#include <afs/param.h>
#include <roken.h>
+#include <afs/opr.h>
#include <ctype.h>
#include <stddef.h>
#include "partition.h"
#include "volume_inline.h"
#include "common.h"
-#include "afs/afs_assert.h"
#include "vutils.h"
#include <afs/dir.h>
opts->interrupt_rxcall = NULL;
opts->offline_timeout = -1;
opts->offline_shutdown_timeout = -1;
+ opts->usage_threshold = 128;
+ opts->usage_rate_limit = 5;
#ifdef FAST_RESTART
opts->unsafe_attach = 1;
* - volume is in an error state
* - volume is pre-attached
*/
- Log("VPreattachVolumeByVp_r: volume %u not in quiescent state\n", vid);
+ Log("VPreattachVolumeByVp_r: volume %u not in quiescent state (state %u flags 0x%x)\n",
+ vid, V_attachState(vp), V_attachFlags(vp));
goto done;
} else if (vp) {
/* we're re-attaching a volume; clear out some old state */
SYNC_response res;
memset(&res, 0, sizeof(res));
- if (FSYNC_VolOp(volid, VPartitionPath(partp), FSYNC_VOL_NEEDVOLUME, mode, &res)
+ if (FSYNC_VolOp(volid, partp->name, FSYNC_VOL_NEEDVOLUME, mode, &res)
!= SYNC_OK) {
if (res.hdr.reason == FSYNC_SALVAGE) {
#if defined(AFS_DEMAND_ATTACH_FS) && defined(FSSYNC_BUILD_CLIENT)
if (!peek && *ec == 0 && retry == 0 && VMustCheckoutVolume(mode)) {
- code = FSYNC_VerifyCheckout(volid, VPartitionPath(partp), FSYNC_VOL_NEEDVOLUME, mode);
+ code = FSYNC_VerifyCheckout(volid, partp->name, FSYNC_VOL_NEEDVOLUME, mode);
if (code == SYNC_DENIED) {
/* must retry checkout; fileserver no longer thinks we have
if (*ec == VNOVOL) {
/* if the volume doesn't exist, skip straight to 'error' so we don't
* request a salvage */
- goto unlocked_error;
+ VOL_LOCK;
+ goto error_notbroken;
}
if (!*ec) {
if (!VCanScheduleSalvage()) {
Log("VAttachVolume: Error attaching volume %s; volume needs salvage; error=%u\n", path, *ec);
}
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_NO_OFFLINE);
vp->nUsers = 0;
goto locked_error;
} else if (*ec) {
/* volume operation in progress */
- goto unlocked_error;
+ VOL_LOCK;
+ goto error_notbroken;
}
#else /* AFS_DEMAND_ATTACH_FS */
if (*ec) {
if (!VCanScheduleSalvage()) {
Log("VAttachVolume: volume salvage flag is ON for %s; volume needs salvage\n", path);
}
- VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, VOL_SALVAGE_NO_OFFLINE);
vp->nUsers = 0;
#else /* AFS_DEMAND_ATTACH_FS */
if (!VCanScheduleSalvage()) {
Log("VAttachVolume: volume %s needs to be salvaged; not attached.\n", path);
}
- VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, VOL_SALVAGE_NO_OFFLINE);
vp->nUsers = 0;
#else /* AFS_DEMAND_ATTACH_FS */
#if defined(AFS_DEMAND_ATTACH_FS)
/* schedule a salvage so the volume goes away on disk */
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_NO_OFFLINE);
VChangeState_r(vp, VOL_STATE_ERROR);
vp->nUsers = 0;
forcefree = 1;
VGetBitmap_r(ec, vp, i);
if (*ec) {
#ifdef AFS_DEMAND_ATTACH_FS
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_NO_OFFLINE);
vp->nUsers = 0;
#endif /* AFS_DEMAND_ATTACH_FS */
Log("VAttachVolume: error getting bitmap for volume (%s)\n",
"%lu; needs salvage\n", (int)*ec,
afs_printable_uint32_lu(V_id(vp)));
#ifdef AFS_DEMAND_ATTACH_FS
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER |
- VOL_SALVAGE_NO_OFFLINE);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_NO_OFFLINE);
vp->nUsers = 0;
#else /* !AFS_DEMAND_ATTACH_FS */
*ec = VSALVAGE;
#ifdef AFS_DEMAND_ATTACH_FS
error_state = VOL_STATE_ERROR;
/* see if we can recover */
- VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, VOL_SALVAGE_INVALIDATE_HEADER);
+ VRequestSalvage_r(ec, vp, SALVSYNC_NEEDED, 0 /*flags*/);
#endif
}
#ifdef AFS_DEMAND_ATTACH_FS
return vp;
+#ifndef AFS_DEMAND_ATTACH_FS
unlocked_error:
+#endif
+
VOL_LOCK;
locked_error:
#ifdef AFS_DEMAND_ATTACH_FS
VReleaseVolumeHandles_r(vp);
}
+ error_notbroken:
#ifdef AFS_DEMAND_ATTACH_FS
VCheckSalvage(vp);
if (forcefree) {
}
if (V_attachState(vp) == VOL_STATE_PREATTACHED) {
+ if (vp->specialStatus) {
+ *ec = vp->specialStatus;
+ vp = NULL;
+ break;
+ }
avp = VAttachVolumeByVp_r(ec, vp, 0);
if (avp) {
if (vp != avp) {
vp = NULL;
break;
}
-#endif
-#ifdef AFS_DEMAND_ATTACH_FS
+ if (VIsErrorState(V_attachState(vp))) {
+ /* make sure we don't take a vp in VOL_STATE_ERROR state and use
+ * it, or transition it out of that state */
+ if (!*ec) {
+ *ec = VNOVOL;
+ }
+ vp = NULL;
+ break;
+ }
+
/*
* this test MUST happen after VAttachVolymeByVp, so vol_op_state is
* not VolOpRunningUnknown (attach2 would have converted it to Online
vp->hashid);
#ifdef AFS_DEMAND_ATTACH_FS
if (VCanScheduleSalvage()) {
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, 0 /*flags*/);
} else {
FreeVolume(vp);
vp = NULL;
}
#ifdef AFS_DEMAND_ATTACH_FS
- VRequestSalvage_r(&error, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER);
+ VRequestSalvage_r(&error, vp, SALVSYNC_ERROR, 0 /*flags*/);
#endif /* AFS_DEMAND_ATTACH_FS */
#ifdef AFS_PTHREAD_ENV
* @param[in] flags see flags note below
*
* @note flags:
- * VOL_SALVAGE_INVALIDATE_HEADER causes volume header cache entry
- * to be invalidated.
+ * VOL_SALVAGE_NO_OFFLINE do not need to wait to offline the volume; it has
+ * not been fully attached
*
* @pre VOL_LOCK is held.
*
*ec = VSALVAGE;
code = 1;
}
- if (flags & VOL_SALVAGE_INVALIDATE_HEADER) {
- /* Instead of ReleaseVolumeHeader, we do FreeVolumeHeader()
- so that the the next VAttachVolumeByVp_r() invocation
- of attach2() will pull in a cached header
- entry and fail, then load a fresh one from disk and attach
- it to the volume.
- */
- FreeVolumeHeader(vp);
- }
}
return code;
}
* set the volume to an exclusive state and drop the lock
* around the SALVSYNC call
*/
- strlcpy(partName, VPartitionPath(vp->partition), sizeof(partName));
+ strlcpy(partName, vp->partition->name, sizeof(partName));
state_save = VChangeState_r(vp, VOL_STATE_SALVSYNC_REQ);
VOL_UNLOCK;
VGetBitmap_r(ec, vp, i);
if (*ec) {
#ifdef AFS_DEMAND_ATTACH_FS
- VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, VOL_SALVAGE_INVALIDATE_HEADER);
+ VRequestSalvage_r(ec, vp, SALVSYNC_ERROR, 0 /*flags*/);
#else /* AFS_DEMAND_ATTACH_FS */
DeleteVolumeFromHashTable(vp);
vp->shuttingDown = 1; /* Let who has it free it. */
if (now - V_dayUseDate(vp) > OneDay)
VAdjustVolumeStatistics_r(vp);
/*
- * Save the volume header image to disk after every 128 bumps to dayUse.
+ * Save the volume header image to disk after a threshold of bumps to dayUse,
+ * at most every usage_rate_limit seconds.
*/
- if ((V_dayUse(vp)++ & 127) == 0) {
+ V_dayUse(vp)++;
+ vp->usage_bumps_outstanding++;
+ if (vp->usage_bumps_outstanding >= vol_opts.usage_threshold
+ && vp->usage_bumps_next_write <= now) {
Error error;
+ vp->usage_bumps_outstanding = 0;
+ vp->usage_bumps_next_write = now + vol_opts.usage_rate_limit;
VUpdateVolume_r(&error, vp, VOL_UPDATE_WAIT);
}
}
ReleaseVolumeHeader(hp++);
}
+/* get a volume header off of the volume header LRU.
+ *
+ * @return volume header
+ * @retval NULL no usable volume header is available on the LRU
+ *
+ * @pre VOL_LOCK held
+ *
+ * @post for DAFS, if the returned header is associated with a volume, that
+ * volume is NOT in an exclusive state
+ *
+ * @internal volume package internal use only.
+ */
+#ifdef AFS_DEMAND_ATTACH_FS
+static struct volHeader*
+GetVolHeaderFromLRU(void)
+{
+ struct volHeader *hd = NULL, *qh, *nqh;
+ /* Usually, a volume in an exclusive state will not have its header on
+ * the LRU. However, it is possible for this to occur when a salvage
+ * request is received over FSSYNC, and possibly in other corner cases.
+ * So just skip over headers whose volumes are in an exclusive state. We
+ * could VWaitExclusiveState_r instead, but not waiting is faster and
+ * easier to do */
+ for (queue_Scan(&volume_hdr_LRU, qh, nqh, volHeader)) {
+ if (!qh->back || !VIsExclusiveState(V_attachState(qh->back))) {
+ queue_Remove(qh);
+ hd = qh;
+ break;
+ }
+ }
+ return hd;
+}
+#else /* AFS_DEMAND_ATTACH_FS */
+static struct volHeader*
+GetVolHeaderFromLRU(void)
+{
+ struct volHeader *hd = NULL;
+ if (queue_IsNotEmpty(&volume_hdr_LRU)) {
+ hd = queue_First(&volume_hdr_LRU, volHeader);
+ queue_Remove(hd);
+ }
+ return hd;
+}
+#endif /* !AFS_DEMAND_ATTACH_FS */
+
/**
* get a volume header and attach it to the volume object.
*
V_attachFlags(vp) &= ~(VOL_HDR_IN_LRU);
#endif
} else {
- /* we need to grab a new element off the LRU */
- if (queue_IsNotEmpty(&volume_hdr_LRU)) {
- /* grab an element and pull off of LRU */
- hd = queue_First(&volume_hdr_LRU, volHeader);
- queue_Remove(hd);
- } else {
+ hd = GetVolHeaderFromLRU();
+ if (!hd) {
/* LRU is empty, so allocate a new volHeader
* this is probably indicative of a leak, so let the user know */
hd = (struct volHeader *)calloc(1, sizeof(struct volHeader));
* be sync'd out to disk */
#ifdef AFS_DEMAND_ATTACH_FS
- /* if hd->back were in an exclusive state, then
- * its volHeader would not be on the LRU... */
+ /* GetVolHeaderFromLRU had better not give us back a header
+ * with a volume in exclusive state... */
osi_Assert(!VIsExclusiveState(V_attachState(hd->back)));
#endif
void
VPrintCacheStats_r(void)
{
- afs_uint32 get_hi, get_lo, load_hi, load_lo;
struct VnodeClassInfo *vcp;
vcp = &VnodeClassInfo[vLarge];
Log("Large vnode cache, %d entries, %d allocs, %d gets (%d reads), %d writes\n", vcp->cacheSize, vcp->allocs, vcp->gets, vcp->reads, vcp->writes);
vcp = &VnodeClassInfo[vSmall];
Log("Small vnode cache,%d entries, %d allocs, %d gets (%d reads), %d writes\n", vcp->cacheSize, vcp->allocs, vcp->gets, vcp->reads, vcp->writes);
- SplitInt64(VStats.hdr_gets, get_hi, get_lo);
- SplitInt64(VStats.hdr_loads, load_hi, load_lo);
- Log("Volume header cache, %d entries, %d gets, %d replacements\n",
- VStats.hdr_cache_size, get_lo, load_lo);
+ Log("Volume header cache, %d entries, %"AFS_INT64_FMT" gets, "
+ "%"AFS_INT64_FMT" replacements\n",
+ VStats.hdr_cache_size, VStats.hdr_gets, VStats.hdr_loads);
}
void