 1);
+ lck_mtx_lock(nfs_buf_mutex);
+ continue;
+ }
+ SET(bp->nb_flags, NB_ASYNC);
+ if (!passone) {
+ /* NB_STABLE forces this to be written FILESYNC */
+ SET(bp->nb_flags, NB_STABLE);
+ }
+ nfs_buf_write(bp);
+ lck_mtx_lock(nfs_buf_mutex);
+ }
+ nfs_buf_itercomplete(np, &blist, NBI_DIRTY);
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+
+ if (waitfor == MNT_WAIT || waitfor == MNT_DWAIT) {
+ while ((error = vnode_waitforwrites(NFSTOV(np), 0, slpflag, slptimeo, "nfsflush"))) {
+ error2 = nfs_sigintr(NFSTONMP(np), NULL, thd, 0);
+ if (error2) {
+ error = error2;
+ goto done;
+ }
+ if (slpflag == PCATCH) {
+ slpflag = 0;
+ slptimeo = 2 * hz;
+ }
+ }
+ }
+
+ if (nfsvers != NFS_VER2) {
+ /* loop while it looks like there are still buffers to be */
+ /* commited and nfs_flushcommits() seems to be handling them. */
+ while (np->n_needcommitcnt) {
+ if (nfs_flushcommits(np, 0)) {
+ break;
+ }
+ }
+ }
+
+ if (passone) {
+ passone = 0;
+ if (!LIST_EMPTY(&np->n_dirtyblkhd)) {
+ nfs_node_lock_force(np);
+ np->n_flag |= NMODIFIED;
+ nfs_node_unlock(np);
+ }
+ lck_mtx_lock(nfs_buf_mutex);
+ goto again;
+ }
+
+ if (waitfor == MNT_WAIT || waitfor == MNT_DWAIT) {
+ if (!LIST_EMPTY(&np->n_dirtyblkhd)) {
+ nfs_node_lock_force(np);
+ np->n_flag |= NMODIFIED;
+ nfs_node_unlock(np);
+ }
+ lck_mtx_lock(nfs_buf_mutex);
+ if (!LIST_EMPTY(&np->n_dirtyblkhd)) {
+ goto again;
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+ nfs_node_lock_force(np);
/*
- * Since this block is being modified, it must be written
- * again and not just committed.
+ * OK, it looks like there are no dirty blocks. If we have no
+ * writes in flight and no one in the write code, we can clear
+ * the modified flag. In order to make sure we see the latest
+ * attributes and size, we also invalidate the attributes and
+ * advance the attribute cache XID to guarantee that attributes
+ * newer than our clearing of NMODIFIED will get loaded next.
+ * (If we don't do this, it's possible for the flush's final
+ * write/commit (xid1) to be executed in parallel with a subsequent
+ * getattr request (xid2). The getattr could return attributes
+ * from *before* the write/commit completed but the stale attributes
+ * would be preferred because of the xid ordering.)
*/
- if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
- np->n_needcommitcnt--;
- CHECK_NEEDCOMMITCNT(np);
+ if (!np->n_wrbusy && !np->n_numoutput) {
+ np->n_flag &= ~NMODIFIED;
+ NATTRINVALIDATE(np);
+ nfs_get_xid(&np->n_xid);
}
- CLR(bp->nb_flags, NB_NEEDCOMMIT);
-
- if (ioflag & IO_SYNC) {
- bp->nb_proc = p;
- error = nfs_buf_write(bp);
- if (error) {
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset,
- uio_uio_resid(uio), error);
- return (error);
- }
- } else if (((n + on) == biosize) || (np->n_flag & NNOCACHE)) {
- bp->nb_proc = NULL;
- SET(bp->nb_flags, NB_ASYNC);
- nfs_buf_write(bp);
- } else
- nfs_buf_write_delayed(bp, p);
-
- if (np->n_needcommitcnt > (nfsbufcnt/16))
- nfs_flushcommits(vp, p, 1);
-
- } while (uio_uio_resid(uio) > 0 && n > 0);
-
- if (np->n_flag & NNOCACHE) {
- /* make sure all the buffers are flushed out */
- error = nfs_flush(vp, MNT_WAIT, cred, p, 0);
+ } else {
+ nfs_node_lock_force(np);
}
- np->n_flag &= ~NWRBUSY;
- FSDBG_BOT(515, vp, uio->uio_offset, uio_uio_resid(uio), error);
- return (error);
+ FSDBG(526, np->n_flag, np->n_error, 0, 0);
+ if (!ignore_writeerr && (np->n_flag & NWRITEERR)) {
+ error = np->n_error;
+ np->n_flag &= ~NWRITEERR;
+ }
+ nfs_node_unlock(np);
+done:
+ lck_mtx_lock(nfs_buf_mutex);
+ flags = np->n_bflag;
+ np->n_bflag &= ~(NBFLUSHINPROG | NBFLUSHWANT);
+ lck_mtx_unlock(nfs_buf_mutex);
+ if (flags & NBFLUSHWANT) {
+ wakeup(&np->n_bflag);
+ }
+out:
+ FSDBG_BOT(517, np, error, ignore_writeerr, 0);
+ return error;
}
/*
* Flush out and invalidate all buffers associated with a vnode.
* Called with the underlying object locked.
*/
-static int
+int
nfs_vinvalbuf_internal(
- vnode_t vp,
+ nfsnode_t np,
int flags,
+ thread_t thd,
kauth_cred_t cred,
- proc_t p,
int slpflag,
int slptimeo)
{
struct nfsbuf *bp;
struct nfsbuflists blist;
int list, error = 0;
- struct nfsnode *np = VTONFS(vp);
if (flags & V_SAVE) {
- if ((error = nfs_flush(vp, MNT_WAIT, cred, p,
- (flags & V_IGNORE_WRITEERR))))
- return (error);
- if (!LIST_EMPTY(&np->n_dirtyblkhd))
- panic("nfs_vinvalbuf: dirty bufs (vp 0x%x, bp 0x%x)",
- vp, LIST_FIRST(&np->n_dirtyblkhd));
+ if ((error = nfs_flush(np, MNT_WAIT, thd, (flags & V_IGNORE_WRITEERR)))) {
+ return error;
+ }
}
lck_mtx_lock(nfs_buf_mutex);
list = NBI_CLEAN;
if (nfs_buf_iterprepare(np, &blist, list)) {
list = NBI_DIRTY;
- if (nfs_buf_iterprepare(np, &blist, list))
+ if (nfs_buf_iterprepare(np, &blist, list)) {
break;
+ }
}
while ((bp = LIST_FIRST(&blist))) {
LIST_REMOVE(bp, nb_vnbufs);
- if (list == NBI_CLEAN)
+ if (list == NBI_CLEAN) {
LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
- else
+ } else {
LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ }
nfs_buf_refget(bp);
while ((error = nfs_buf_acquire(bp, NBAC_REMOVE, slpflag, slptimeo))) {
- FSDBG(556, vp, bp, NBOFF(bp), bp->nb_flags);
+ FSDBG(556, np, bp, NBOFF(bp), bp->nb_flags);
if (error != EAGAIN) {
- FSDBG(554, vp, bp, -1, error);
+ FSDBG(554, np, bp, -1, error);
nfs_buf_refrele(bp);
nfs_buf_itercomplete(np, &blist, list);
lck_mtx_unlock(nfs_buf_mutex);
- return (error);
+ return error;
}
}
nfs_buf_refrele(bp);
- FSDBG(554, vp, bp, NBOFF(bp), bp->nb_flags);
+ FSDBG(554, np, bp, NBOFF(bp), bp->nb_flags);
lck_mtx_unlock(nfs_buf_mutex);
- if ((flags & V_SAVE) && UBCINFOEXISTS(vp) && bp->nb_vp &&
+ if ((flags & V_SAVE) && UBCINFOEXISTS(NFSTOV(np)) && bp->nb_np &&
(NBOFF(bp) < (off_t)np->n_size)) {
- /* XXX extra paranoia: make sure we're not */
+ /* extra paranoia: make sure we're not */
/* somehow leaving any dirty data around */
+ nfsbufpgs pagemask;
int mustwrite = 0;
- int end = (NBOFF(bp) + bp->nb_bufsize > (off_t)np->n_size) ?
- ((off_t)np->n_size - NBOFF(bp)) : bp->nb_bufsize;
+ off_t end = (NBOFF(bp) + bp->nb_bufsize > (off_t)np->n_size) ?
+ (np->n_size - NBOFF(bp)) : bp->nb_bufsize;
if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
error = nfs_buf_upl_setup(bp);
if (error == EINVAL) {
/* vm object must no longer exist */
/* hopefully we don't need to do */
/* anything for this buffer */
- } else if (error)
+ } else if (error) {
printf("nfs_vinvalbuf: upl setup failed %d\n", error);
- bp->nb_valid = bp->nb_dirty = 0;
+ }
+ NBPGS_ERASE(&bp->nb_valid);
+ NBPGS_ERASE(&bp->nb_dirty);
}
nfs_buf_upl_check(bp);
/* check for any dirty data before the EOF */
- if (bp->nb_dirtyend && bp->nb_dirtyoff < end) {
+ if ((bp->nb_dirtyend > 0) && (bp->nb_dirtyoff < end)) {
/* clip dirty range to EOF */
- if (bp->nb_dirtyend > end)
+ if (bp->nb_dirtyend > end) {
bp->nb_dirtyend = end;
+ if (bp->nb_dirtyoff >= bp->nb_dirtyend) {
+ bp->nb_dirtyoff = bp->nb_dirtyend = 0;
+ }
+ }
+ if ((bp->nb_dirtyend > 0) && (bp->nb_dirtyoff < end)) {
+ mustwrite++;
+ }
+ }
+ nfs_buf_pgs_get_page_mask(&pagemask, round_page_64(end) / PAGE_SIZE);
+ nfs_buf_pgs_bit_and(&bp->nb_dirty, &pagemask, &bp->nb_dirty);
+ if (nfs_buf_pgs_is_set(&bp->nb_dirty)) {
mustwrite++;
}
- bp->nb_dirty &= (1 << (round_page_32(end)/PAGE_SIZE)) - 1;
/* also make sure we'll have a credential to do the write */
if (mustwrite && !IS_VALID_CRED(bp->nb_wcred) && !IS_VALID_CRED(cred)) {
printf("nfs_vinvalbuf: found dirty buffer with no write creds\n");
mustwrite = 0;
}
if (mustwrite) {
- FSDBG(554, vp, bp, 0xd00dee, bp->nb_flags);
- if (!ISSET(bp->nb_flags, NB_PAGELIST))
+ FSDBG(554, np, bp, 0xd00dee, bp->nb_flags);
+ if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
panic("nfs_vinvalbuf: dirty buffer without upl");
+ }
/* gotta write out dirty data before invalidating */
/* (NB_STABLE indicates that data writes should be FILESYNC) */
/* (NB_NOCACHE indicates buffer should be discarded) */
// Note: bp has been released
if (error) {
FSDBG(554, bp, 0xd00dee, 0xbad, error);
- np->n_error = error;
- np->n_flag |= NWRITEERR;
+ nfs_node_lock_force(np);
+ if ((error != EINTR) && (error != ERESTART)) {
+ np->n_error = error;
+ np->n_flag |= NWRITEERR;
+ }
/*
* There was a write error and we need to
* invalidate attrs to sync with server.
* we may no longer know the correct size)
*/
NATTRINVALIDATE(np);
+ nfs_node_unlock(np);
+ if ((error == EINTR) || (error == ERESTART)) {
+ /*
+ * Abort on EINTR. If we don't, we could
+ * be stuck in this loop forever because
+ * the buffer will continue to stay dirty.
+ */
+ lck_mtx_lock(nfs_buf_mutex);
+ nfs_buf_itercomplete(np, &blist, list);
+ lck_mtx_unlock(nfs_buf_mutex);
+ return error;
+ }
error = 0;
}
lck_mtx_lock(nfs_buf_mutex);
}
nfs_buf_itercomplete(np, &blist, list);
}
+ if (!LIST_EMPTY(&(np)->n_dirtyblkhd) || !LIST_EMPTY(&(np)->n_cleanblkhd)) {
+ panic("nfs_vinvalbuf: flush/inval failed");
+ }
lck_mtx_unlock(nfs_buf_mutex);
+ nfs_node_lock_force(np);
+ if (!(flags & V_SAVE)) {
+ np->n_flag &= ~NMODIFIED;
+ }
+ if (vnode_vtype(NFSTOV(np)) == VREG) {
+ np->n_lastrahead = -1;
+ }
+ nfs_node_unlock(np);
NFS_BUF_FREEUP();
- if (NVALIDBUFS(np))
- panic("nfs_vinvalbuf: flush failed");
- return (0);
+ return 0;
}
* doing the flush, just wait for completion.
*/
int
-nfs_vinvalbuf(
- vnode_t vp,
- int flags,
- kauth_cred_t cred,
- proc_t p,
- int intrflg)
+nfs_vinvalbuf(vnode_t vp, int flags, vfs_context_t ctx, int intrflg)
+{
+ return nfs_vinvalbuf2(vp, flags, vfs_context_thread(ctx), vfs_context_ucred(ctx), intrflg);
+}
+
+int
+nfs_vinvalbuf2(vnode_t vp, int flags, thread_t thd, kauth_cred_t cred, int intrflg)
{
- struct nfsnode *np = VTONFS(vp);
- struct nfsmount *nmp = VFSTONFS(vnode_mount(vp));
- int error = 0, slpflag, slptimeo;
+ nfsnode_t np = VTONFS(vp);
+ struct nfsmount *nmp = VTONMP(vp);
+ int error, slpflag, slptimeo, nflags, retry = 0;
+ int ubcflags = UBC_PUSHALL | UBC_SYNC | UBC_INVALIDATE;
+ struct timespec ts = { .tv_sec = 2, .tv_nsec = 0 };
off_t size;
- FSDBG_TOP(554, vp, flags, intrflg, 0);
+ FSDBG_TOP(554, np, flags, intrflg, 0);
+
+ /*
+ * If the mount is gone no sense to try and write anything.
+ * and hang trying to do IO.
+ */
+ if (nfs_mount_gone(nmp)) {
+ flags &= ~V_SAVE;
+ ubcflags &= ~UBC_PUSHALL;
+ }
- if (nmp && ((nmp->nm_flag & NFSMNT_INT) == 0))
+ if (nmp && !NMFLAG(nmp, INTR)) {
intrflg = 0;
+ }
if (intrflg) {
slpflag = PCATCH;
slptimeo = 2 * hz;
slpflag = 0;
slptimeo = 0;
}
- /*
- * First wait for any other process doing a flush to complete.
- */
- while (np->n_flag & NFLUSHINPROG) {
- np->n_flag |= NFLUSHWANT;
- FSDBG_TOP(555, vp, flags, intrflg, np->n_flag);
- error = tsleep((caddr_t)&np->n_flag, PRIBIO + 2, "nfsvinval", slptimeo);
- FSDBG_BOT(555, vp, flags, intrflg, np->n_flag);
- if (error && (error = nfs_sigintr(VFSTONFS(vnode_mount(vp)), NULL, p))) {
- FSDBG_BOT(554, vp, flags, intrflg, error);
- return (error);
+
+ /* First wait for any other process doing a flush to complete. */
+ lck_mtx_lock(nfs_buf_mutex);
+ while (np->n_bflag & NBINVALINPROG) {
+ np->n_bflag |= NBINVALWANT;
+ msleep(&np->n_bflag, nfs_buf_mutex, slpflag, "nfs_vinvalbuf", &ts);
+ if ((error = nfs_sigintr(VTONMP(vp), NULL, thd, 0))) {
+ lck_mtx_unlock(nfs_buf_mutex);
+ return error;
+ }
+ if (np->n_bflag & NBINVALINPROG) {
+ slpflag = 0;
}
}
+ np->n_bflag |= NBINVALINPROG;
+ lck_mtx_unlock(nfs_buf_mutex);
- /*
- * Now, flush as required.
- */
- np->n_flag |= NFLUSHINPROG;
- error = nfs_vinvalbuf_internal(vp, flags, cred, p, slpflag, 0);
+ /* Now, flush as required. */
+again:
+ error = nfs_vinvalbuf_internal(np, flags, thd, cred, slpflag, 0);
while (error) {
- FSDBG(554, vp, 0, 0, error);
- error = nfs_sigintr(VFSTONFS(vnode_mount(vp)), NULL, p);
- if (error) {
- np->n_flag &= ~NFLUSHINPROG;
- if (np->n_flag & NFLUSHWANT) {
- np->n_flag &= ~NFLUSHWANT;
- wakeup((caddr_t)&np->n_flag);
- }
- FSDBG_BOT(554, vp, flags, intrflg, error);
- return (error);
+ FSDBG(554, np, 0, 0, error);
+ if ((error = nfs_sigintr(VTONMP(vp), NULL, thd, 0))) {
+ goto done;
}
- error = nfs_vinvalbuf_internal(vp, flags, cred, p, 0, slptimeo);
- }
- np->n_flag &= ~(NMODIFIED | NFLUSHINPROG);
- if (np->n_flag & NFLUSHWANT) {
- np->n_flag &= ~NFLUSHWANT;
- wakeup((caddr_t)&np->n_flag);
+ error = nfs_vinvalbuf_internal(np, flags, thd, cred, 0, slptimeo);
}
- /*
- * get the pages out of vm also
- */
+
+ /* get the pages out of vm also */
if (UBCINFOEXISTS(vp) && (size = ubc_getsize(vp))) {
- int rv = ubc_sync_range(vp, 0, size, UBC_PUSHALL | UBC_INVALIDATE);
- if (!rv)
- panic("nfs_vinvalbuf(): ubc_sync_range failed!");
+ if ((error = ubc_msync(vp, 0, size, NULL, ubcflags))) {
+ if (error == EINVAL) {
+ panic("nfs_vinvalbuf(): ubc_msync failed!, error %d", error);
+ }
+ if (retry++ < 10) { /* retry invalidating a few times */
+ if (retry > 1 || error == ENXIO) {
+ ubcflags &= ~UBC_PUSHALL;
+ }
+ goto again;
+ }
+ /* give up */
+ printf("nfs_vinvalbuf(): ubc_msync failed!, error %d\n", error);
+ }
+ }
+done:
+ lck_mtx_lock(nfs_buf_mutex);
+ nflags = np->n_bflag;
+ np->n_bflag &= ~(NBINVALINPROG | NBINVALWANT);
+ lck_mtx_unlock(nfs_buf_mutex);
+ if (nflags & NBINVALWANT) {
+ wakeup(&np->n_bflag);
}
- FSDBG_BOT(554, vp, flags, intrflg, 0);
- return (0);
+ FSDBG_BOT(554, np, flags, intrflg, error);
+ return error;
}
/*
- * Initiate asynchronous I/O. Return an error if no nfsiods are available.
- * This is mainly to avoid queueing async I/O requests when the nfsiods
- * are all hung on a dead server.
+ * Wait for any busy buffers to complete.
*/
-int
-nfs_asyncio(bp, cred)
- struct nfsbuf *bp;
- kauth_cred_t cred;
+void
+nfs_wait_bufs(nfsnode_t np)
{
- struct nfsmount *nmp;
- int i;
- int gotiod;
- int slpflag = 0;
- int slptimeo = 0;
- int error, error2;
- void *wakeme = NULL;
- struct timespec ts;
+ struct nfsbuf *bp;
+ struct nfsbuflists blist;
+ int error = 0;
+
+ lck_mtx_lock(nfs_buf_mutex);
+ if (!nfs_buf_iterprepare(np, &blist, NBI_CLEAN)) {
+ while ((bp = LIST_FIRST(&blist))) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ LIST_INSERT_HEAD(&np->n_cleanblkhd, bp, nb_vnbufs);
+ nfs_buf_refget(bp);
+ while ((error = nfs_buf_acquire(bp, 0, 0, 0))) {
+ if (error != EAGAIN) {
+ nfs_buf_refrele(bp);
+ nfs_buf_itercomplete(np, &blist, NBI_CLEAN);
+ lck_mtx_unlock(nfs_buf_mutex);
+ return;
+ }
+ }
+ nfs_buf_refrele(bp);
+ nfs_buf_drop(bp);
+ }
+ nfs_buf_itercomplete(np, &blist, NBI_CLEAN);
+ }
+ if (!nfs_buf_iterprepare(np, &blist, NBI_DIRTY)) {
+ while ((bp = LIST_FIRST(&blist))) {
+ LIST_REMOVE(bp, nb_vnbufs);
+ LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
+ nfs_buf_refget(bp);
+ while ((error = nfs_buf_acquire(bp, 0, 0, 0))) {
+ if (error != EAGAIN) {
+ nfs_buf_refrele(bp);
+ nfs_buf_itercomplete(np, &blist, NBI_DIRTY);
+ lck_mtx_unlock(nfs_buf_mutex);
+ return;
+ }
+ }
+ nfs_buf_refrele(bp);
+ nfs_buf_drop(bp);
+ }
+ nfs_buf_itercomplete(np, &blist, NBI_DIRTY);
+ }
+ lck_mtx_unlock(nfs_buf_mutex);
+}
- if (nfs_numasync == 0)
- return (EIO);
- FSDBG_TOP(552, bp, bp ? NBOFF(bp) : 0, bp ? bp->nb_flags : 0, 0);
+/*
+ * Add an async I/O request to the mount's async I/O queue and make
+ * sure that an nfsiod will service it.
+ */
+void
+nfs_asyncio_finish(struct nfsreq *req)
+{
+ struct nfsmount *nmp;
+ struct nfsiod *niod;
+ int started = 0;
- nmp = ((bp != NULL) ? VFSTONFS(vnode_mount(bp->nb_vp)) : NULL);
+ FSDBG_TOP(552, nmp, 0, 0, 0);
again:
- if (nmp && nmp->nm_flag & NFSMNT_INT)
- slpflag = PCATCH;
- gotiod = FALSE;
+ nmp = req->r_nmp;
- lck_mtx_lock(nfs_iod_mutex);
-
- /* no nfsbuf means tell nfsiod to process delwri list */
- if (!bp)
- nfs_ioddelwri = 1;
+ if (nmp == NULL) {
+ return;
+ }
- /*
- * Find a free iod to process this request.
- */
- for (i = 0; i < NFS_MAXASYNCDAEMON; i++)
- if (nfs_iodwant[i]) {
+ lck_mtx_lock(nfsiod_mutex);
+ niod = nmp->nm_niod;
+
+ /* grab an nfsiod if we don't have one already */
+ if (!niod) {
+ niod = TAILQ_FIRST(&nfsiodfree);
+ if (niod) {
+ TAILQ_REMOVE(&nfsiodfree, niod, niod_link);
+ TAILQ_INSERT_TAIL(&nfsiodwork, niod, niod_link);
+ niod->niod_nmp = nmp;
+ } else if (((nfsiod_thread_count < NFSIOD_MAX) || (nfsiod_thread_count <= 0)) && (started < 4)) {
/*
- * Found one, so wake it up and tell it which
- * mount to process.
+ * Try starting a new thread.
+ * We may try a couple times if other callers
+ * get the new threads before we do.
*/
- nfs_iodwant[i] = NULL;
- nfs_iodmount[i] = nmp;
- if (nmp)
- nmp->nm_bufqiods++;
- wakeme = &nfs_iodwant[i];
- gotiod = TRUE;
- break;
+ lck_mtx_unlock(nfsiod_mutex);
+ started++;
+ if (!nfsiod_start()) {
+ goto again;
+ }
+ lck_mtx_lock(nfsiod_mutex);
}
-
- /* if we're just poking the delwri list, we're done */
- if (!bp) {
- lck_mtx_unlock(nfs_iod_mutex);
- if (wakeme)
- wakeup(wakeme);
- FSDBG_BOT(552, bp, 0x10101010, wakeme, 0);
- return (0);
}
/*
- * If none are free, we may already have an iod working on this mount
- * point. If so, it will process our request.
+ * If we got here while being on the resendq we need to get off. This
+ * happens when the timer fires and errors out requests from nfs_sigintr
+ * or we receive a reply (UDP case) while being on the resend queue so
+ * we're just finishing up and are not going to be resent.
*/
- if (!gotiod) {
- if (nmp->nm_bufqiods > 0) {
- gotiod = TRUE;
+ lck_mtx_lock(&req->r_mtx);
+ if (req->r_flags & R_RESENDQ) {
+ lck_mtx_lock(&nmp->nm_lock);
+ if ((req->r_flags & R_RESENDQ) && req->r_rchain.tqe_next != NFSREQNOLIST) {
+ NFS_BIO_DBG("Proccessing async request on resendq. Removing");
+ TAILQ_REMOVE(&nmp->nm_resendq, req, r_rchain);
+ req->r_flags &= ~R_RESENDQ;
+ req->r_rchain.tqe_next = NFSREQNOLIST;
+ assert(req->r_refs > 1);
+ /* Remove resendq reference */
+ req->r_refs--;
}
+ lck_mtx_unlock(&nmp->nm_lock);
}
+ lck_mtx_unlock(&req->r_mtx);
- /*
- * If we have an iod which can process the request, then queue
- * the buffer.
- */
- FSDBG(552, bp, gotiod, i, nmp->nm_bufqiods);
- if (gotiod) {
- /*
- * Ensure that the queue never grows too large.
- */
- while (nmp->nm_bufqlen >= 2*nfs_numasync) {
- if (ISSET(bp->nb_flags, NB_IOD)) {
- /* An nfsiod is attempting this async operation so */
- /* we must not fall asleep on the bufq because we */
- /* could be waiting on ourself. Just return error */
- /* and we'll do this operation syncrhonously. */
- goto out;
- }
- FSDBG(552, bp, nmp->nm_bufqlen, 2*nfs_numasync, -1);
- nmp->nm_bufqwant = TRUE;
-
- ts.tv_sec = (slptimeo/100);
- /* the hz value is 100; which leads to 10ms */
- ts.tv_nsec = (slptimeo % 100) * 10 * NSEC_PER_USEC * 1000;
-
- error = msleep(&nmp->nm_bufq, nfs_iod_mutex, slpflag | PRIBIO,
- "nfsaio", &ts);
- if (error) {
- error2 = nfs_sigintr(nmp, NULL, bp->nb_proc);
- if (error2) {
- lck_mtx_unlock(nfs_iod_mutex);
- FSDBG_BOT(552, bp, NBOFF(bp), bp->nb_flags, error2);
- return (error2);
- }
- if (slpflag == PCATCH) {
- slpflag = 0;
- slptimeo = 2 * hz;
- }
- }
- /*
- * We might have lost our iod while sleeping,
- * so check and loop if nescessary.
- */
- if (nmp->nm_bufqiods == 0) {
- lck_mtx_unlock(nfs_iod_mutex);
- goto again;
- }
- }
+ if (req->r_achain.tqe_next == NFSREQNOLIST) {
+ TAILQ_INSERT_TAIL(&nmp->nm_iodq, req, r_achain);
+ }
- if (ISSET(bp->nb_flags, NB_READ)) {
- if (!IS_VALID_CRED(bp->nb_rcred) && IS_VALID_CRED(cred)) {
- kauth_cred_ref(cred);
- bp->nb_rcred = cred;
+ /* If this mount doesn't already have an nfsiod working on it... */
+ if (!nmp->nm_niod) {
+ if (niod) { /* give it the nfsiod we just grabbed */
+ nmp->nm_niod = niod;
+ lck_mtx_unlock(nfsiod_mutex);
+ wakeup(niod);
+ } else if (nfsiod_thread_count > 0) {
+ /* just queue it up on nfsiod mounts queue if needed */
+ if (nmp->nm_iodlink.tqe_next == NFSNOLIST) {
+ TAILQ_INSERT_TAIL(&nfsiodmounts, nmp, nm_iodlink);
}
+ lck_mtx_unlock(nfsiod_mutex);
} else {
- SET(bp->nb_flags, NB_WRITEINPROG);
- if (!IS_VALID_CRED(bp->nb_wcred) && IS_VALID_CRED(cred)) {
- kauth_cred_ref(cred);
- bp->nb_wcred = cred;
- }
+ printf("nfs_asyncio(): no nfsiods? %d %d (%d)\n", nfsiod_thread_count, NFSIOD_MAX, started);
+ lck_mtx_unlock(nfsiod_mutex);
+ /* we have no other option but to be persistent */
+ started = 0;
+ goto again;
}
-
- TAILQ_INSERT_TAIL(&nmp->nm_bufq, bp, nb_free);
- nmp->nm_bufqlen++;
- lck_mtx_unlock(nfs_iod_mutex);
- if (wakeme)
- wakeup(wakeme);
- FSDBG_BOT(552, bp, NBOFF(bp), bp->nb_flags, 0);
- return (0);
+ } else {
+ lck_mtx_unlock(nfsiod_mutex);
}
-out:
- lck_mtx_unlock(nfs_iod_mutex);
- /*
- * All the iods are busy on other mounts, so return EIO to
- * force the caller to process the i/o synchronously.
- */
- FSDBG_BOT(552, bp, NBOFF(bp), bp->nb_flags, EIO);
- return (EIO);
+ FSDBG_BOT(552, nmp, 0, 0, 0);
}
/*
- * Do an I/O operation to/from a cache block. This may be called
- * synchronously or from an nfsiod.
+ * queue up async I/O request for resend
+ * Must be called with req->r_mtx locked.
*/
-int
-nfs_doio(struct nfsbuf *bp, kauth_cred_t cr, proc_t p)
+void
+nfs_asyncio_resend(struct nfsreq *req)
{
- struct uio *uiop;
- vnode_t vp;
- struct nfsnode *np;
- struct nfsmount *nmp;
- int error = 0, diff, len, iomode, invalidate = 0;
- struct uio uio;
- struct iovec_32 io;
- enum vtype vtype;
-
- vp = bp->nb_vp;
- vtype = vnode_vtype(vp);
- np = VTONFS(vp);
- nmp = VFSTONFS(vnode_mount(vp));
- uiop = &uio;
- uiop->uio_iovs.iov32p = &io;
- uiop->uio_iovcnt = 1;
-#if 1 /* LP64todo - can't use new segment flags until the drivers are ready */
- uiop->uio_segflg = UIO_SYSSPACE;
-#else
- uiop->uio_segflg = UIO_SYSSPACE32;
-#endif
+ struct nfsmount *nmp = req->r_nmp;
- /*
- * we've decided to perform I/O for this block,
- * so we couldn't possibly NB_DONE. So, clear it.
- */
- if (ISSET(bp->nb_flags, NB_DONE)) {
- if (!ISSET(bp->nb_flags, NB_ASYNC))
- panic("nfs_doio: done and not async");
- CLR(bp->nb_flags, NB_DONE);
+ if (nfs_mount_gone(nmp)) {
+ return;
}
- FSDBG_TOP(256, np->n_size, NBOFF(bp), bp->nb_bufsize, bp->nb_flags);
- FSDBG(257, bp->nb_validoff, bp->nb_validend, bp->nb_dirtyoff,
- bp->nb_dirtyend);
-
- if (ISSET(bp->nb_flags, NB_READ)) {
- if (vtype == VREG)
- NFS_BUF_MAP(bp);
- io.iov_len = bp->nb_bufsize;
- uio_uio_resid_set(uiop, io.iov_len);
- io.iov_base = (uintptr_t) bp->nb_data;
- uiop->uio_rw = UIO_READ;
- switch (vtype) {
- case VREG:
- uiop->uio_offset = NBOFF(bp);
- OSAddAtomic(1, (SInt32*)&nfsstats.read_bios);
- error = nfs_readrpc(vp, uiop, cr, p);
- FSDBG(262, np->n_size, NBOFF(bp), uio_uio_resid(uiop), error);
- if (!error) {
- /* update valid range */
- bp->nb_validoff = 0;
- if (uio_uio_resid(uiop) != 0) {
- /*
- * If len > 0, there is a hole in the file and
- * no writes after the hole have been pushed to
- * the server yet.
- * Just zero fill the rest of the valid area.
- */
- // LP64todo - fix this
- diff = bp->nb_bufsize - uio_uio_resid(uiop);
- len = np->n_size - (NBOFF(bp) + diff);
- if (len > 0) {
- // LP64todo - fix this
- len = min(len, uio_uio_resid(uiop));
- bzero((char *)bp->nb_data + diff, len);
- bp->nb_validend = diff + len;
- FSDBG(258, diff, len, 0, 1);
- } else
- bp->nb_validend = diff;
- } else
- bp->nb_validend = bp->nb_bufsize;
- bp->nb_valid = (1 << (round_page_32(bp->nb_validend)/PAGE_SIZE)) - 1;
- if (bp->nb_validend & PAGE_MASK) {
- /* valid range ends in the middle of a page so we */
- /* need to zero-fill any invalid data at the end */
- /* of the last page */
- bzero((caddr_t)(bp->nb_data + bp->nb_validend),
- bp->nb_bufsize - bp->nb_validend);
- FSDBG(258, bp->nb_validend,
- bp->nb_bufsize - bp->nb_validend, 0, 2);
- }
- }
- break;
- case VLNK:
- uiop->uio_offset = (off_t)0;
- OSAddAtomic(1, (SInt32*)&nfsstats.readlink_bios);
- error = nfs_readlinkrpc(vp, uiop, cr, p);
- if (!error) {
- bp->nb_validoff = 0;
- bp->nb_validend = uiop->uio_offset;
- }
- break;
- case VDIR:
- OSAddAtomic(1, (SInt32*)&nfsstats.readdir_bios);
- uiop->uio_offset = NBOFF(bp);
- if (!(nmp->nm_flag & NFSMNT_NFSV3))
- nmp->nm_flag &= ~NFSMNT_RDIRPLUS; /* dk@farm.org */
- if (nmp->nm_flag & NFSMNT_RDIRPLUS) {
- error = nfs_readdirplusrpc(vp, uiop, cr, p);
- if (error == NFSERR_NOTSUPP)
- nmp->nm_flag &= ~NFSMNT_RDIRPLUS;
- }
- if ((nmp->nm_flag & NFSMNT_RDIRPLUS) == 0)
- error = nfs_readdirrpc(vp, uiop, cr, p);
- if (!error) {
- bp->nb_validoff = 0;
- bp->nb_validend = uiop->uio_offset - NBOFF(bp);
- bp->nb_valid = (1 << (round_page_32(bp->nb_validend)/PAGE_SIZE)) - 1;
- }
- break;
- default:
- printf("nfs_doio: type %x unexpected\n", vtype);
- break;
- };
- if (error) {
- SET(bp->nb_flags, NB_ERROR);
- bp->nb_error = error;
- }
-
- } else {
- /* we're doing a write */
- int doff, dend = 0;
-
- /* We need to make sure the pages are locked before doing I/O. */
- if (!ISSET(bp->nb_flags, NB_META) && UBCINFOEXISTS(vp)) {
- if (!ISSET(bp->nb_flags, NB_PAGELIST)) {
- error = nfs_buf_upl_setup(bp);
- if (error) {
- printf("nfs_doio: upl create failed %d\n", error);
- SET(bp->nb_flags, NB_ERROR);
- bp->nb_error = EIO;
- return (EIO);
- }
- nfs_buf_upl_check(bp);
- }
- }
-
- if (ISSET(bp->nb_flags, NB_WASDIRTY)) {
- FSDBG(256, bp, NBOFF(bp), bp->nb_dirty, 0xd00dee);
- /*
- * There are pages marked dirty that need to be written out.
- *
- * We don't want to just combine the write range with the
- * range of pages that are dirty because that could cause us
- * to write data that wasn't actually written to.
- * We also don't want to write data more than once.
- *
- * If the dirty range just needs to be committed, we do that.
- * Otherwise, we write the dirty range and clear the dirty bits
- * for any COMPLETE pages covered by that range.
- * If there are dirty pages left after that, we write out the
- * parts that we haven't written yet.
- */
- }
-
- /*
- * If NB_NEEDCOMMIT is set, a commit rpc may do the trick. If not
- * an actual write will have to be done.
- * If NB_WRITEINPROG is already set, then push it with a write anyhow.
- */
- if (ISSET(bp->nb_flags, NB_NEEDCOMMIT))
- nfs_buf_check_write_verifier(np, bp);
- if ((bp->nb_flags & (NB_NEEDCOMMIT | NB_WRITEINPROG)) == NB_NEEDCOMMIT) {
- doff = NBOFF(bp) + bp->nb_dirtyoff;
- SET(bp->nb_flags, NB_WRITEINPROG);
- error = nfs_commit(vp, doff, bp->nb_dirtyend - bp->nb_dirtyoff,
- bp->nb_wcred, bp->nb_proc);
- CLR(bp->nb_flags, NB_WRITEINPROG);
- if (!error) {
- bp->nb_dirtyoff = bp->nb_dirtyend = 0;
- CLR(bp->nb_flags, NB_NEEDCOMMIT);
- np->n_needcommitcnt--;
- CHECK_NEEDCOMMITCNT(np);
- }
- }
-
- if (!error && bp->nb_dirtyend > 0) {
- /* there's a dirty range that needs to be written out */
- u_int32_t pagemask;
- int firstpg, lastpg;
- if (NBOFF(bp) + bp->nb_dirtyend > (off_t)np->n_size)
- bp->nb_dirtyend = np->n_size - NBOFF(bp);
-
- NFS_BUF_MAP(bp);
-
- doff = bp->nb_dirtyoff;
- dend = bp->nb_dirtyend;
-
- /* if doff page is dirty, move doff to start of page */
- if (NBPGDIRTY(bp,doff/PAGE_SIZE))
- doff -= doff & PAGE_MASK;
- /* try to expand write range to include preceding dirty pages */
- if (!(doff & PAGE_MASK))
- while (doff > 0 && NBPGDIRTY(bp,(doff-1)/PAGE_SIZE))
- doff -= PAGE_SIZE;
- /* if dend page is dirty, move dend to start of next page */
- if ((dend & PAGE_MASK) && NBPGDIRTY(bp,dend/PAGE_SIZE))
- dend = round_page_32(dend);
- /* try to expand write range to include trailing dirty pages */
- if (!(dend & PAGE_MASK))
- while (dend < bp->nb_bufsize && NBPGDIRTY(bp,dend/PAGE_SIZE))
- dend += PAGE_SIZE;
- /* make sure to keep dend clipped to EOF */
- if (NBOFF(bp) + dend > (off_t)np->n_size)
- dend = np->n_size - NBOFF(bp);
- /* calculate range of complete pages being written */
- firstpg = round_page_32(doff) / PAGE_SIZE;
- lastpg = (trunc_page_32(dend) - 1)/ PAGE_SIZE;
- /* calculate mask for that page range */
- pagemask = ((1 << (lastpg+1)) - 1) & ~((1 << firstpg) - 1);
-
- /* compare page mask to nb_dirty; if there are other dirty pages */
- /* then write FILESYNC; otherwise, write UNSTABLE if async and */
- /* not needcommit/stable; otherwise write FILESYNC */
- if (bp->nb_dirty & ~pagemask)
- iomode = NFSV3WRITE_FILESYNC;
- else if ((bp->nb_flags & (NB_ASYNC | NB_NEEDCOMMIT | NB_STABLE)) == NB_ASYNC)
- iomode = NFSV3WRITE_UNSTABLE;
- else
- iomode = NFSV3WRITE_FILESYNC;
-
- /* write the dirty range */
- io.iov_len = dend - doff;
- uio_uio_resid_set(uiop, io.iov_len);
- uiop->uio_offset = NBOFF(bp) + doff;
- io.iov_base = (uintptr_t) bp->nb_data + doff;
- uiop->uio_rw = UIO_WRITE;
-
- OSAddAtomic(1, (SInt32*)&nfsstats.write_bios);
-
- SET(bp->nb_flags, NB_WRITEINPROG);
- error = nfs_writerpc(vp, uiop, cr, p, &iomode, &bp->nb_verf);
- /* clear dirty bits for pages we've written */
- if (!error)
- bp->nb_dirty &= ~pagemask;
- /* set/clear needcommit flag */
- if (!error && iomode == NFSV3WRITE_UNSTABLE) {
- if (!ISSET(bp->nb_flags, NB_NEEDCOMMIT))
- np->n_needcommitcnt++;
- SET(bp->nb_flags, NB_NEEDCOMMIT);
- /* make sure nb_dirtyoff/nb_dirtyend reflect actual range written */
- bp->nb_dirtyoff = doff;
- bp->nb_dirtyend = dend;
- } else {
- if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
- np->n_needcommitcnt--;
- CHECK_NEEDCOMMITCNT(np);
- }
- CLR(bp->nb_flags, NB_NEEDCOMMIT);
- }
- CLR(bp->nb_flags, NB_WRITEINPROG);
+#if CONFIG_NFS_GSS
+ nfs_gss_clnt_rpcdone(req);
+#endif
+ lck_mtx_lock(&nmp->nm_lock);
+ if (!(req->r_flags & R_RESENDQ)) {
+ TAILQ_INSERT_TAIL(&nmp->nm_resendq, req, r_rchain);
+ req->r_flags |= R_RESENDQ;
/*
- * For an interrupted write, the buffer is still valid and the write
- * hasn't been pushed to the server yet, so we can't set NB_ERROR and
- * report the interruption by setting NB_EINTR. For the NB_ASYNC case,
- * NB_EINTR is not relevant.
- *
- * For the case of a V3 write rpc not being committed to stable
- * storage, the block is still dirty and requires either a commit rpc
- * or another write rpc with iomode == NFSV3WRITE_FILESYNC before the
- * block is reused. This is indicated by setting the NB_DELWRI and
- * NB_NEEDCOMMIT flags.
+ * We take a reference on this request so that it can't be
+ * destroyed while a resend is queued or in progress.
*/
- if (error == EINTR || (!error && bp->nb_flags & NB_NEEDCOMMIT)) {
- CLR(bp->nb_flags, NB_INVAL);
- if (!ISSET(bp->nb_flags, NB_DELWRI)) {
- SET(bp->nb_flags, NB_DELWRI);
- OSAddAtomic(1, (SInt32*)&nfs_nbdwrite);
- NFSBUFCNTCHK(0);
- }
- FSDBG(261, bp->nb_validoff, bp->nb_validend,
- bp->nb_bufsize, 0);
- /*
- * Since for the NB_ASYNC case, nfs_bwrite() has
- * reassigned the buffer to the clean list, we have to
- * reassign it back to the dirty one. Ugh.
- */
- if (ISSET(bp->nb_flags, NB_ASYNC)) {
- /* move to dirty list */
- lck_mtx_lock(nfs_buf_mutex);
- if (bp->nb_vnbufs.le_next != NFSNOLIST)
- LIST_REMOVE(bp, nb_vnbufs);
- LIST_INSERT_HEAD(&np->n_dirtyblkhd, bp, nb_vnbufs);
- lck_mtx_unlock(nfs_buf_mutex);
- } else {
- SET(bp->nb_flags, NB_EINTR);
- }
- } else {
- /* either there's an error or we don't need to commit */
- if (error) {
- SET(bp->nb_flags, NB_ERROR);
- bp->nb_error = np->n_error = error;
- np->n_flag |= NWRITEERR;
- /*
- * There was a write error and we need to
- * invalidate attrs and flush buffers in
- * order to sync up with the server.
- * (if this write was extending the file,
- * we may no longer know the correct size)
- *
- * But we can't call vinvalbuf while holding
- * this buffer busy. Set a flag to do it after
- * releasing the buffer.
- *
- * Note we can only invalidate in this function
- * if this is an async write and so the iodone
- * below will release the buffer. Also, we
- * shouldn't call vinvalbuf from nfsiod because
- * that may deadlock waiting for the completion
- * of writes that are queued up behind this one.
- */
- if (ISSET(bp->nb_flags, NB_ASYNC) &&
- !ISSET(bp->nb_flags, NB_IOD)) {
- invalidate = 1;
- } else {
- /* invalidate later */
- np->n_flag |= NNEEDINVALIDATE;
- }
- NATTRINVALIDATE(np);
- }
- /* clear the dirty range */
- bp->nb_dirtyoff = bp->nb_dirtyend = 0;
- }
- }
-
- if (!error && bp->nb_dirty) {
- /* there are pages marked dirty that need to be written out */
- int pg, count, npages, off;
-
- OSAddAtomic(1, (SInt32*)&nfsstats.write_bios);
-
- NFS_BUF_MAP(bp);
+ nfs_request_ref(req, 1);
+ }
+ nfs_mount_sock_thread_wake(nmp);
+ lck_mtx_unlock(&nmp->nm_lock);
+}
- /*
- * we do these writes synchronously because we can't really
- * support the unstable/needommit method. We could write
- * them unstable, clear the dirty bits, and then commit the
- * whole block later, but if we need to rewrite the data, we
- * won't have any idea which pages were written because that
- * info can't be stored in the nb_dirtyoff/nb_dirtyend. We
- * also can't leave the dirty bits set because then we wouldn't
- * be able to tell if the pages were re-dirtied between the end
- * of the write and the commit.
- */
- iomode = NFSV3WRITE_FILESYNC;
- uiop->uio_rw = UIO_WRITE;
+/*
+ * Read directory data into a buffer.
+ *
+ * Buffer will be filled (unless EOF is hit).
+ * Buffers after this one may also be completely/partially filled.
+ */
+int
+nfs_buf_readdir(struct nfsbuf *bp, vfs_context_t ctx)
+{
+ nfsnode_t np = bp->nb_np;
+ struct nfsmount *nmp = NFSTONMP(np);
+ int error = 0;
- SET(bp->nb_flags, NB_WRITEINPROG);
- npages = bp->nb_bufsize/PAGE_SIZE;
- for (pg=0; pg < npages; pg++) {
- if (!NBPGDIRTY(bp,pg))
- continue;
- count = 1;
- while (((pg+count) < npages) && NBPGDIRTY(bp,pg+count))
- count++;
- /* write count pages starting with page pg */
- off = pg * PAGE_SIZE;
- len = count * PAGE_SIZE;
-
- /* clip writes to EOF */
- if (NBOFF(bp) + off + len > (off_t)np->n_size)
- len -= (NBOFF(bp) + off + len) - np->n_size;
- if (len > 0) {
- io.iov_len = len;
- uio_uio_resid_set(uiop, io.iov_len);
- uiop->uio_offset = NBOFF(bp) + off;
- io.iov_base = (uintptr_t) bp->nb_data + off;
- error = nfs_writerpc(vp, uiop, cr, p, &iomode, &bp->nb_verf);
- if (error)
- break;
- }
- /* clear dirty bits */
- while (count--) {
- bp->nb_dirty &= ~(1 << pg);
- /* leave pg on last page */
- if (count) pg++;
- }
- }
- if (!error) {
- if (ISSET(bp->nb_flags, NB_NEEDCOMMIT)) {
- np->n_needcommitcnt--;
- CHECK_NEEDCOMMITCNT(np);
- }
- CLR(bp->nb_flags, NB_NEEDCOMMIT);
- }
- CLR(bp->nb_flags, NB_WRITEINPROG);
- FSDBG_BOT(256, bp->nb_validoff, bp->nb_validend, bp->nb_bufsize,
- np->n_size);
- }
+ if (nfs_mount_gone(nmp)) {
+ return ENXIO;
+ }
- if (error) {
+ if (nmp->nm_vers < NFS_VER4) {
+ error = nfs3_readdir_rpc(np, bp, ctx);
+ }
+#if CONFIG_NFS4
+ else {
+ error = nfs4_readdir_rpc(np, bp, ctx);
+ }
+#endif
+ if (error && (error != NFSERR_DIRBUFDROPPED)) {
SET(bp->nb_flags, NB_ERROR);
bp->nb_error = error;
- }
- }
-
- FSDBG_BOT(256, bp->nb_validoff, bp->nb_validend, bp->nb_bufsize, error);
-
- nfs_buf_iodone(bp);
-
- if (invalidate) {
- /*
- * There was a write error and we need to
- * invalidate attrs and flush buffers in
- * order to sync up with the server.
- * (if this write was extending the file,
- * we may no longer know the correct size)
- *
- * But we couldn't call vinvalbuf while holding
- * the buffer busy. So we call vinvalbuf() after
- * releasing the buffer.
- *
- * Note: we don't bother calling nfs_vinvalbuf() if
- * there's already a flush in progress.
- */
- if (!(np->n_flag & NFLUSHINPROG))
- nfs_vinvalbuf(vp, V_SAVE|V_IGNORE_WRITEERR, cr, p, 1);
}
-
- return (error);
+ return error;
}
+
+#endif /* CONFIG_NFS_CLIENT */
projects / apple / xnu.git / blobdiff