Example 6 with UnsupportedVersionException
use of org.apache.geode.cache.UnsupportedVersionException in project geode by apache.
the class Oplog method readProductVersionRecord.
private Version readProductVersionRecord(DataInput dis, File f) throws IOException {
Version recoveredGFVersion;
short ver = Version.readOrdinal(dis);
try {
recoveredGFVersion = Version.fromOrdinal(ver, false);
} catch (UnsupportedVersionException e) {
throw new DiskAccessException(LocalizedStrings.Oplog_UNEXPECTED_PRODUCT_VERSION_0.toLocalizedString(ver), e, getParent());
}
logger.trace(LogMarker.PERSIST_RECOVERY, "version={}", recoveredGFVersion);
readEndOfRecord(dis);
return recoveredGFVersion;
}
Also used :
Version(org.apache.geode.internal.Version)
DiskAccessException(org.apache.geode.cache.DiskAccessException)
UnsupportedVersionException(org.apache.geode.cache.UnsupportedVersionException)
Example 7 with UnsupportedVersionException
use of org.apache.geode.cache.UnsupportedVersionException in project geode by apache.
the class DiskInitFileParser method parse.
public DiskStoreID parse() throws IOException, ClassNotFoundException {
Version gfversion = Version.GFE_662;
DiskStoreID result = null;
boolean endOfFile = false;
while (!endOfFile) {
if (dis.atEndOfFile()) {
endOfFile = true;
break;
}
byte opCode = dis.readByte();
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "DiskInitFile opcode={}", opCode);
}
switch(opCode) {
case DiskInitFile.IF_EOF_ID:
endOfFile = true;
gotEOF = true;
break;
case DiskInitFile.IFREC_INSTANTIATOR_ID:
{
int id = dis.readInt();
String cn = readClassName(dis);
String icn = readClassName(dis);
readEndOfRecord(dis);
interpreter.cmnInstantiatorId(id, cn, icn);
}
break;
case DiskInitFile.IFREC_DATA_SERIALIZER_ID:
{
Class<?> dsc = readClass(dis);
readEndOfRecord(dis);
interpreter.cmnDataSerializerId(dsc);
}
break;
case DiskInitFile.IFREC_ONLINE_MEMBER_ID:
{
long drId = readDiskRegionID(dis);
PersistentMemberID pmid = readPMID(dis, gfversion);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_ONLINE_MEMBER_ID drId={} omid={}", drId, pmid);
}
interpreter.cmnOnlineMemberId(drId, pmid);
}
break;
case DiskInitFile.IFREC_OFFLINE_MEMBER_ID:
{
long drId = readDiskRegionID(dis);
PersistentMemberID pmid = readPMID(dis, gfversion);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_OFFLINE_MEMBER_ID drId={} pmid={}", drId, pmid);
}
interpreter.cmnOfflineMemberId(drId, pmid);
}
break;
case DiskInitFile.IFREC_RM_MEMBER_ID:
{
long drId = readDiskRegionID(dis);
PersistentMemberID pmid = readPMID(dis, gfversion);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_RM_MEMBER_ID drId={} pmid={}", drId, pmid);
}
interpreter.cmnRmMemberId(drId, pmid);
}
break;
case DiskInitFile.IFREC_MY_MEMBER_INITIALIZING_ID:
{
long drId = readDiskRegionID(dis);
PersistentMemberID pmid = readPMID(dis, gfversion);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_MY_MEMBER_INITIALIZING_ID drId={} pmid={}", drId, pmid);
}
interpreter.cmnAddMyInitializingPMID(drId, pmid);
}
break;
case DiskInitFile.IFREC_MY_MEMBER_INITIALIZED_ID:
{
long drId = readDiskRegionID(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_MY_MEMBER_INITIALIZED_ID drId={}", drId);
}
interpreter.cmnMarkInitialized(drId);
}
break;
case DiskInitFile.IFREC_CREATE_REGION_ID:
{
long drId = readDiskRegionID(dis);
String regName = dis.readUTF();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_CREATE_REGION_ID drId= name={}", drId, regName);
}
interpreter.cmnCreateRegion(drId, regName);
}
break;
case DiskInitFile.IFREC_BEGIN_DESTROY_REGION_ID:
{
long drId = readDiskRegionID(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_BEGIN_DESTROY_REGION_ID drId={}", drId);
}
interpreter.cmnBeginDestroyRegion(drId);
}
break;
case DiskInitFile.IFREC_END_DESTROY_REGION_ID:
{
long drId = readDiskRegionID(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_END_DESTROY_REGION_ID drId={}", drId);
}
interpreter.cmnEndDestroyRegion(drId);
}
break;
case DiskInitFile.IFREC_BEGIN_PARTIAL_DESTROY_REGION_ID:
{
long drId = readDiskRegionID(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_BEGIN_PARTIAL_DESTROY_REGION_ID drId={}", drId);
}
interpreter.cmnBeginPartialDestroyRegion(drId);
}
break;
case DiskInitFile.IFREC_END_PARTIAL_DESTROY_REGION_ID:
{
long drId = readDiskRegionID(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_END_PARTIAL_DESTROY_REGION_ID drId={}", drId);
}
interpreter.cmnEndPartialDestroyRegion(drId);
}
break;
case DiskInitFile.IFREC_CLEAR_REGION_ID:
{
long drId = readDiskRegionID(dis);
long clearOplogEntryId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_CLEAR_REGION_ID drId={} oplogEntryId={}", drId, clearOplogEntryId);
}
interpreter.cmnClearRegion(drId, clearOplogEntryId);
}
break;
case DiskInitFile.IFREC_CLEAR_REGION_WITH_RVV_ID:
{
long drId = readDiskRegionID(dis);
int size = dis.readInt();
ConcurrentHashMap<DiskStoreID, RegionVersionHolder<DiskStoreID>> memberToVersion = new ConcurrentHashMap<DiskStoreID, RegionVersionHolder<DiskStoreID>>(size);
for (int i = 0; i < size; i++) {
DiskStoreID id = new DiskStoreID();
InternalDataSerializer.invokeFromData(id, dis);
RegionVersionHolder holder = new RegionVersionHolder(dis);
memberToVersion.put(id, holder);
}
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_CLEAR_REGION_WITH_RVV_ID drId={} memberToVersion={}", drId, memberToVersion);
}
interpreter.cmnClearRegion(drId, memberToVersion);
}
break;
case DiskInitFile.IFREC_CRF_CREATE:
{
long oplogId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_CRF_CREATE oplogId={}", oplogId);
}
interpreter.cmnCrfCreate(oplogId);
}
break;
case DiskInitFile.IFREC_DRF_CREATE:
{
long oplogId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_DRF_CREATE oplogId={}", oplogId);
}
interpreter.cmnDrfCreate(oplogId);
}
break;
case DiskInitFile.IFREC_KRF_CREATE:
{
long oplogId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_KRF_CREATE oplogId={}", oplogId);
}
interpreter.cmnKrfCreate(oplogId);
}
break;
case DiskInitFile.IFREC_CRF_DELETE:
{
long oplogId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_CRF_DELETE oplogId={}", oplogId);
}
interpreter.cmnCrfDelete(oplogId);
}
break;
case DiskInitFile.IFREC_DRF_DELETE:
{
long oplogId = dis.readLong();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_DRF_DELETE oplogId={}", oplogId);
}
interpreter.cmnDrfDelete(oplogId);
}
break;
case DiskInitFile.IFREC_REGION_CONFIG_ID:
{
long drId = readDiskRegionID(dis);
byte lruAlgorithm = dis.readByte();
byte lruAction = dis.readByte();
int lruLimit = dis.readInt();
int concurrencyLevel = dis.readInt();
int initialCapacity = dis.readInt();
float loadFactor = dis.readFloat();
boolean statisticsEnabled = dis.readBoolean();
boolean isBucket = dis.readBoolean();
EnumSet<DiskRegionFlag> flags = EnumSet.noneOf(DiskRegionFlag.class);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_REGION_CONFIG_ID drId={}", drId);
}
interpreter.cmnRegionConfig(drId, lruAlgorithm, lruAction, lruLimit, concurrencyLevel, initialCapacity, loadFactor, statisticsEnabled, isBucket, flags, // fixes bug 43910
ProxyBucketRegion.NO_FIXED_PARTITION_NAME, -1, null, false);
}
break;
case DiskInitFile.IFREC_REGION_CONFIG_ID_66:
{
long drId = readDiskRegionID(dis);
byte lruAlgorithm = dis.readByte();
byte lruAction = dis.readByte();
int lruLimit = dis.readInt();
int concurrencyLevel = dis.readInt();
int initialCapacity = dis.readInt();
float loadFactor = dis.readFloat();
boolean statisticsEnabled = dis.readBoolean();
boolean isBucket = dis.readBoolean();
EnumSet<DiskRegionFlag> flags = EnumSet.noneOf(DiskRegionFlag.class);
String partitionName = dis.readUTF();
int startingBucketId = dis.readInt();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_REGION_CONFIG_ID drId={}", drId);
}
interpreter.cmnRegionConfig(drId, lruAlgorithm, lruAction, lruLimit, concurrencyLevel, initialCapacity, loadFactor, statisticsEnabled, isBucket, flags, partitionName, startingBucketId, null, false);
}
break;
case DiskInitFile.IFREC_REGION_CONFIG_ID_80:
{
long drId = readDiskRegionID(dis);
byte lruAlgorithm = dis.readByte();
byte lruAction = dis.readByte();
int lruLimit = dis.readInt();
int concurrencyLevel = dis.readInt();
int initialCapacity = dis.readInt();
float loadFactor = dis.readFloat();
boolean statisticsEnabled = dis.readBoolean();
boolean isBucket = dis.readBoolean();
EnumSet<DiskRegionFlag> flags = EnumSet.noneOf(DiskRegionFlag.class);
String partitionName = dis.readUTF();
int startingBucketId = dis.readInt();
String compressorClassName = dis.readUTF();
if ("".equals(compressorClassName)) {
compressorClassName = null;
}
if (dis.readBoolean()) {
flags.add(DiskRegionFlag.IS_WITH_VERSIONING);
}
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_REGION_CONFIG_ID drId={}", drId);
}
interpreter.cmnRegionConfig(drId, lruAlgorithm, lruAction, lruLimit, concurrencyLevel, initialCapacity, loadFactor, statisticsEnabled, isBucket, flags, partitionName, startingBucketId, compressorClassName, false);
}
break;
case DiskInitFile.IFREC_REGION_CONFIG_ID_90:
{
long drId = readDiskRegionID(dis);
byte lruAlgorithm = dis.readByte();
byte lruAction = dis.readByte();
int lruLimit = dis.readInt();
int concurrencyLevel = dis.readInt();
int initialCapacity = dis.readInt();
float loadFactor = dis.readFloat();
boolean statisticsEnabled = dis.readBoolean();
boolean isBucket = dis.readBoolean();
EnumSet<DiskRegionFlag> flags = EnumSet.noneOf(DiskRegionFlag.class);
String partitionName = dis.readUTF();
int startingBucketId = dis.readInt();
String compressorClassName = dis.readUTF();
if ("".equals(compressorClassName)) {
compressorClassName = null;
}
if (dis.readBoolean()) {
flags.add(DiskRegionFlag.IS_WITH_VERSIONING);
}
boolean offHeap = dis.readBoolean();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_REGION_CONFIG_ID drId={}", drId);
}
interpreter.cmnRegionConfig(drId, lruAlgorithm, lruAction, lruLimit, concurrencyLevel, initialCapacity, loadFactor, statisticsEnabled, isBucket, flags, partitionName, startingBucketId, compressorClassName, offHeap);
}
break;
case DiskInitFile.IFREC_OFFLINE_AND_EQUAL_MEMBER_ID:
{
long drId = readDiskRegionID(dis);
PersistentMemberID pmid = readPMID(dis, gfversion);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_OFFLINE_AND_EQUAL_MEMBER_ID drId={} pmid={}", drId, pmid);
}
interpreter.cmdOfflineAndEqualMemberId(drId, pmid);
}
break;
case DiskInitFile.IFREC_DISKSTORE_ID:
{
long leastSigBits = dis.readLong();
long mostSigBits = dis.readLong();
readEndOfRecord(dis);
result = new DiskStoreID(mostSigBits, leastSigBits);
interpreter.cmnDiskStoreID(result);
}
break;
case DiskInitFile.OPLOG_MAGIC_SEQ_ID:
readOplogMagicSeqRecord(dis, OPLOG_TYPE.IF);
break;
case DiskInitFile.IFREC_PR_CREATE:
{
String name = dis.readUTF();
int numBuckets = dis.readInt();
String colocatedWith = dis.readUTF();
readEndOfRecord(dis);
PRPersistentConfig config = new PRPersistentConfig(numBuckets, colocatedWith);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_PR_CREATE name={}, config={}", name, config);
}
interpreter.cmnPRCreate(name, config);
}
break;
case DiskInitFile.IFREC_GEMFIRE_VERSION:
{
short ver = Version.readOrdinal(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_GEMFIRE_VERSION version={}", ver);
}
try {
gfversion = Version.fromOrdinal(ver, false);
} catch (UnsupportedVersionException e) {
throw new DiskAccessException(LocalizedStrings.Oplog_UNEXPECTED_PRODUCT_VERSION_0.toLocalizedString(ver), e, this.interpreter.getNameForError());
}
interpreter.cmnGemfireVersion(gfversion);
break;
}
case DiskInitFile.IFREC_PR_DESTROY:
{
String name = dis.readUTF();
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_PR_DESTROY name={}", name);
}
interpreter.cmnPRDestroy(name);
}
break;
case DiskInitFile.IFREC_ADD_CANONICAL_MEMBER_ID:
{
int id = dis.readInt();
Object object = DataSerializer.readObject(dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_ADD_CANONICAL_MEMBER_ID id={} name={}", id, object);
}
interpreter.cmnAddCanonicalMemberId(id, object);
break;
}
case DiskInitFile.IFREC_REVOKE_DISK_STORE_ID:
{
PersistentMemberPattern pattern = new PersistentMemberPattern();
InternalDataSerializer.invokeFromData(pattern, dis);
readEndOfRecord(dis);
if (logger.isTraceEnabled(LogMarker.PERSIST_RECOVERY)) {
logger.trace(LogMarker.PERSIST_RECOVERY, "IFREC_REVOKE_DISK_STORE_ID id={}" + pattern);
}
interpreter.cmnRevokeDiskStoreId(pattern);
}
break;
default:
throw new DiskAccessException(LocalizedStrings.DiskInitFile_UNKNOWN_OPCODE_0_FOUND.toLocalizedString(opCode), this.interpreter.getNameForError());
}
if (interpreter.isClosing()) {
break;
}
}
return result;
}
Also used :
EnumSet(java.util.EnumSet)
RegionVersionHolder(org.apache.geode.internal.cache.versions.RegionVersionHolder)
DiskRegionFlag(org.apache.geode.internal.cache.DiskInitFile.DiskRegionFlag)
Version(org.apache.geode.internal.Version)
DiskAccessException(org.apache.geode.cache.DiskAccessException)
ConcurrentHashMap(java.util.concurrent.ConcurrentHashMap)
UnsupportedVersionException(org.apache.geode.cache.UnsupportedVersionException)
Aggregations
UnsupportedVersionException (org.apache.geode.cache.UnsupportedVersionException)7
Version (org.apache.geode.internal.Version)6
IOException (java.io.IOException)4
EOFException (java.io.EOFException)3
DataInputStream (java.io.DataInputStream)2
DataOutputStream (java.io.DataOutputStream)2
Socket (java.net.Socket)2
SocketAddress (java.net.SocketAddress)2
DiskAccessException (org.apache.geode.cache.DiskAccessException)2
IncompatibleVersionException (org.apache.geode.cache.IncompatibleVersionException)2
VersionedDataInputStream (org.apache.geode.internal.VersionedDataInputStream)2
VersionedDataOutputStream (org.apache.geode.internal.VersionedDataOutputStream)2
AuthenticationFailedException (org.apache.geode.security.AuthenticationFailedException)2
AuthenticationRequiredException (org.apache.geode.security.AuthenticationRequiredException)2
InputStream (java.io.InputStream)1
SocketException (java.net.SocketException)1
SocketTimeoutException (java.net.SocketTimeoutException)1
EnumSet (java.util.EnumSet)1
ConcurrentHashMap (java.util.concurrent.ConcurrentHashMap)1
SSLException (javax.net.ssl.SSLException)1
