/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
- *
+ *
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
#include <afsconfig.h>
#include <afs/param.h>
-RCSID
- ("$Header$");
+#include <roken.h>
-#include <sys/types.h>
-#ifdef AFS_NT40_ENV
-#include <winsock2.h>
-#include <fcntl.h>
+#include <assert.h>
+
+#include <afs/opr.h>
+#ifdef AFS_PTHREAD_ENV
+# include <opr/lock.h>
#else
-#include <sys/file.h>
-#include <netinet/in.h>
+# include <opr/lockstub.h>
#endif
-#include <string.h>
+
#include <lock.h>
#include <rx/xdr.h>
#include <rx/rx.h>
-#include <errno.h>
#include <afs/afsutil.h>
#define UBIK_INTERNALS
#include "ubik.h"
#include "ubik_int.h"
-int (*ubik_CheckRXSecurityProc) ();
-char *ubik_CheckRXSecurityRock;
-void printServerInfo();
-/* routines for handling requests remotely-submitted by the sync site. These are
- only write transactions (we don't propagate read trans), and there is at most one
- write transaction extant at any one time.
-*/
+static void printServerInfo(void);
+
+/*! \file
+ * routines for handling requests remotely-submitted by the sync site. These are
+ * only write transactions (we don't propagate read trans), and there is at most one
+ * write transaction extant at any one time.
+ */
struct ubik_trans *ubik_currentTrans = 0;
-ubik_CheckAuth(acall)
- register struct rx_call *acall;
-{
- register afs_int32 code;
- if (ubik_CheckRXSecurityProc) {
- code = (*ubik_CheckRXSecurityProc) (ubik_CheckRXSecurityRock, acall);
- return code;
- } else
- return 0;
-}
/* the rest of these guys handle remote execution of write
* transactions: this is the code executed on the other servers when a
* sync site is executing a write transaction.
*/
afs_int32
-SDISK_Begin(rxcall, atid)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
+SDISK_Begin(struct rx_call *rxcall, struct ubik_tid *atid)
{
- register afs_int32 code;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
DBHOLD(ubik_dbase);
- urecovery_CheckTid(atid);
- if (ubik_currentTrans) {
- /* If the thread is not waiting for lock - ok to end it */
-#if !defined(UBIK_PAUSE)
- if (ubik_currentTrans->locktype != LOCKWAIT) {
-#endif /* UBIK_PAUSE */
- udisk_end(ubik_currentTrans);
-#if !defined(UBIK_PAUSE)
- }
-#endif /* UBIK_PAUSE */
- ubik_currentTrans = (struct ubik_trans *)0;
+ if (urecovery_AllBetter(ubik_dbase, 0) == 0) {
+ code = UNOQUORUM;
+ goto out;
}
+ urecovery_CheckTid(atid, 1);
code = udisk_begin(ubik_dbase, UBIK_WRITETRANS, &ubik_currentTrans);
if (!code && ubik_currentTrans) {
/* label this trans with the right trans id */
ubik_currentTrans->tid.epoch = atid->epoch;
ubik_currentTrans->tid.counter = atid->counter;
}
+ out:
DBRELE(ubik_dbase);
return code;
}
afs_int32
-SDISK_Commit(rxcall, atid)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
+SDISK_Commit(struct rx_call *rxcall, struct ubik_tid *atid)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
-
+ ObtainWriteLock(&ubik_dbase->cache_lock);
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/*
* sanity check to make sure only write trans appear here
*/
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
code = udisk_commit(ubik_currentTrans);
if (code == 0) {
/* sync site should now match */
- ubik_dbVersion = ubik_dbase->version;
+ uvote_set_dbVersion(ubik_dbase->version);
}
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
+ ReleaseWriteLock(&ubik_dbase->cache_lock);
return code;
}
afs_int32
-SDISK_ReleaseLocks(rxcall, atid)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
+SDISK_ReleaseLocks(struct rx_call *rxcall, struct ubik_tid *atid)
{
- register struct ubik_dbase *dbase;
- register afs_int32 code;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
+ DBHOLD(ubik_dbase);
+
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* If the thread is not waiting for lock - ok to end it */
-#if !defined(UBIK_PAUSE)
if (ubik_currentTrans->locktype != LOCKWAIT) {
-#endif /* UBIK_PAUSE */
udisk_end(ubik_currentTrans);
-#if !defined(UBIK_PAUSE)
}
-#endif /* UBIK_PAUSE */
ubik_currentTrans = (struct ubik_trans *)0;
- DBRELE(dbase);
- return 0;
+done:
+ DBRELE(ubik_dbase);
+ return code;
}
afs_int32
-SDISK_Abort(rxcall, atid)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
+SDISK_Abort(struct rx_call *rxcall, struct ubik_tid *atid)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
-
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
code = udisk_abort(ubik_currentTrans);
/* If the thread is not waiting for lock - ok to end it */
-#if !defined(UBIK_PAUSE)
if (ubik_currentTrans->locktype != LOCKWAIT) {
-#endif /* UBIK_PAUSE */
udisk_end(ubik_currentTrans);
-#if !defined(UBIK_PAUSE)
}
-#endif /* UBIK_PAUSE */
ubik_currentTrans = (struct ubik_trans *)0;
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}
+/* apos and alen are not used */
afs_int32
-SDISK_Lock(rxcall, atid, afile, apos, alen, atype)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
- afs_int32 afile, apos, alen, atype; /* apos and alen are not used */
+SDISK_Lock(struct rx_call *rxcall, struct ubik_tid *atid,
+ afs_int32 afile, afs_int32 apos, afs_int32 alen, afs_int32 atype)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
struct ubik_trans *ubik_thisTrans;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
if (alen != 1) {
- return UBADLOCK;
+ code = UBADLOCK;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
ubik_thisTrans = ubik_currentTrans;
udisk_end(ubik_thisTrans);
code = USYNC;
}
-
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}
-/* Write a vector of data */
+/*!
+ * \brief Write a vector of data
+ */
afs_int32
-SDISK_WriteV(rxcall, atid, io_vector, io_buffer)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
- iovec_wrt *io_vector;
- iovec_buf *io_buffer;
+SDISK_WriteV(struct rx_call *rxcall, struct ubik_tid *atid,
+ iovec_wrt *io_vector, iovec_buf *io_buffer)
{
afs_int32 code, i, offset;
- struct ubik_dbase *dbase;
struct ubik_iovec *iovec;
char *iobuf;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
iovec = (struct ubik_iovec *)io_vector->iovec_wrt_val;
offset += iovec[i].length;
}
-
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}
afs_int32
-SDISK_Write(rxcall, atid, afile, apos, adata)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
- afs_int32 afile, apos;
- register bulkdata *adata;
+SDISK_Write(struct rx_call *rxcall, struct ubik_tid *atid,
+ afs_int32 afile, afs_int32 apos, bulkdata *adata)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
code =
udisk_write(ubik_currentTrans, afile, adata->bulkdata_val, apos,
adata->bulkdata_len);
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}
afs_int32
-SDISK_Truncate(rxcall, atid, afile, alen)
- register struct rx_call *rxcall;
- struct ubik_tid *atid;
- afs_int32 afile;
- afs_int32 alen;
+SDISK_Truncate(struct rx_call *rxcall, struct ubik_tid *atid,
+ afs_int32 afile, afs_int32 alen)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
+ code = USYNC;
+ goto done;
}
code = udisk_truncate(ubik_currentTrans, afile, alen);
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}
afs_int32
-SDISK_GetVersion(rxcall, aversion)
- register struct rx_call *rxcall;
- register struct ubik_version *aversion;
+SDISK_GetVersion(struct rx_call *rxcall,
+ struct ubik_version *aversion)
{
- register afs_int32 code;
+ afs_int32 code;
if ((code = ubik_CheckAuth(rxcall))) {
return code;
* we are not the sync site any more, all write transactions would
* fail with UNOQUORUM anyway.
*/
+ DBHOLD(ubik_dbase);
if (ubeacon_AmSyncSite()) {
+ DBRELE(ubik_dbase);
return UDEADLOCK;
}
- DBHOLD(ubik_dbase);
code = (*ubik_dbase->getlabel) (ubik_dbase, 0, aversion);
DBRELE(ubik_dbase);
if (code) {
}
afs_int32
-SDISK_GetFile(rxcall, file, version)
- register struct rx_call *rxcall;
- register afs_int32 file;
- struct ubik_version *version;
+SDISK_GetFile(struct rx_call *rxcall, afs_int32 file,
+ struct ubik_version *version)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
- register afs_int32 offset;
+ afs_int32 code;
+ struct ubik_dbase *dbase;
+ afs_int32 offset;
struct ubik_stat ubikstat;
char tbuffer[256];
afs_int32 tlen;
afs_int32 length;
+ struct rx_peer *tpeer;
+ struct rx_connection *tconn;
+ afs_uint32 otherHost = 0;
+ char hoststr[16];
if ((code = ubik_CheckAuth(rxcall))) {
return code;
}
-/* temporarily disabled because it causes problems for migration tool. Hey, it's just
- * a sanity check, anyway.
- if (ubeacon_AmSyncSite()) {
- return UDEADLOCK;
- }
-*/
+
+ tconn = rx_ConnectionOf(rxcall);
+ tpeer = rx_PeerOf(tconn);
+ otherHost = ubikGetPrimaryInterfaceAddr(rx_HostOf(tpeer));
+ ViceLog(0, ("Ubik: Synchronize database: send (via GetFile) "
+ "to server %s begin\n",
+ afs_inet_ntoa_r(otherHost, hoststr)));
+
dbase = ubik_dbase;
DBHOLD(dbase);
code = (*dbase->stat) (dbase, file, &ubikstat);
if (code < 0) {
- DBRELE(dbase);
- return code;
+ ViceLog(0, ("database stat() error:%d\n", code));
+ goto failed;
}
length = ubikstat.size;
tlen = htonl(length);
code = rx_Write(rxcall, (char *)&tlen, sizeof(afs_int32));
if (code != sizeof(afs_int32)) {
- DBRELE(dbase);
- ubik_dprint("Rx-write length error=%d\n", code);
- return BULK_ERROR;
+ ViceLog(0, ("Rx-write length error=%d\n", code));
+ code = BULK_ERROR;
+ goto failed;
}
offset = 0;
while (length > 0) {
tlen = (length > sizeof(tbuffer) ? sizeof(tbuffer) : length);
code = (*dbase->read) (dbase, file, tbuffer, offset, tlen);
if (code != tlen) {
- DBRELE(dbase);
- ubik_dprint("read failed error=%d\n", code);
- return UIOERROR;
+ ViceLog(0, ("read failed error=%d\n", code));
+ code = UIOERROR;
+ goto failed;
}
code = rx_Write(rxcall, tbuffer, tlen);
if (code != tlen) {
- DBRELE(dbase);
- ubik_dprint("Rx-write length error=%d\n", code);
- return BULK_ERROR;
+ ViceLog(0, ("Rx-write data error=%d\n", code));
+ code = BULK_ERROR;
+ goto failed;
}
length -= tlen;
offset += tlen;
}
code = (*dbase->getlabel) (dbase, file, version); /* return the dbase, too */
+ if (code)
+ ViceLog(0, ("getlabel error=%d\n", code));
+
+ failed:
DBRELE(dbase);
+ if (code) {
+ ViceLog(0,
+ ("Ubik: Synchronize database: send (via GetFile) to "
+ "server %s failed (error = %d)\n",
+ afs_inet_ntoa_r(otherHost, hoststr), code));
+ } else {
+ ViceLog(0,
+ ("Ubik: Synchronize database: send (via GetFile) to "
+ "server %s complete, version: %d.%d\n",
+ afs_inet_ntoa_r(otherHost, hoststr), version->epoch, version->counter));
+ }
return code;
}
afs_int32
-SDISK_SendFile(rxcall, file, length, avers)
- register struct rx_call *rxcall;
- afs_int32 file;
- afs_int32 length;
- struct ubik_version *avers;
+SDISK_SendFile(struct rx_call *rxcall, afs_int32 file,
+ afs_int32 length, struct ubik_version *avers)
{
- register afs_int32 code;
- register struct ubik_dbase *dbase;
+ afs_int32 code;
+ struct ubik_dbase *dbase = NULL;
char tbuffer[1024];
afs_int32 offset;
struct ubik_version tversion;
- register int tlen;
+ int tlen;
struct rx_peer *tpeer;
struct rx_connection *tconn;
- afs_uint32 otherHost;
-#ifndef OLD_URECOVERY
+ afs_uint32 syncHost = 0;
+ afs_uint32 otherHost = 0;
+ char hoststr[16];
char pbuffer[1028];
- int flen, fd = -1;
-#endif
+ int fd = -1;
+ afs_int32 epoch = 0;
+ afs_int32 pass;
/* send the file back to the requester */
+ dbase = ubik_dbase;
+ pbuffer[0] = '\0';
+
if ((code = ubik_CheckAuth(rxcall))) {
- goto failed;
+ return code;
}
/* next, we do a sanity check to see if the guy sending us the database is
* screwup. Thus, we only object if we're sure we know who the sync site
* is, and it ain't the guy talking to us.
*/
- offset = uvote_GetSyncSite();
+ syncHost = uvote_GetSyncSite();
tconn = rx_ConnectionOf(rxcall);
tpeer = rx_PeerOf(tconn);
otherHost = ubikGetPrimaryInterfaceAddr(rx_HostOf(tpeer));
- if (offset && offset != otherHost) {
+ if (syncHost && syncHost != otherHost) {
/* we *know* this is the wrong guy */
- code = USYNC;
- goto failed;
+ char sync_hoststr[16];
+ ViceLog(0,
+ ("Ubik: Refusing synchronization with server %s since it is not the sync-site (%s).\n",
+ afs_inet_ntoa_r(otherHost, hoststr),
+ afs_inet_ntoa_r(syncHost, sync_hoststr)));
+ return USYNC;
}
- dbase = ubik_dbase;
DBHOLD(dbase);
/* abort any active trans that may scribble over the database */
urecovery_AbortAll(dbase);
- ubik_print("Ubik: Synchronize database with server %s\n",
- afs_inet_ntoa(otherHost));
+ ViceLog(0, ("Ubik: Synchronize database: receive (via SendFile) from server %s begin\n",
+ afs_inet_ntoa_r(otherHost, hoststr)));
offset = 0;
-#ifdef OLD_URECOVERY
- (*dbase->truncate) (dbase, file, 0); /* truncate first */
- tversion.epoch = 0; /* start off by labelling in-transit db as invalid */
- tversion.counter = 0;
+ UBIK_VERSION_LOCK;
+ epoch = tversion.epoch = 0; /* start off by labelling in-transit db as invalid */
(*dbase->setlabel) (dbase, file, &tversion); /* setlabel does sync */
-#else
- flen = length;
- afs_snprintf(pbuffer, sizeof(pbuffer), "%s.DB0.TMP", ubik_dbase->pathName);
+ snprintf(pbuffer, sizeof(pbuffer), "%s.DB%s%d.TMP",
+ ubik_dbase->pathName, (file<0)?"SYS":"",
+ (file<0)?-file:file);
fd = open(pbuffer, O_CREAT | O_RDWR | O_TRUNC, 0600);
if (fd < 0) {
code = errno;
- goto failed;
+ ViceLog(0, ("Open error=%d\n", code));
+ goto failed_locked;
}
code = lseek(fd, HDRSIZE, 0);
if (code != HDRSIZE) {
+ ViceLog(0, ("lseek error=%d\n", code));
close(fd);
- goto failed;
+ goto failed_locked;
}
-#endif
+ pass = 0;
memcpy(&ubik_dbase->version, &tversion, sizeof(struct ubik_version));
+ UBIK_VERSION_UNLOCK;
while (length > 0) {
tlen = (length > sizeof(tbuffer) ? sizeof(tbuffer) : length);
+#if !defined(AFS_PTHREAD_ENV)
+ if (pass % 4 == 0)
+ IOMGR_Poll();
+#endif
code = rx_Read(rxcall, tbuffer, tlen);
if (code != tlen) {
- DBRELE(dbase);
- ubik_dprint("Rx-read length error=%d\n", code);
+ ViceLog(0, ("Rx-read length error=%d\n", code));
code = BULK_ERROR;
close(fd);
goto failed;
}
-#ifdef OLD_URECOVERY
- code = (*dbase->write) (dbase, file, tbuffer, offset, tlen);
-#else
code = write(fd, tbuffer, tlen);
-#endif
+ pass++;
if (code != tlen) {
- DBRELE(dbase);
- ubik_dprint("write failed error=%d\n", code);
+ ViceLog(0, ("write failed tlen=%d, error=%d\n", tlen, code));
code = UIOERROR;
close(fd);
goto failed;
offset += tlen;
length -= tlen;
}
-#ifndef OLD_URECOVERY
code = close(fd);
- if (code)
+ if (code) {
+ ViceLog(0, ("close failed error=%d\n", code));
goto failed;
-#endif
+ }
/* sync data first, then write label and resync (resync done by setlabel call).
* This way, good label is only on good database. */
-#ifdef OLD_URECOVERY
- (*ubik_dbase->sync) (dbase, file);
-#else
- afs_snprintf(tbuffer, sizeof(tbuffer), "%s.DB0", ubik_dbase->pathName);
+ snprintf(tbuffer, sizeof(tbuffer), "%s.DB%s%d",
+ ubik_dbase->pathName, (file<0)?"SYS":"", (file<0)?-file:file);
#ifdef AFS_NT40_ENV
- afs_snprintf(pbuffer, sizeof(pbuffer), "%s.DB0.OLD", ubik_dbase->pathName);
+ snprintf(pbuffer, sizeof(pbuffer), "%s.DB%s%d.OLD",
+ ubik_dbase->pathName, (file<0)?"SYS":"", (file<0)?-file:file);
code = unlink(pbuffer);
if (!code)
code = rename(tbuffer, pbuffer);
- afs_snprintf(pbuffer, sizeof(pbuffer), "%s.DB0.TMP", ubik_dbase->pathName);
+ snprintf(pbuffer, sizeof(pbuffer), "%s.DB%s%d.TMP",
+ ubik_dbase->pathName, (file<0)?"SYS":"", (file<0)?-file:file);
#endif
- if (!code)
- code = rename(pbuffer, tbuffer);
if (!code)
-#endif
- code = (*ubik_dbase->setlabel) (dbase, file, avers);
-#ifndef OLD_URECOVERY
+ code = rename(pbuffer, tbuffer);
+ UBIK_VERSION_LOCK;
+ if (!code) {
+ (*ubik_dbase->open) (ubik_dbase, file);
+ code = (*ubik_dbase->setlabel) (dbase, file, avers);
+ }
#ifdef AFS_NT40_ENV
- afs_snprintf(pbuffer, sizeof(pbuffer), "%s.DB0.OLD", ubik_dbase->pathName);
+ snprintf(pbuffer, sizeof(pbuffer), "%s.DB%s%d.OLD",
+ ubik_dbase->pathName, (file<0)?"SYS":"", (file<0)?-file:file);
unlink(pbuffer);
#endif
-#endif
memcpy(&ubik_dbase->version, avers, sizeof(struct ubik_version));
udisk_Invalidate(dbase, file); /* new dbase, flush disk buffers */
- LWP_NoYieldSignal(&dbase->version);
- DBRELE(dbase);
- failed:
+
+failed_locked:
+ UBIK_VERSION_UNLOCK;
+
+failed:
if (code) {
-#ifndef OLD_URECOVERY
- unlink(pbuffer);
-#endif
- ubik_print
- ("Ubik: Synchronize database with server %s failed (error = %d)\n",
- afs_inet_ntoa(otherHost), code);
+ if (pbuffer[0] != '\0')
+ unlink(pbuffer);
+
+ /* Failed to sync. Allow reads again for now. */
+ if (dbase != NULL) {
+ UBIK_VERSION_LOCK;
+ tversion.epoch = epoch;
+ (*dbase->setlabel) (dbase, file, &tversion);
+ UBIK_VERSION_UNLOCK;
+ }
+ ViceLog(0,
+ ("Ubik: Synchronize database: receive (via SendFile) from "
+ "server %s failed (error = %d)\n",
+ afs_inet_ntoa_r(otherHost, hoststr), code));
} else {
- ubik_print("Ubik: Synchronize database completed\n");
+ uvote_set_dbVersion(*avers);
+ ViceLog(0,
+ ("Ubik: Synchronize database: receive (via SendFile) from "
+ "server %s complete, version: %d.%d\n",
+ afs_inet_ntoa_r(otherHost, hoststr), avers->epoch, avers->counter));
}
+ DBRELE(dbase);
return code;
}
afs_int32
-SDISK_Probe(rxcall)
- register struct rx_call *rxcall;
+SDISK_Probe(struct rx_call *rxcall)
{
return 0;
}
-/*
-* Update remote machines addresses in my server list
-* Send back my addresses to caller of this RPC
-* Returns zero on success, else 1.
-*/
+/*!
+ * \brief Update remote machines addresses in my server list
+ *
+ * Send back my addresses to caller of this RPC
+ * \return zero on success, else 1.
+ */
afs_int32
-SDISK_UpdateInterfaceAddr(rxcall, inAddr, outAddr)
- register struct rx_call *rxcall;
- UbikInterfaceAddr *inAddr, *outAddr;
+SDISK_UpdateInterfaceAddr(struct rx_call *rxcall,
+ UbikInterfaceAddr *inAddr,
+ UbikInterfaceAddr *outAddr)
{
struct ubik_server *ts, *tmp;
afs_uint32 remoteAddr; /* in net byte order */
int i, j, found = 0, probableMatch = 0;
+ char hoststr[16];
+ UBIK_ADDR_LOCK;
/* copy the output parameters */
for (i = 0; i < UBIK_MAX_INTERFACE_ADDR; i++)
outAddr->hostAddr[i] = ntohl(ubik_host[i]);
/* if (probableMatch) */
/* inconsistent addresses in CellServDB */
if (!probableMatch || found) {
- ubik_print("Inconsistent Cell Info from server: ");
+ ViceLog(0, ("Inconsistent Cell Info from server:\n"));
for (i = 0; i < UBIK_MAX_INTERFACE_ADDR && inAddr->hostAddr[i]; i++)
- ubik_print("%s ", afs_inet_ntoa(htonl(inAddr->hostAddr[i])));
- ubik_print("\n");
+ ViceLog(0, ("... %s\n", afs_inet_ntoa_r(htonl(inAddr->hostAddr[i]), hoststr)));
fflush(stdout);
fflush(stderr);
printServerInfo();
+ UBIK_ADDR_UNLOCK;
return UBADHOST;
}
for (i = 1; i < UBIK_MAX_INTERFACE_ADDR; i++)
ts->addr[i] = htonl(inAddr->hostAddr[i]);
- ubik_print("ubik: A Remote Server has addresses: ");
+ ViceLog(0, ("ubik: A Remote Server has addresses:\n"));
for (i = 0; i < UBIK_MAX_INTERFACE_ADDR && ts->addr[i]; i++)
- ubik_print("%s ", afs_inet_ntoa(ts->addr[i]));
- ubik_print("\n");
+ ViceLog(0, ("... %s\n", afs_inet_ntoa_r(ts->addr[i], hoststr)));
+
+ UBIK_ADDR_UNLOCK;
+ /*
+ * The most likely cause of a DISK_UpdateInterfaceAddr RPC
+ * is because the server was restarted. Reset its state
+ * so that no DISK_Begin RPCs will be issued until the
+ * known database version is current.
+ */
+ UBIK_BEACON_LOCK;
+ ts->beaconSinceDown = 0;
+ ts->currentDB = 0;
+ urecovery_LostServer(ts);
+ UBIK_BEACON_UNLOCK;
return 0;
}
-void
-printServerInfo()
+static void
+printServerInfo(void)
{
struct ubik_server *ts;
int i, j = 1;
+ char hoststr[16];
- ubik_print("Local CellServDB:");
+ ViceLog(0, ("Local CellServDB:\n"));
for (ts = ubik_servers; ts; ts = ts->next, j++) {
- ubik_print("Server %d: ", j);
+ ViceLog(0, (" Server %d:\n", j));
for (i = 0; (i < UBIK_MAX_INTERFACE_ADDR) && ts->addr[i]; i++)
- ubik_print("%s ", afs_inet_ntoa(ts->addr[i]));
+ ViceLog(0, (" ... %s\n", afs_inet_ntoa_r(ts->addr[i], hoststr)));
}
- ubik_print("\n");
}
afs_int32
-SDISK_SetVersion(rxcall, atid, oldversionp, newversionp)
- struct rx_call *rxcall;
- struct ubik_tid *atid;
- struct ubik_version *oldversionp;
- struct ubik_version *newversionp;
+SDISK_SetVersion(struct rx_call *rxcall, struct ubik_tid *atid,
+ struct ubik_version *oldversionp,
+ struct ubik_version *newversionp)
{
afs_int32 code = 0;
- struct ubik_dbase *dbase;
if ((code = ubik_CheckAuth(rxcall))) {
return (code);
}
-
+ DBHOLD(ubik_dbase);
if (!ubik_currentTrans) {
- return USYNC;
+ code = USYNC;
+ goto done;
}
/* sanity check to make sure only write trans appear here */
if (ubik_currentTrans->type != UBIK_WRITETRANS) {
- return UBADTYPE;
+ code = UBADTYPE;
+ goto done;
}
/* Should not get this for the sync site */
if (ubeacon_AmSyncSite()) {
- return UDEADLOCK;
+ code = UDEADLOCK;
+ goto done;
}
- dbase = ubik_currentTrans->dbase;
- DBHOLD(dbase);
- urecovery_CheckTid(atid);
+ urecovery_CheckTid(atid, 0);
if (!ubik_currentTrans) {
- DBRELE(dbase);
- return USYNC;
- }
-
- /* Set the label if its version matches the sync-site's */
- if ((oldversionp->epoch == ubik_dbVersion.epoch)
- && (oldversionp->counter == ubik_dbVersion.counter)) {
- code = (*dbase->setlabel) (ubik_dbase, 0, newversionp);
+ code = USYNC;
+ goto done;
+ }
+
+ /* Set the label if our version matches the sync-site's. Also set the label
+ * if our on-disk version matches the old version, and our view of the
+ * sync-site's version matches the new version. This suggests that
+ * ubik_dbVersion was updated while the sync-site was setting the new
+ * version, and it already told us via VOTE_Beacon. */
+ if (uvote_eq_dbVersion(*oldversionp)
+ || (uvote_eq_dbVersion(*newversionp)
+ && vcmp(ubik_dbase->version, *oldversionp) == 0)) {
+ UBIK_VERSION_LOCK;
+ code = (*ubik_dbase->setlabel) (ubik_dbase, 0, newversionp);
if (!code) {
ubik_dbase->version = *newversionp;
- ubik_dbVersion = *newversionp;
+ uvote_set_dbVersion(*newversionp);
}
+ UBIK_VERSION_UNLOCK;
} else {
code = USYNC;
}
-
- DBRELE(dbase);
+done:
+ DBRELE(ubik_dbase);
return code;
}