#include <sys/file.h>
#endif
-#include <afs/afs_assert.h>
-
+#include <afs/opr.h>
+#include <opr/lock.h>
#include <afs/nfs.h> /* yuck. This is an abomination. */
-#include <lwp.h>
#include <rx/rx.h>
+#include <rx/rx_queue.h>
#include <afs/afscbint.h>
#include <afs/afsutil.h>
-#include <lock.h>
#include <afs/ihandle.h>
+#include <afs/partition.h>
#include <afs/vnode.h>
#include <afs/volume.h>
#include "viced_prototypes.h"
#include "host.h"
#include "callback.h"
#ifdef AFS_DEMAND_ATTACH_FS
-#include "../tviced/serialize_state.h"
+#include "serialize_state.h"
#endif /* AFS_DEMAND_ATTACH_FS */
while (*p && *p != fei)
p = &itofe(*p)->fnext;
- osi_Assert(*p);
+ opr_Assert(*p);
*p = fe->fnext;
FreeFE(fe);
return 0;
int
InitCallBack(int nblks)
{
+ opr_Assert(nblks > 0);
+
H_LOCK;
- tfirst = CBtime(FT_ApproxTime());
+ tfirst = CBtime(time(NULL));
/* N.B. The "-1", below, is because
* FE[0] and CB[0] are not used--and not allocated */
- FE = ((struct FileEntry *)(calloc(nblks, sizeof(struct FileEntry))));
+ FE = calloc(nblks, sizeof(struct FileEntry));
if (!FE) {
ViceLogThenPanic(0, ("Failed malloc in InitCallBack\n"));
}
cbstuff.nFEs = nblks;
while (cbstuff.nFEs)
FreeFE(&FE[cbstuff.nFEs]); /* This is correct */
- CB = ((struct CallBack *)(calloc(nblks, sizeof(struct CallBack))));
+ CB = calloc(nblks, sizeof(struct CallBack));
if (!CB) {
ViceLogThenPanic(0, ("Failed malloc in InitCallBack\n"));
}
int j;
struct rx_connection *cb_conn = NULL;
-#ifdef ADAPT_MTU
rx_SetConnDeadTime(ahost->callback_rxcon, 4);
rx_SetConnHardDeadTime(ahost->callback_rxcon, AFS_HARDDEADTIME);
-#endif
code = 0;
j = 0;
fe = FindFE(fid);
if (type == CB_NORMAL) {
time_out =
- TimeCeiling(FT_ApproxTime() + TimeOut(fe ? fe->ncbs : 0) +
+ TimeCeiling(time(NULL) + TimeOut(fe ? fe->ncbs : 0) +
ServerBias);
Thead = THead(CBtime(time_out));
} else if (type == CB_VOLUME) {
- time_out = TimeCeiling((60 * 120 + FT_ApproxTime()) + ServerBias);
+ time_out = TimeCeiling((60 * 120 + time(NULL)) + ServerBias);
Thead = THead(CBtime(time_out));
} else if (type == CB_BULK) {
/* bulk status can get so many callbacks all at once, and most of them
* are probably not for things that will be used for long.
*/
time_out =
- TimeCeiling(FT_ApproxTime() + ServerBias +
+ TimeCeiling(time(NULL) + ServerBias +
TimeOut(22 + (fe ? fe->ncbs : 0)));
Thead = THead(CBtime(time_out));
}
static struct AFSCBs tc = { 0, 0 };
int multi_to_cba_map[MAX_CB_HOSTS];
- osi_Assert(ncbas <= MAX_CB_HOSTS);
+ opr_Assert(ncbas <= MAX_CB_HOSTS);
/* sort cba list to avoid makecall issues */
qsort(cba, ncbas, sizeof(struct cbstruct), CompareCBA);
multi_to_cba_map[j] = i;
conns[j++] = thishost->callback_rxcon;
-#ifdef ADAPT_MTU
rx_SetConnDeadTime(thishost->callback_rxcon, 4);
rx_SetConnHardDeadTime(thishost->callback_rxcon, AFS_HARDDEADTIME);
-#endif
}
if (j) { /* who knows what multi would do with 0 conns? */
int hostindex;
char hoststr[16];
- ViceLog(7,
- ("BCB: BreakCallBack(Host %p all but %s:%d, (%u,%u,%u))\n",
- xhost, afs_inet_ntoa_r(xhost->host, hoststr), ntohs(xhost->port),
- fid->Volume, fid->Vnode, fid->Unique));
+ if (xhost)
+ ViceLog(7,
+ ("BCB: BreakCallBack(Host %p all but %s:%d, (%u,%u,%u))\n",
+ xhost, afs_inet_ntoa_r(xhost->host, hoststr), ntohs(xhost->port),
+ fid->Volume, fid->Vnode, fid->Unique));
+ else
+ ViceLog(7,
+ ("BCB: BreakCallBack(No Host, (%u,%u,%u))\n",
+ fid->Volume, fid->Vnode, fid->Unique));
H_LOCK;
cbstuff.BreakCallBacks++;
if (!fe) {
goto done;
}
- hostindex = h_htoi(xhost);
+ hostindex = xhost ? h_htoi(xhost) : 0;
cb = itocb(fe->firstcb);
if (!cb || ((fe->ncbs == 1) && (cb->hhead == hostindex) && !flag)) {
/* the most common case is what follows the || */
h_Unlock_r(host);
return 0;
}
- osi_Assert(parms->ncbas <= MAX_CB_HOSTS);
+ opr_Assert(parms->ncbas <= MAX_CB_HOSTS);
/* Do not call MultiBreakCallBack on the current host structure
** because it would prematurely release the hold on the host
* Now uses multi-RX for CallBack RPC in a different thread,
* only marking them here.
*/
-#ifdef AFS_PTHREAD_ENV
extern pthread_cond_t fsync_cond;
-#else
-extern char fsync_wait[];
-#endif
int
-BreakVolumeCallBacksLater(afs_uint32 volume)
+BreakVolumeCallBacksLater(VolumeId volume)
{
int hash;
afs_uint32 *feip;
struct host *host;
int found = 0;
- ViceLog(25, ("Setting later on volume %u\n", volume));
+ ViceLog(25, ("Setting later on volume %" AFS_VOLID_FMT "\n",
+ afs_printable_VolumeId_lu(volume)));
H_LOCK;
for (hash = 0; hash < FEHASH_SIZE; hash++) {
for (feip = &HashTable[hash]; (fe = itofe(*feip)) != NULL; ) {
}
ViceLog(25, ("Fsync thread wakeup\n"));
-#ifdef AFS_PTHREAD_ENV
FSYNC_LOCK;
- CV_BROADCAST(&fsync_cond);
+ opr_cv_broadcast(&fsync_cond);
FSYNC_UNLOCK;
-#else
- LWP_NoYieldSignal(fsync_wait);
-#endif
return 0;
}
/* Ugly, but used to avoid left side casting */
struct object *tmpfe;
ViceLog(125,
- ("Unchaining for %u:%u:%u\n", fe->vnode, fe->unique,
- fe->volid));
+ ("Unchaining for %u:%u:%" AFS_VOLID_FMT "\n", fe->vnode,
+ fe->unique, afs_printable_VolumeId_lu(fe->volid)));
fid.Volume = fe->volid;
*feip = fe->fnext;
fe->status &= ~FE_LATER; /* not strictly needed */
/* leave flag for MultiBreakVolumeCallBack to clear */
} else {
ViceLog(125,
- ("Found host %p (%s:%d) non-DELAYED cb for %u:%u:%u\n",
+ ("Found host %p (%s:%d) non-DELAYED cb for %u:%u:%" AFS_VOLID_FMT "\n",
host, afs_inet_ntoa_r(host->host, hoststr),
- ntohs(host->port), fe->vnode, fe->unique, fe->volid));
+ ntohs(host->port), fe->vnode, fe->unique,
+ afs_printable_VolumeId_lu(fe->volid)));
}
}
myfe = fe;
int
CleanupTimedOutCallBacks_r(void)
{
- afs_uint32 now = CBtime(FT_ApproxTime());
+ afs_uint32 now = CBtime(time(NULL));
afs_uint32 *thead;
struct CallBack *cb;
int ntimedout = 0;
cb = itocb(cbi);
cbi = cb->tnext;
ViceLog(8,
- ("CCB: deleting timed out call back %x (%s:%d), (%u,%u,%u)\n",
+ ("CCB: deleting timed out call back %x (%s:%d), (%" AFS_VOLID_FMT ",%u,%u)\n",
h_itoh(cb->hhead)->host,
afs_inet_ntoa_r(h_itoh(cb->hhead)->host, hoststr),
- h_itoh(cb->hhead)->port, itofe(cb->fhead)->volid,
+ h_itoh(cb->hhead)->port,
+ afs_printable_VolumeId_lu(itofe(cb->fhead)->volid),
itofe(cb->fhead)->vnode, itofe(cb->fhead)->unique));
HDel(cb);
CDel(cb, 1);
struct lih_params params;
int i = 0;
+ if (cbstuff.GotSomeSpaces == 0) {
+ /* only log this once; if GSS is getting called constantly, that's not
+ * good but don't make things worse by spamming the log. */
+ ViceLog(0, ("We have run out of callback space; forcing callback revocation. "
+ "This suggests the fileserver is configured with insufficient "
+ "callbacks; you probably want to increase the -cb fileserver "
+ "parameter (current setting: %u). The fileserver will continue "
+ "to operate, but this may indicate a severe performance problem\n",
+ cbstuff.nblks));
+ ViceLog(0, ("This message is logged at most once; for more information "
+ "see the OpenAFS documentation and fileserver xstat collection 3\n"));
+ }
+
cbstuff.GotSomeSpaces++;
ViceLog(5,
("GSS: First looking for timed out call backs via CleanupCallBacks\n"));
for (idx = 0; idx < niovecs; idx++) {
cbdsk = (struct CBDiskEntry *) iov[idx].iov_base;
+
+ if (cbdsk->cb.hhead < state->h_map.len &&
+ state->h_map.entries[cbdsk->cb.hhead].valid == FS_STATE_IDX_SKIPPED) {
+ continue;
+ }
+
if ((cb = GetCB()) == NULL) {
ViceLog(0, ("cb_stateRestoreCBs: ran out of free CallBack structures\n"));
ret = 1;
ret = 1;
goto done;
}
+ state->fe_map.entries[in->index].valid = FS_STATE_IDX_VALID;
state->fe_map.entries[in->index].old_idx = in->index;
state->fe_map.entries[in->index].new_idx = fetoi(out);
ret = 1;
goto done;
}
+ state->cb_map.entries[in->index].valid = FS_STATE_IDX_VALID;
state->cb_map.entries[in->index].old_idx = in->index;
state->cb_map.entries[in->index].new_idx = cbtoi(out);
if (old >= state->fe_map.len) {
ViceLog(0, ("fe_OldToNew: index %d is out of range\n", old));
ret = 1;
- } else if (state->fe_map.entries[old].old_idx != old) { /* sanity check */
+ } else if (state->fe_map.entries[old].valid != FS_STATE_IDX_VALID ||
+ state->fe_map.entries[old].old_idx != old) { /* sanity check */
ViceLog(0, ("fe_OldToNew: index %d points to an invalid FileEntry record\n", old));
ret = 1;
} else {
if (old >= state->cb_map.len) {
ViceLog(0, ("cb_OldToNew: index %d is out of range\n", old));
ret = 1;
- } else if (state->cb_map.entries[old].old_idx != old) { /* sanity check */
+ } else if (state->cb_map.entries[old].valid != FS_STATE_IDX_VALID ||
+ state->cb_map.entries[old].old_idx != old) { /* sanity check */
ViceLog(0, ("cb_OldToNew: index %d points to an invalid CallBack record\n", old));
ret = 1;
} else {
}
#endif /* AFS_DEMAND_ATTACH_FS */
+#define DumpBytes(fd,buf,req) if (write(fd, buf, req) < 0) ; /* don't care */
+
static int
DumpCallBackState_r(void)
{
int fd, oflag;
- afs_uint32 magic = MAGICV2, now = (afs_int32) FT_ApproxTime(), freelisthead;
+ afs_uint32 magic = MAGICV2, now = (afs_int32) time(NULL), freelisthead;
oflag = O_WRONLY | O_CREAT | O_TRUNC;
#ifdef AFS_NT40_ENV
AFSDIR_SERVER_CBKDUMP_FILEPATH));
return 0;
}
- (void)write(fd, &magic, sizeof(magic));
- (void)write(fd, &now, sizeof(now));
- (void)write(fd, &cbstuff, sizeof(cbstuff));
- (void)write(fd, TimeOuts, sizeof(TimeOuts));
- (void)write(fd, timeout, sizeof(timeout));
- (void)write(fd, &tfirst, sizeof(tfirst));
+ /*
+ * Collect but ignoring the return value of write(2) here,
+ * to avoid compiler warnings on some platforms.
+ */
+ DumpBytes(fd, &magic, sizeof(magic));
+ DumpBytes(fd, &now, sizeof(now));
+ DumpBytes(fd, &cbstuff, sizeof(cbstuff));
+ DumpBytes(fd, TimeOuts, sizeof(TimeOuts));
+ DumpBytes(fd, timeout, sizeof(timeout));
+ DumpBytes(fd, &tfirst, sizeof(tfirst));
freelisthead = cbtoi((struct CallBack *)CBfree);
- (void)write(fd, &freelisthead, sizeof(freelisthead)); /* This is a pointer */
+ DumpBytes(fd, &freelisthead, sizeof(freelisthead)); /* This is a pointer */
freelisthead = fetoi((struct FileEntry *)FEfree);
- (void)write(fd, &freelisthead, sizeof(freelisthead)); /* This is a pointer */
- (void)write(fd, HashTable, sizeof(HashTable));
- (void)write(fd, &CB[1], sizeof(CB[1]) * cbstuff.nblks); /* CB stuff */
- (void)write(fd, &FE[1], sizeof(FE[1]) * cbstuff.nblks); /* FE stuff */
+ DumpBytes(fd, &freelisthead, sizeof(freelisthead)); /* This is a pointer */
+ DumpBytes(fd, HashTable, sizeof(HashTable));
+ DumpBytes(fd, &CB[1], sizeof(CB[1]) * cbstuff.nblks); /* CB stuff */
+ DumpBytes(fd, &FE[1], sizeof(FE[1]) * cbstuff.nblks); /* FE stuff */
close(fd);
return 0;
if (fe == NULL)
return;
- printf("vol=%u vn=%u cbs=%d hi=%d st=%d fest=%d, exp in %lu secs at %s",
- fe->volid, fe->vnode, fe->ncbs, cb->hhead, cb->status, fe->status,
- expires - now, ctime(&expires));
+ printf("vol=%" AFS_VOLID_FMT " vn=%u cbs=%d hi=%d st=%d fest=%d, exp in %lu secs at %s",
+ afs_printable_VolumeId_lu(fe->volid), fe->vnode, fe->ncbs,
+ cb->hhead, cb->status, fe->status, expires - now, ctime(&expires));
}
#endif
j++;
}
- osi_Assert(j); /* at least one alternate address */
+ opr_Assert(j); /* at least one alternate address */
ViceLog(125,
("Starting multibreakcall back on all addr for host %p (%s:%d)\n",
host, afs_inet_ntoa_r(host->host, hoststr), ntohs(host->port)));
if (host->callback_rxcon)
rx_DestroyConnection(host->callback_rxcon);
host->callback_rxcon = conns[multi_i];
- h_DeleteHostFromAddrHashTable_r(host->host, host->port, host);
+ /* add then remove */
+ addInterfaceAddr_r(host, interfaces[multi_i].addr,
+ interfaces[multi_i].port);
+ removeInterfaceAddr_r(host, host->host, host->port);
host->host = interfaces[multi_i].addr;
host->port = interfaces[multi_i].port;
- h_AddHostToAddrHashTable_r(host->host, host->port, host);
connSuccess = conns[multi_i];
rx_SetConnDeadTime(host->callback_rxcon, 50);
rx_SetConnHardDeadTime(host->callback_rxcon, AFS_HARDDEADTIME);
j++;
}
- osi_Assert(j); /* at least one alternate address */
+ opr_Assert(j); /* at least one alternate address */
ViceLog(125,
("Starting multiprobe on all addr for host %p (%s:%d)\n",
host, afs_inet_ntoa_r(host->host, hoststr),
if (host->callback_rxcon)
rx_DestroyConnection(host->callback_rxcon);
host->callback_rxcon = conns[multi_i];
- h_DeleteHostFromAddrHashTable_r(host->host, host->port, host);
+ /* add then remove */
+ addInterfaceAddr_r(host, interfaces[multi_i].addr,
+ interfaces[multi_i].port);
+ removeInterfaceAddr_r(host, host->host, host->port);
host->host = interfaces[multi_i].addr;
host->port = interfaces[multi_i].port;
- h_AddHostToAddrHashTable_r(host->host, host->port, host);
connSuccess = conns[multi_i];
rx_SetConnDeadTime(host->callback_rxcon, 50);
rx_SetConnHardDeadTime(host->callback_rxcon, AFS_HARDDEADTIME);