HDFS-9170. Move libhdfs / fuse-dfs / libwebhdfs to hdfs-client. Contributed by Haohui Mai.

This commit is contained in:
Haohui Mai 2015-09-29 17:48:29 -07:00
parent bc0487c29c
commit cf873fff9f
24 changed files with 230 additions and 573 deletions

View File

@ -349,17 +349,13 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
if (clientContext.getUseLegacyBlockReaderLocal()) {
reader = getLegacyBlockReaderLocal();
if (reader != null) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": returning new legacy block reader local.");
}
LOG.trace("{}: returning new legacy block reader local.", this);
return reader;
}
} else {
reader = getBlockReaderLocal();
if (reader != null) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": returning new block reader local.");
}
LOG.trace("{}: returning new block reader local.", this);
return reader;
}
}
@ -367,10 +363,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
if (scConf.isDomainSocketDataTraffic()) {
reader = getRemoteBlockReaderFromDomain();
if (reader != null) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": returning new remote block reader using " +
"UNIX domain socket on " + pathInfo.getPath());
}
LOG.trace("{}: returning new remote block reader using UNIX domain "
+ "socket on {}", this, pathInfo.getPath());
return reader;
}
}
@ -405,10 +399,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
setVisibleLength(visibleLength).
build();
if (accessor == null) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": No ReplicaAccessor created by " +
cls.getName());
}
LOG.trace("{}: No ReplicaAccessor created by {}",
this, cls.getName());
} else {
return new ExternalBlockReader(accessor, visibleLength, startOffset);
}
@ -427,14 +419,10 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
* first introduced in HDFS-2246.
*/
private BlockReader getLegacyBlockReaderLocal() throws IOException {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": trying to construct BlockReaderLocalLegacy");
}
LOG.trace("{}: trying to construct BlockReaderLocalLegacy", this);
if (!DFSUtilClient.isLocalAddress(inetSocketAddress)) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": can't construct BlockReaderLocalLegacy because " +
"the address " + inetSocketAddress + " is not local");
}
LOG.trace("{}: can't construct BlockReaderLocalLegacy because the address"
+ "{} is not local", this, inetSocketAddress);
return null;
}
if (clientContext.getDisableLegacyBlockReaderLocal()) {
@ -470,10 +458,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
}
private BlockReader getBlockReaderLocal() throws InvalidToken {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": trying to construct a BlockReaderLocal " +
"for short-circuit reads.");
}
LOG.trace("{}: trying to construct a BlockReaderLocal for short-circuit "
+ " reads.", this);
if (pathInfo == null) {
pathInfo = clientContext.getDomainSocketFactory()
.getPathInfo(inetSocketAddress, conf.getShortCircuitConf());
@ -488,10 +474,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
ShortCircuitReplicaInfo info = cache.fetchOrCreate(key, this);
InvalidToken exc = info.getInvalidTokenException();
if (exc != null) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": got InvalidToken exception while trying to " +
"construct BlockReaderLocal via " + pathInfo.getPath());
}
LOG.trace("{}: got InvalidToken exception while trying to construct "
+ "BlockReaderLocal via {}", this, pathInfo.getPath());
throw exc;
}
if (info.getReplica() == null) {
@ -527,9 +511,7 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
createShortCircuitReplicaInfoCallback.createShortCircuitReplicaInfo();
if (info != null) return info;
}
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": trying to create ShortCircuitReplicaInfo.");
}
LOG.trace("{}: trying to create ShortCircuitReplicaInfo.", this);
BlockReaderPeer curPeer;
while (true) {
curPeer = nextDomainPeer();
@ -544,10 +526,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
new ExtendedBlockId(block.getBlockId(), block.getBlockPoolId()),
clientName);
if (usedPeer.booleanValue()) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": allocShmSlot used up our previous socket " +
peer.getDomainSocket() + ". Allocating a new one...");
}
LOG.trace("{}: allocShmSlot used up our previous socket {}. "
+ "Allocating a new one...", this, peer.getDomainSocket());
curPeer = nextDomainPeer();
if (curPeer == null) break;
peer = (DomainPeer)curPeer.peer;
@ -562,9 +542,7 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
if (curPeer.fromCache) {
// Handle an I/O error we got when using a cached socket.
// These are considered less serious, because the socket may be stale.
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": closing stale domain peer " + peer, e);
}
LOG.debug("{}: closing stale domain peer {}", this, peer, e);
IOUtilsClient.cleanup(LOG, peer);
} else {
// Handle an I/O error we got when using a newly created socket.
@ -617,7 +595,7 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
ExtendedBlockId key =
new ExtendedBlockId(block.getBlockId(), block.getBlockPoolId());
if (buf[0] == USE_RECEIPT_VERIFICATION.getNumber()) {
LOG.trace("Sending receipt verification byte for slot " + slot);
LOG.trace("Sending receipt verification byte for slot {}", slot);
sock.getOutputStream().write(0);
}
replica = new ShortCircuitReplica(key, fis[0], fis[1], cache,
@ -650,9 +628,7 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
String msg = "access control error while " +
"attempting to set up short-circuit access to " +
fileName + resp.getMessage();
if (LOG.isDebugEnabled()) {
LOG.debug(this + ":" + msg);
}
LOG.debug("{}:{}", this, msg);
return new ShortCircuitReplicaInfo(new InvalidToken(msg));
default:
LOG.warn(this + ": unknown response code " + resp.getStatus() +
@ -684,10 +660,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
" is not usable.", this, pathInfo);
return null;
}
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": trying to create a remote block reader from the " +
"UNIX domain socket at " + pathInfo.getPath());
}
LOG.trace("{}: trying to create a remote block reader from the UNIX domain "
+ "socket at {}", this, pathInfo.getPath());
while (true) {
BlockReaderPeer curPeer = nextDomainPeer();
@ -701,19 +675,15 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
} catch (IOException ioe) {
IOUtilsClient.cleanup(LOG, peer);
if (isSecurityException(ioe)) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": got security exception while constructing " +
"a remote block reader from the unix domain socket at " +
pathInfo.getPath(), ioe);
}
LOG.trace("{}: got security exception while constructing a remote "
+ " block reader from the unix domain socket at {}",
this, pathInfo.getPath(), ioe);
throw ioe;
}
if (curPeer.fromCache) {
// Handle an I/O error we got when using a cached peer. These are
// considered less serious, because the underlying socket may be stale.
if (LOG.isDebugEnabled()) {
LOG.debug("Closed potentially stale domain peer " + peer, ioe);
}
LOG.debug("Closed potentially stale domain peer {}", peer, ioe);
} else {
// Handle an I/O error we got when using a newly created domain peer.
// We temporarily disable the domain socket path for a few minutes in
@ -747,10 +717,8 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
* If there was another problem.
*/
private BlockReader getRemoteBlockReaderFromTcp() throws IOException {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": trying to create a remote block reader from a " +
"TCP socket");
}
LOG.trace("{}: trying to create a remote block reader from a TCP socket",
this);
BlockReader blockReader = null;
while (true) {
BlockReaderPeer curPeer = null;
@ -763,19 +731,15 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
return blockReader;
} catch (IOException ioe) {
if (isSecurityException(ioe)) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": got security exception while constructing " +
"a remote block reader from " + peer, ioe);
}
LOG.trace("{}: got security exception while constructing a remote "
+ "block reader from {}", this, peer, ioe);
throw ioe;
}
if ((curPeer != null) && curPeer.fromCache) {
// Handle an I/O error we got when using a cached peer. These are
// considered less serious, because the underlying socket may be
// stale.
if (LOG.isDebugEnabled()) {
LOG.debug("Closed potentially stale remote peer " + peer, ioe);
}
LOG.debug("Closed potentially stale remote peer {}", peer, ioe);
} else {
// Handle an I/O error we got when using a newly created peer.
LOG.warn("I/O error constructing remote block reader.", ioe);
@ -808,9 +772,7 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
if (remainingCacheTries > 0) {
Peer peer = clientContext.getPeerCache().get(datanode, true);
if (peer != null) {
if (LOG.isTraceEnabled()) {
LOG.trace("nextDomainPeer: reusing existing peer " + peer);
}
LOG.trace("nextDomainPeer: reusing existing peer {}", peer);
return new BlockReaderPeer(peer, true);
}
}
@ -832,24 +794,18 @@ public class BlockReaderFactory implements ShortCircuitReplicaCreator {
if (remainingCacheTries > 0) {
Peer peer = clientContext.getPeerCache().get(datanode, false);
if (peer != null) {
if (LOG.isTraceEnabled()) {
LOG.trace("nextTcpPeer: reusing existing peer " + peer);
}
LOG.trace("nextTcpPeer: reusing existing peer {}", peer);
return new BlockReaderPeer(peer, true);
}
}
try {
Peer peer = remotePeerFactory.newConnectedPeer(inetSocketAddress, token,
datanode);
if (LOG.isTraceEnabled()) {
LOG.trace("nextTcpPeer: created newConnectedPeer " + peer);
}
LOG.trace("nextTcpPeer: created newConnectedPeer {}", peer);
return new BlockReaderPeer(peer, false);
} catch (IOException e) {
if (LOG.isTraceEnabled()) {
LOG.trace("nextTcpPeer: failed to create newConnectedPeer " +
"connected to " + datanode);
}
LOG.trace("nextTcpPeer: failed to create newConnectedPeer connected to"
+ "{}", datanode);
throw e;
}
}

View File

@ -412,17 +412,10 @@ class BlockReaderLocal implements BlockReader {
public synchronized int read(ByteBuffer buf) throws IOException {
boolean canSkipChecksum = createNoChecksumContext();
try {
String traceString = null;
if (LOG.isTraceEnabled()) {
traceString = new StringBuilder().
append("read(").
append("buf.remaining=").append(buf.remaining()).
append(", block=").append(block).
append(", filename=").append(filename).
append(", canSkipChecksum=").append(canSkipChecksum).
append(")").toString();
LOG.info(traceString + ": starting");
}
String traceFormatStr = "read(buf.remaining={}, block={}, filename={}, "
+ "canSkipChecksum={})";
LOG.trace(traceFormatStr + ": starting",
buf.remaining(), block, filename, canSkipChecksum);
int nRead;
try {
if (canSkipChecksum && zeroReadaheadRequested) {
@ -431,14 +424,12 @@ class BlockReaderLocal implements BlockReader {
nRead = readWithBounceBuffer(buf, canSkipChecksum);
}
} catch (IOException e) {
if (LOG.isTraceEnabled()) {
LOG.info(traceString + ": I/O error", e);
}
LOG.trace(traceFormatStr + ": I/O error",
buf.remaining(), block, filename, canSkipChecksum, e);
throw e;
}
if (LOG.isTraceEnabled()) {
LOG.info(traceString + ": returning " + nRead);
}
LOG.trace(traceFormatStr + ": returning {}",
buf.remaining(), block, filename, canSkipChecksum, nRead);
return nRead;
} finally {
if (canSkipChecksum) releaseNoChecksumContext();
@ -490,10 +481,8 @@ class BlockReaderLocal implements BlockReader {
}
dataBuf.limit(dataBuf.position());
dataBuf.position(Math.min(dataBuf.position(), slop));
if (LOG.isTraceEnabled()) {
LOG.trace("loaded " + dataBuf.remaining() + " bytes into bounce " +
"buffer from offset " + oldDataPos + " of " + block);
}
LOG.trace("loaded {} bytes into bounce buffer from offset {} of {}",
dataBuf.remaining(), oldDataPos, block);
return dataBuf.limit() != maxReadaheadLength;
}
@ -565,18 +554,10 @@ class BlockReaderLocal implements BlockReader {
boolean canSkipChecksum = createNoChecksumContext();
int nRead;
try {
String traceString = null;
if (LOG.isTraceEnabled()) {
traceString = new StringBuilder().
append("read(arr.length=").append(arr.length).
append(", off=").append(off).
append(", len=").append(len).
append(", filename=").append(filename).
append(", block=").append(block).
append(", canSkipChecksum=").append(canSkipChecksum).
append(")").toString();
LOG.trace(traceString + ": starting");
}
final String traceFormatStr = "read(arr.length={}, off={}, len={}, "
+ "filename={}, block={}, canSkipChecksum={})";
LOG.trace(traceFormatStr + ": starting",
arr.length, off, len, filename, block, canSkipChecksum);
try {
if (canSkipChecksum && zeroReadaheadRequested) {
nRead = readWithoutBounceBuffer(arr, off, len);
@ -584,14 +565,12 @@ class BlockReaderLocal implements BlockReader {
nRead = readWithBounceBuffer(arr, off, len, canSkipChecksum);
}
} catch (IOException e) {
if (LOG.isTraceEnabled()) {
LOG.trace(traceString + ": I/O error", e);
}
LOG.trace(traceFormatStr + ": I/O error",
arr.length, off, len, filename, block, canSkipChecksum, e);
throw e;
}
if (LOG.isTraceEnabled()) {
LOG.trace(traceString + ": returning " + nRead);
}
LOG.trace(traceFormatStr + ": returning {}",
arr.length, off, len, filename, block, canSkipChecksum, nRead);
} finally {
if (canSkipChecksum) releaseNoChecksumContext();
}
@ -634,11 +613,9 @@ class BlockReaderLocal implements BlockReader {
dataBuf.position(dataBuf.position() + discardedFromBuf);
remaining -= discardedFromBuf;
}
if (LOG.isTraceEnabled()) {
LOG.trace("skip(n=" + n + ", block=" + block + ", filename=" +
filename + "): discarded " + discardedFromBuf + " bytes from " +
"dataBuf and advanced dataPos by " + remaining);
}
LOG.trace("skip(n={}, block={}, filename={}): discarded {} bytes from "
+ "dataBuf and advanced dataPos by {}",
n, block, filename, discardedFromBuf, remaining);
dataPos += remaining;
return n;
}
@ -653,9 +630,7 @@ class BlockReaderLocal implements BlockReader {
public synchronized void close() throws IOException {
if (closed) return;
closed = true;
if (LOG.isTraceEnabled()) {
LOG.trace("close(filename=" + filename + ", block=" + block + ")");
}
LOG.trace("close(filename={}, block={})", filename, block);
replica.unref();
freeDataBufIfExists();
freeChecksumBufIfExists();
@ -705,11 +680,9 @@ class BlockReaderLocal implements BlockReader {
(opts.contains(ReadOption.SKIP_CHECKSUMS) == false);
if (anchor) {
if (!createNoChecksumContext()) {
if (LOG.isTraceEnabled()) {
LOG.trace("can't get an mmap for " + block + " of " + filename +
" since SKIP_CHECKSUMS was not given, " +
"we aren't skipping checksums, and the block is not mlocked.");
}
LOG.trace("can't get an mmap for {} of {} since SKIP_CHECKSUMS was not "
+ "given, we aren't skipping checksums, and the block is not "
+ "mlocked.", block, filename);
return null;
}
}

View File

@ -221,11 +221,9 @@ class BlockReaderLocalLegacy implements BlockReader {
File blkfile = new File(pathinfo.getBlockPath());
dataIn = new FileInputStream(blkfile);
if (LOG.isDebugEnabled()) {
LOG.debug("New BlockReaderLocalLegacy for file " + blkfile + " of size "
+ blkfile.length() + " startOffset " + startOffset + " length "
+ length + " short circuit checksum " + !skipChecksumCheck);
}
LOG.debug("New BlockReaderLocalLegacy for file {} of size {} startOffset "
+ "{} length {} short circuit checksum {}",
blkfile, blkfile.length(), startOffset, length, !skipChecksumCheck);
if (!skipChecksumCheck) {
// get the metadata file
@ -292,9 +290,7 @@ class BlockReaderLocalLegacy implements BlockReader {
// channel for the DataNode to notify the client that the path has been
// invalidated. Therefore, our only option is to skip caching.
if (pathinfo != null && !storageType.isTransient()) {
if (LOG.isDebugEnabled()) {
LOG.debug("Cached location of block " + blk + " as " + pathinfo);
}
LOG.debug("Cached location of block {} as {}", blk, pathinfo);
localDatanodeInfo.setBlockLocalPathInfo(blk, pathinfo);
}
} catch (IOException e) {
@ -603,9 +599,7 @@ class BlockReaderLocalLegacy implements BlockReader {
@Override
public synchronized int read(byte[] buf, int off, int len) throws IOException {
if (LOG.isTraceEnabled()) {
LOG.trace("read off " + off + " len " + len);
}
LOG.trace("read off {} len {}", off, len);
if (!verifyChecksum) {
return dataIn.read(buf, off, len);
}
@ -624,9 +618,7 @@ class BlockReaderLocalLegacy implements BlockReader {
@Override
public synchronized long skip(long n) throws IOException {
if (LOG.isDebugEnabled()) {
LOG.debug("skip " + n);
}
LOG.debug("skip {}", n);
if (n <= 0) {
return 0;
}

View File

@ -425,9 +425,7 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
}
final int idx = r.nextInt(localInterfaceAddrs.length);
final SocketAddress addr = localInterfaceAddrs[idx];
if (LOG.isDebugEnabled()) {
LOG.debug("Using local interface " + addr);
}
LOG.debug("Using local interface {}", addr);
return addr;
}
@ -1298,9 +1296,7 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
InetSocketAddress[] favoredNodes) throws IOException {
checkOpen();
final FsPermission masked = applyUMask(permission);
if(LOG.isDebugEnabled()) {
LOG.debug(src + ": masked=" + masked);
}
LOG.debug("{}: masked={}", src, masked);
final DFSOutputStream result = DFSOutputStream.newStreamForCreate(this,
src, masked, flag, createParent, replication, blockSize, progress,
buffersize, dfsClientConf.createChecksum(checksumOpt),
@ -1893,10 +1889,8 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
smallBufferSize));
in = new DataInputStream(pair.in);
if (LOG.isDebugEnabled()) {
LOG.debug("write to " + datanodes[j] + ": "
+ Op.BLOCK_CHECKSUM + ", block=" + block);
}
LOG.debug("write to {}: {}, block={}",
datanodes[j], Op.BLOCK_CHECKSUM, block);
// get block MD5
new Sender(out).blockChecksum(block, lb.getBlockToken());
@ -1960,12 +1954,10 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
}
} catch (InvalidBlockTokenException ibte) {
if (i > lastRetriedIndex) {
if (LOG.isDebugEnabled()) {
LOG.debug("Got access token error in response to OP_BLOCK_CHECKSUM "
+ "for file " + src + " for block " + block
+ " from datanode " + datanodes[j]
+ ". Will retry the block once.");
}
LOG.debug("Got access token error in response to OP_BLOCK_CHECKSUM "
+ "for file {} for block {} from datanode {}. Will retry the "
+ "block once.",
src, block, datanodes[j]);
lastRetriedIndex = i;
done = true; // actually it's not done; but we'll retry
i--; // repeat at i-th block
@ -2019,9 +2011,7 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
try {
sock = socketFactory.createSocket();
String dnAddr = dn.getXferAddr(getConf().isConnectToDnViaHostname());
if (LOG.isDebugEnabled()) {
LOG.debug("Connecting to datanode " + dnAddr);
}
LOG.debug("Connecting to datanode {}", dnAddr);
NetUtils.connect(sock, NetUtils.createSocketAddr(dnAddr), timeout);
sock.setSoTimeout(timeout);
@ -2630,9 +2620,7 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
absPermission = applyUMask(null);
}
if(LOG.isDebugEnabled()) {
LOG.debug(src + ": masked=" + absPermission);
}
LOG.debug("{}: masked={}", src, absPermission);
TraceScope scope = tracer.newScope("mkdir");
try {
return namenode.mkdirs(src, absPermission, createParent);
@ -3123,9 +3111,7 @@ public class DFSClient implements java.io.Closeable, RemotePeerFactory,
}
});
HEDGED_READ_THREAD_POOL.allowCoreThreadTimeOut(true);
if (LOG.isDebugEnabled()) {
LOG.debug("Using hedged reads; pool threads=" + num);
}
LOG.debug("Using hedged reads; pool threads={}", num);
}
ThreadPoolExecutor getHedgedReadsThreadPool() {

View File

@ -315,9 +315,7 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
if (locatedBlocks == null || refresh) {
newInfo = dfsClient.getLocatedBlocks(src, 0);
}
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("newInfo = " + newInfo);
}
DFSClient.LOG.debug("newInfo = {}", newInfo);
if (newInfo == null) {
throw new IOException("Cannot open filename " + src);
}
@ -383,10 +381,8 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
replicaNotFoundCount--;
}
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Failed to getReplicaVisibleLength from datanode "
+ datanode + " for block " + locatedblock.getBlock(), ioe);
}
DFSClient.LOG.debug("Failed to getReplicaVisibleLength from datanode {}"
+ " for block {}", datanode, locatedblock.getBlock(), ioe);
} finally {
if (cdp != null) {
RPC.stopProxy(cdp);
@ -1067,9 +1063,7 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
}
final String dnAddr =
chosenNode.getXferAddr(dfsClient.getConf().isConnectToDnViaHostname());
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Connecting to datanode " + dnAddr);
}
DFSClient.LOG.debug("Connecting to datanode {}", dnAddr);
InetSocketAddress targetAddr = NetUtils.createSocketAddr(dnAddr);
return new DNAddrPair(chosenNode, targetAddr, storageType);
}
@ -1309,11 +1303,8 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
future.get();
return;
}
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Waited " + conf.getHedgedReadThresholdMillis()
+ "ms to read from " + chosenNode.info
+ "; spawning hedged read");
}
DFSClient.LOG.debug("Waited {}ms to read from {}; spawning hedged "
+ "read", conf.getHedgedReadThresholdMillis(), chosenNode.info);
// Ignore this node on next go around.
ignored.add(chosenNode.info);
dfsClient.getHedgedReadMetrics().incHedgedReadOps();
@ -1340,10 +1331,8 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
.submit(getFromDataNodeCallable);
futures.add(oneMoreRequest);
} catch (IOException ioe) {
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Failed getting node for hedged read: "
+ ioe.getMessage());
}
DFSClient.LOG.debug("Failed getting node for hedged read: {}",
ioe.getMessage());
}
// if not succeeded. Submit callables for each datanode in a loop, wait
// for a fixed interval and get the result from the fastest one.
@ -1599,11 +1588,8 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
throw new IOException(errMsg);
}
} catch (IOException e) {//make following read to retry
if(DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Exception while seek to " + targetPos
+ " from " + getCurrentBlock() + " of " + src + " from "
+ currentNode, e);
}
DFSClient.LOG.debug("Exception while seek to {} from {} of {} from "
+ "{}", targetPos, getCurrentBlock(), src, currentNode, e);
}
}
}
@ -1819,20 +1805,16 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
} else {
length63 = 1 + curEnd - curPos;
if (length63 <= 0) {
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Unable to perform a zero-copy read from offset " +
curPos + " of " + src + "; " + length63 + " bytes left in block. " +
"blockPos=" + blockPos + "; curPos=" + curPos +
"; curEnd=" + curEnd);
}
DFSClient.LOG.debug("Unable to perform a zero-copy read from offset {}"
+ " of {}; {} bytes left in block. blockPos={}; curPos={};"
+ "curEnd={}",
curPos, src, length63, blockPos, curPos, curEnd);
return null;
}
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Reducing read length from " + maxLength +
" to " + length63 + " to avoid going more than one byte " +
"past the end of the block. blockPos=" + blockPos +
"; curPos=" + curPos + "; curEnd=" + curEnd);
}
DFSClient.LOG.debug("Reducing read length from {} to {} to avoid going "
+ "more than one byte past the end of the block. blockPos={}; "
+" curPos={}; curEnd={}",
maxLength, length63, blockPos, curPos, curEnd);
}
// Make sure that don't go beyond 31-bit offsets in the MappedByteBuffer.
int length;
@ -1846,28 +1828,20 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
// So we can't mmap the parts of the block higher than the 2 GB offset.
// FIXME: we could work around this with multiple memory maps.
// See HDFS-5101.
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Unable to perform a zero-copy read from offset " +
curPos + " of " + src + "; 31-bit MappedByteBuffer limit " +
"exceeded. blockPos=" + blockPos + ", curEnd=" + curEnd);
}
DFSClient.LOG.debug("Unable to perform a zero-copy read from offset {} "
+ " of {}; 31-bit MappedByteBuffer limit exceeded. blockPos={}, "
+ "curEnd={}", curPos, src, blockPos, curEnd);
return null;
}
length = (int)length31;
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("Reducing read length from " + maxLength +
" to " + length + " to avoid 31-bit limit. " +
"blockPos=" + blockPos + "; curPos=" + curPos +
"; curEnd=" + curEnd);
}
DFSClient.LOG.debug("Reducing read length from {} to {} to avoid 31-bit "
+ "limit. blockPos={}; curPos={}; curEnd={}",
maxLength, length, blockPos, curPos, curEnd);
}
final ClientMmap clientMmap = blockReader.getClientMmap(opts);
if (clientMmap == null) {
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("unable to perform a zero-copy read from offset " +
curPos + " of " + src + "; BlockReader#getClientMmap returned " +
"null.");
}
DFSClient.LOG.debug("unable to perform a zero-copy read from offset {} of"
+ " {}; BlockReader#getClientMmap returned null.", curPos, src);
return null;
}
boolean success = false;
@ -1881,11 +1855,8 @@ implements ByteBufferReadable, CanSetDropBehind, CanSetReadahead,
synchronized (infoLock) {
readStatistics.addZeroCopyBytes(length);
}
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("readZeroCopy read " + length +
" bytes from offset " + curPos + " via the zero-copy read " +
"path. blockEnd = " + blockEnd);
}
DFSClient.LOG.debug("readZeroCopy read {} bytes from offset {} via the "
+ "zero-copy read path. blockEnd = {}", length, curPos, blockEnd);
success = true;
} finally {
if (!success) {

View File

@ -190,9 +190,9 @@ public class DFSOutputStream extends FSOutputSummer
this.fileEncryptionInfo = stat.getFileEncryptionInfo();
this.cachingStrategy = new AtomicReference<CachingStrategy>(
dfsClient.getDefaultWriteCachingStrategy());
if ((progress != null) && DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug(
"Set non-null progress callback on DFSOutputStream " + src);
if (progress != null) {
DFSClient.LOG.debug("Set non-null progress callback on DFSOutputStream "
+"{}", src);
}
this.bytesPerChecksum = checksum.getBytesPerChecksum();
@ -365,12 +365,9 @@ public class DFSOutputStream extends FSOutputSummer
final int chunkSize = csize + getChecksumSize();
chunksPerPacket = Math.max(bodySize/chunkSize, 1);
packetSize = chunkSize*chunksPerPacket;
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("computePacketChunkSize: src=" + src +
", chunkSize=" + chunkSize +
", chunksPerPacket=" + chunksPerPacket +
", packetSize=" + packetSize);
}
DFSClient.LOG.debug("computePacketChunkSize: src={}, chunkSize={}, "
+ "chunksPerPacket={}, packetSize={}",
src, chunkSize, chunksPerPacket, packetSize);
}
protected TraceScope createWriteTraceScope() {
@ -397,14 +394,10 @@ public class DFSOutputStream extends FSOutputSummer
if (currentPacket == null) {
currentPacket = createPacket(packetSize, chunksPerPacket, getStreamer()
.getBytesCurBlock(), getStreamer().getAndIncCurrentSeqno(), false);
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("DFSClient writeChunk allocating new packet seqno=" +
currentPacket.getSeqno() +
", src=" + src +
", packetSize=" + packetSize +
", chunksPerPacket=" + chunksPerPacket +
", bytesCurBlock=" + getStreamer().getBytesCurBlock());
}
DFSClient.LOG.debug("DFSClient writeChunk allocating new packet seqno={},"
+ " src={}, packetSize={}, chunksPerPacket={}, bytesCurBlock={}",
currentPacket.getSeqno(), src, packetSize, chunksPerPacket,
getStreamer().getBytesCurBlock());
}
currentPacket.writeChecksum(checksum, ckoff, cklen);
@ -563,12 +556,9 @@ public class DFSOutputStream extends FSOutputSummer
int numKept = flushBuffer(!endBlock, true);
// bytesCurBlock potentially incremented if there was buffered data
if (DFSClient.LOG.isDebugEnabled()) {
DFSClient.LOG.debug("DFSClient flush(): "
+ " bytesCurBlock=" + getStreamer().getBytesCurBlock()
+ " lastFlushOffset=" + lastFlushOffset
+ " createNewBlock=" + endBlock);
}
DFSClient.LOG.debug("DFSClient flush(): bytesCurBlock={}, "
+ "lastFlushOffset={}, createNewBlock={}",
getStreamer().getBytesCurBlock(), lastFlushOffset, endBlock);
// Flush only if we haven't already flushed till this offset.
if (lastFlushOffset != getStreamer().getBytesCurBlock()) {
assert getStreamer().getBytesCurBlock() > lastFlushOffset;

View File

@ -462,19 +462,13 @@ public class DFSUtilClient {
InetAddress addr = targetAddr.getAddress();
Boolean cached = localAddrMap.get(addr.getHostAddress());
if (cached != null) {
if (LOG.isTraceEnabled()) {
LOG.trace("Address " + targetAddr +
(cached ? " is local" : " is not local"));
}
LOG.trace("Address {} is {} local", targetAddr, (cached ? "" : "not"));
return cached;
}
boolean local = NetUtils.isLocalAddress(addr);
if (LOG.isTraceEnabled()) {
LOG.trace("Address " + targetAddr +
(local ? " is local" : " is not local"));
}
LOG.trace("Address {} is {} local", targetAddr, (local ? "" : "not"));
localAddrMap.put(addr.getHostAddress(), local);
return local;
}

View File

@ -132,18 +132,14 @@ class DataStreamer extends Daemon {
final int length, final DFSClient client) throws IOException {
final DfsClientConf conf = client.getConf();
final String dnAddr = first.getXferAddr(conf.isConnectToDnViaHostname());
if (LOG.isDebugEnabled()) {
LOG.debug("Connecting to datanode " + dnAddr);
}
LOG.debug("Connecting to datanode {}", dnAddr);
final InetSocketAddress isa = NetUtils.createSocketAddr(dnAddr);
final Socket sock = client.socketFactory.createSocket();
final int timeout = client.getDatanodeReadTimeout(length);
NetUtils.connect(sock, isa, client.getRandomLocalInterfaceAddr(), conf.getSocketTimeout());
sock.setSoTimeout(timeout);
sock.setSendBufferSize(HdfsConstants.DEFAULT_DATA_SOCKET_SIZE);
if (LOG.isDebugEnabled()) {
LOG.debug("Send buf size " + sock.getSendBufferSize());
}
LOG.debug("Send buf size {}", sock.getSendBufferSize());
return sock;
}
@ -484,9 +480,7 @@ class DataStreamer extends Daemon {
}
private void endBlock() {
if(LOG.isDebugEnabled()) {
LOG.debug("Closing old block " + block);
}
LOG.debug("Closing old block {}", block);
this.setName("DataStreamer for file " + src);
closeResponder();
closeStream();
@ -567,15 +561,11 @@ class DataStreamer extends Daemon {
// get new block from namenode.
if (stage == BlockConstructionStage.PIPELINE_SETUP_CREATE) {
if(LOG.isDebugEnabled()) {
LOG.debug("Allocating new block");
}
LOG.debug("Allocating new block");
setPipeline(nextBlockOutputStream());
initDataStreaming();
} else if (stage == BlockConstructionStage.PIPELINE_SETUP_APPEND) {
if(LOG.isDebugEnabled()) {
LOG.debug("Append to block " + block);
}
LOG.debug("Append to block {}", block);
setupPipelineForAppendOrRecovery();
if (streamerClosed) {
continue;
@ -627,10 +617,7 @@ class DataStreamer extends Daemon {
}
}
if (LOG.isDebugEnabled()) {
LOG.debug("DataStreamer block " + block +
" sending packet " + one);
}
LOG.debug("DataStreamer block {} sending packet {}", block, one);
// write out data to remote datanode
TraceScope writeScope = dfsClient.getTracer().
@ -741,9 +728,7 @@ class DataStreamer extends Daemon {
TraceScope scope = dfsClient.getTracer().
newScope("waitForAckedSeqno");
try {
if (LOG.isDebugEnabled()) {
LOG.debug("Waiting for ack for: " + seqno);
}
LOG.debug("Waiting for ack for: {}", seqno);
long begin = Time.monotonicNow();
try {
synchronized (dataQueue) {
@ -955,8 +940,8 @@ class DataStreamer extends Daemon {
LOG.warn("Slow ReadProcessor read fields took " + duration
+ "ms (threshold=" + dfsclientSlowLogThresholdMs + "ms); ack: "
+ ack + ", targets: " + Arrays.asList(targets));
} else if (LOG.isDebugEnabled()) {
LOG.debug("DFSClient " + ack);
} else {
LOG.debug("DFSClient {}", ack);
}
long seqno = ack.getSeqno();
@ -1176,9 +1161,7 @@ class DataStreamer extends Daemon {
}
private void addDatanode2ExistingPipeline() throws IOException {
if (DataTransferProtocol.LOG.isDebugEnabled()) {
DataTransferProtocol.LOG.debug("lastAckedSeqno = " + lastAckedSeqno);
}
DataTransferProtocol.LOG.debug("lastAckedSeqno = {}", lastAckedSeqno);
/*
* Is data transfer necessary? We have the following cases.
*
@ -1645,10 +1628,8 @@ class DataStreamer extends Daemon {
new HashSet<String>(Arrays.asList(favoredNodes));
for (int i = 0; i < nodes.length; i++) {
pinnings[i] = favoredSet.remove(nodes[i].getXferAddrWithHostname());
if (LOG.isDebugEnabled()) {
LOG.debug(nodes[i].getXferAddrWithHostname() +
" was chosen by name node (favored=" + pinnings[i] + ").");
}
LOG.debug("{} was chosen by name node (favored={}).",
nodes[i].getXferAddrWithHostname(), pinnings[i]);
}
if (shouldLog && !favoredSet.isEmpty()) {
// There is one or more favored nodes that were not allocated.
@ -1787,9 +1768,7 @@ class DataStreamer extends Daemon {
packet.addTraceParent(Tracer.getCurrentSpanId());
dataQueue.addLast(packet);
lastQueuedSeqno = packet.getSeqno();
if (LOG.isDebugEnabled()) {
LOG.debug("Queued packet " + packet.getSeqno());
}
LOG.debug("Queued packet {}", packet.getSeqno());
dataQueue.notifyAll();
}
}

View File

@ -250,9 +250,7 @@ public class RemoteBlockReader extends FSInputChecker implements BlockReader {
PacketHeader header = new PacketHeader();
header.readFields(in);
if (LOG.isDebugEnabled()) {
LOG.debug("DFSClient readChunk got header " + header);
}
LOG.debug("DFSClient readChunk got header {}", header);
// Sanity check the lengths
if (!header.sanityCheck(lastSeqNo)) {

View File

@ -135,14 +135,9 @@ public class RemoteBlockReader2 implements BlockReader {
@Override
public synchronized int read(byte[] buf, int off, int len)
throws IOException {
UUID randomId = null;
if (LOG.isTraceEnabled()) {
randomId = UUID.randomUUID();
LOG.trace(String.format("Starting read #%s file %s from datanode %s",
randomId.toString(), this.filename,
this.datanodeID.getHostName()));
}
UUID randomId = (LOG.isTraceEnabled() ? UUID.randomUUID() : null);
LOG.trace("Starting read #{} file {} from datanode {}",
randomId, filename, datanodeID.getHostName());
if (curDataSlice == null || curDataSlice.remaining() == 0 && bytesNeededToFinish > 0) {
TraceScope scope = tracer.newScope(
@ -154,9 +149,7 @@ public class RemoteBlockReader2 implements BlockReader {
}
}
if (LOG.isTraceEnabled()) {
LOG.trace(String.format("Finishing read #" + randomId));
}
LOG.trace("Finishing read #{}", randomId);
if (curDataSlice.remaining() == 0) {
// we're at EOF now
@ -203,9 +196,7 @@ public class RemoteBlockReader2 implements BlockReader {
curDataSlice = packetReceiver.getDataSlice();
assert curDataSlice.capacity() == curHeader.getDataLen();
if (LOG.isTraceEnabled()) {
LOG.trace("DFSClient readNextPacket got header " + curHeader);
}
LOG.trace("DFSClient readNextPacket got header {}", curHeader);
// Sanity check the lengths
if (!curHeader.sanityCheck(lastSeqNo)) {
@ -276,9 +267,7 @@ public class RemoteBlockReader2 implements BlockReader {
}
private void readTrailingEmptyPacket() throws IOException {
if (LOG.isTraceEnabled()) {
LOG.trace("Reading empty packet at end of read");
}
LOG.trace("Reading empty packet at end of read");
packetReceiver.receiveNextPacket(in);

View File

@ -308,10 +308,7 @@ public class LeaseRenewer {
}
LeaseRenewer.this.run(id);
} catch(InterruptedException e) {
if (LOG.isDebugEnabled()) {
LOG.debug(LeaseRenewer.this.getClass().getSimpleName()
+ " is interrupted.", e);
}
LOG.debug("LeaseRenewer is interrupted.", e);
} finally {
synchronized(LeaseRenewer.this) {
Factory.INSTANCE.remove(LeaseRenewer.this);
@ -399,9 +396,7 @@ public class LeaseRenewer {
}
if (daemonCopy != null) {
if(LOG.isDebugEnabled()) {
LOG.debug("Wait for lease checker to terminate");
}
LOG.debug("Wait for lease checker to terminate");
daemonCopy.join();
}
}
@ -424,16 +419,11 @@ public class LeaseRenewer {
//skip if current client name is the same as the previous name.
if (!c.getClientName().equals(previousName)) {
if (!c.renewLease()) {
if (LOG.isDebugEnabled()) {
LOG.debug("Did not renew lease for client " +
c);
}
LOG.debug("Did not renew lease for client {}", c);
continue;
}
previousName = c.getClientName();
if (LOG.isDebugEnabled()) {
LOG.debug("Lease renewed for client " + previousName);
}
LOG.debug("Lease renewed for client {}", previousName);
}
}
}

View File

@ -147,10 +147,8 @@ public class PacketReceiver implements Closeable {
throw new IOException("Invalid header length " + headerLen);
}
if (LOG.isTraceEnabled()) {
LOG.trace("readNextPacket: dataPlusChecksumLen = " + dataPlusChecksumLen +
" headerLen = " + headerLen);
}
LOG.trace("readNextPacket: dataPlusChecksumLen={}, headerLen={}",
dataPlusChecksumLen, headerLen);
// Sanity check the buffer size so we don't allocate too much memory
// and OOME.

View File

@ -73,10 +73,8 @@ public class Sender implements DataTransferProtocol {
private static void send(final DataOutputStream out, final Op opcode,
final Message proto) throws IOException {
if (LOG.isTraceEnabled()) {
LOG.trace("Sending DataTransferOp " + proto.getClass().getSimpleName()
+ ": " + proto);
}
LOG.trace("Sending DataTransferOp {}: {}",
proto.getClass().getSimpleName(), proto);
op(out, opcode);
proto.writeDelimitedTo(out);
out.flush();

View File

@ -332,10 +332,8 @@ public final class DataTransferSaslUtil {
public static IOStreamPair createStreamPair(Configuration conf,
CipherOption cipherOption, OutputStream out, InputStream in,
boolean isServer) throws IOException {
if (LOG.isDebugEnabled()) {
LOG.debug("Creating IOStreamPair of CryptoInputStream and " +
"CryptoOutputStream.");
}
LOG.debug("Creating IOStreamPair of CryptoInputStream and "
+ "CryptoOutputStream.");
CryptoCodec codec = CryptoCodec.getInstance(conf,
cipherOption.getCipherSuite());
byte[] inKey = cipherOption.getInKey();

View File

@ -137,9 +137,7 @@ public class ClientDatanodeProtocolTranslatorPB implements
throws IOException {
final String dnAddr = datanodeid.getIpcAddr(connectToDnViaHostname);
InetSocketAddress addr = NetUtils.createSocketAddr(dnAddr);
if (LOG.isDebugEnabled()) {
LOG.debug("Connecting to datanode " + dnAddr + " addr=" + addr);
}
LOG.debug("Connecting to datanode {} addr={}", dnAddr, addr);
rpcProxy = createClientDatanodeProtocolProxy(addr,
UserGroupInformation.getCurrentUser(), conf,
NetUtils.getDefaultSocketFactory(conf), socketTimeout);
@ -150,9 +148,7 @@ public class ClientDatanodeProtocolTranslatorPB implements
boolean connectToDnViaHostname, LocatedBlock locatedBlock) throws IOException {
final String dnAddr = datanodeid.getIpcAddr(connectToDnViaHostname);
InetSocketAddress addr = NetUtils.createSocketAddr(dnAddr);
if (LOG.isDebugEnabled()) {
LOG.debug("Connecting to datanode " + dnAddr + " addr=" + addr);
}
LOG.debug("Connecting to datanode {} addr={}", dnAddr, addr);
// Since we're creating a new UserGroupInformation here, we know that no
// future RPC proxies will be able to re-use the same connection. And

View File

@ -129,18 +129,13 @@ public class DfsClientShmManager implements Closeable {
ShmId shmId = shm.getShmId();
Slot slot = shm.allocAndRegisterSlot(blockId);
if (shm.isFull()) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": pulled the last slot " + slot.getSlotIdx() +
" out of " + shm);
}
LOG.trace("{}: pulled the last slot {} out of {}",
this, slot.getSlotIdx(), shm);
DfsClientShm removedShm = notFull.remove(shmId);
Preconditions.checkState(removedShm == shm);
full.put(shmId, shm);
} else {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": pulled slot " + slot.getSlotIdx() +
" out of " + shm);
}
LOG.trace("{}: pulled slot {} out of {}", this, slot.getSlotIdx(), shm);
}
return slot;
}
@ -187,9 +182,7 @@ public class DfsClientShmManager implements Closeable {
DfsClientShm shm =
new DfsClientShm(PBHelperClient.convert(resp.getId()),
fis[0], this, peer);
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": createNewShm: created " + shm);
}
LOG.trace("{}: createNewShm: created {}", this, shm);
return shm;
} finally {
try {
@ -234,15 +227,11 @@ public class DfsClientShmManager implements Closeable {
String clientName, ExtendedBlockId blockId) throws IOException {
while (true) {
if (closed) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": the DfsClientShmManager has been closed.");
}
LOG.trace("{}: the DfsClientShmManager has been closed.", this);
return null;
}
if (disabled) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": shared memory segment access is disabled.");
}
LOG.trace("{}: shared memory segment access is disabled.", this);
return null;
}
// Try to use an existing slot.
@ -253,9 +242,7 @@ public class DfsClientShmManager implements Closeable {
// There are no free slots. If someone is loading more slots, wait
// for that to finish.
if (loading) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": waiting for loading to finish...");
}
LOG.trace("{}: waiting for loading to finish...", this);
finishedLoading.awaitUninterruptibly();
} else {
// Otherwise, load the slot ourselves.
@ -282,11 +269,9 @@ public class DfsClientShmManager implements Closeable {
// fired and marked the shm as disconnected. In this case, we
// obviously don't want to add the SharedMemorySegment to our list
// of valid not-full segments.
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": the UNIX domain socket associated with " +
"this short-circuit memory closed before we could make " +
"use of the shm.");
}
LOG.debug("{}: the UNIX domain socket associated with this "
+ "short-circuit memory closed before we could make use of "
+ "the shm.", this);
} else {
notFull.put(shm.getShmId(), shm);
}
@ -309,9 +294,7 @@ public class DfsClientShmManager implements Closeable {
Preconditions.checkState(!full.containsKey(shm.getShmId()));
Preconditions.checkState(!notFull.containsKey(shm.getShmId()));
if (shm.isEmpty()) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": freeing empty stale " + shm);
}
LOG.trace("{}: freeing empty stale {}", this, shm);
shm.free();
}
} else {
@ -336,10 +319,8 @@ public class DfsClientShmManager implements Closeable {
// lowest ID, but it could still occur. In most workloads,
// fragmentation should not be a major concern, since it doesn't impact
// peak file descriptor usage or the speed of allocation.
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": shutting down UNIX domain socket for " +
"empty " + shm);
}
LOG.trace("{}: shutting down UNIX domain socket for empty {}",
this, shm);
shutdown(shm);
} else {
notFull.put(shmId, shm);

View File

@ -103,9 +103,7 @@ public class ShortCircuitCache implements Closeable {
if (ShortCircuitCache.this.closed) return;
long curMs = Time.monotonicNow();
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": cache cleaner running at " + curMs);
}
LOG.debug("{}: cache cleaner running at {}", this, curMs);
int numDemoted = demoteOldEvictableMmaped(curMs);
int numPurged = 0;
@ -127,11 +125,9 @@ public class ShortCircuitCache implements Closeable {
numPurged++;
}
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": finishing cache cleaner run started at " +
curMs + ". Demoted " + numDemoted + " mmapped replicas; " +
"purged " + numPurged + " replicas.");
}
LOG.debug("{}: finishing cache cleaner run started at {}. Demoted {} "
+ "mmapped replicas; purged {} replicas.",
this, curMs, numDemoted, numPurged);
} finally {
ShortCircuitCache.this.lock.unlock();
}
@ -186,9 +182,7 @@ public class ShortCircuitCache implements Closeable {
@Override
public void run() {
if (LOG.isTraceEnabled()) {
LOG.trace(ShortCircuitCache.this + ": about to release " + slot);
}
LOG.trace("{}: about to release {}", ShortCircuitCache.this, slot);
final DfsClientShm shm = (DfsClientShm)slot.getShm();
final DomainSocket shmSock = shm.getPeer().getDomainSocket();
final String path = shmSock.getPath();
@ -205,9 +199,7 @@ public class ShortCircuitCache implements Closeable {
String error = resp.hasError() ? resp.getError() : "(unknown)";
throw new IOException(resp.getStatus().toString() + ": " + error);
}
if (LOG.isTraceEnabled()) {
LOG.trace(ShortCircuitCache.this + ": released " + slot);
}
LOG.trace("{}: released {}", this, slot);
success = true;
} catch (IOException e) {
LOG.error(ShortCircuitCache.this + ": failed to release " +
@ -433,9 +425,7 @@ public class ShortCircuitCache implements Closeable {
purgeReason = "purging replica because it is stale.";
}
if (purgeReason != null) {
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": " + purgeReason);
}
LOG.debug("{}: {}", this, purgeReason);
purge(replica);
}
}
@ -677,10 +667,8 @@ public class ShortCircuitCache implements Closeable {
ShortCircuitReplicaInfo info = null;
do {
if (closed) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": can't fetchOrCreate " + key +
" because the cache is closed.");
}
LOG.trace("{}: can't fethchOrCreate {} because the cache is closed.",
this, key);
return null;
}
Waitable<ShortCircuitReplicaInfo> waitable = replicaInfoMap.get(key);
@ -688,9 +676,7 @@ public class ShortCircuitCache implements Closeable {
try {
info = fetch(key, waitable);
} catch (RetriableException e) {
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": retrying " + e.getMessage());
}
LOG.debug("{}: retrying {}", this, e.getMessage());
continue;
}
}
@ -721,9 +707,7 @@ public class ShortCircuitCache implements Closeable {
// ShortCircuitReplica. So we simply wait for it to complete.
ShortCircuitReplicaInfo info;
try {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": found waitable for " + key);
}
LOG.trace("{}: found waitable for {}", this, key);
info = waitable.await();
} catch (InterruptedException e) {
LOG.info(this + ": interrupted while waiting for " + key);
@ -765,9 +749,7 @@ public class ShortCircuitCache implements Closeable {
// Handle loading a new replica.
ShortCircuitReplicaInfo info = null;
try {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": loading " + key);
}
LOG.trace("{}: loading {}", this, key);
info = creator.createShortCircuitReplicaInfo();
} catch (RuntimeException e) {
LOG.warn(this + ": failed to load " + key, e);
@ -777,9 +759,7 @@ public class ShortCircuitCache implements Closeable {
try {
if (info.getReplica() != null) {
// On success, make sure the cache cleaner thread is running.
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": successfully loaded " + info.getReplica());
}
LOG.trace("{}: successfully loaded {}", this, info.getReplica());
startCacheCleanerThreadIfNeeded();
// Note: new ShortCircuitReplicas start with a refCount of 2,
// indicating that both this cache and whoever requested the
@ -811,10 +791,8 @@ public class ShortCircuitCache implements Closeable {
cleanerExecutor.scheduleAtFixedRate(cacheCleaner, rateMs, rateMs,
TimeUnit.MILLISECONDS);
cacheCleaner.setFuture(future);
if (LOG.isDebugEnabled()) {
LOG.debug(this + ": starting cache cleaner thread which will run " +
"every " + rateMs + " ms");
}
LOG.debug("{}: starting cache cleaner thread which will run every {} ms",
this, rateMs);
}
}
@ -832,17 +810,12 @@ public class ShortCircuitCache implements Closeable {
long lastAttemptTimeMs = (Long)replica.mmapData;
long delta = Time.monotonicNow() - lastAttemptTimeMs;
if (delta < mmapRetryTimeoutMs) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": can't create client mmap for " +
replica + " because we failed to " +
"create one just " + delta + "ms ago.");
}
LOG.trace("{}: can't create client mmap for {} because we failed to"
+ " create one just {}ms ago.", this, replica, delta);
return null;
}
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": retrying client mmap for " + replica +
", " + delta + " ms after the previous failure.");
}
LOG.trace("{}: retrying client mmap for {}, {} ms after the previous "
+ "failure.", this, replica, delta);
} else if (replica.mmapData instanceof Condition) {
Condition cond = (Condition)replica.mmapData;
cond.awaitUninterruptibly();
@ -965,38 +938,10 @@ public class ShortCircuitCache implements Closeable {
}
}
}
if (LOG.isDebugEnabled()) {
StringBuilder builder = new StringBuilder();
builder.append("visiting ").append(visitor.getClass().getName()).
append("with outstandingMmapCount=").append(outstandingMmapCount).
append(", replicas=");
String prefix = "";
for (Entry<ExtendedBlockId, ShortCircuitReplica> entry : replicas.entrySet()) {
builder.append(prefix).append(entry.getValue());
prefix = ",";
}
prefix = "";
builder.append(", failedLoads=");
for (Entry<ExtendedBlockId, InvalidToken> entry : failedLoads.entrySet()) {
builder.append(prefix).append(entry.getValue());
prefix = ",";
}
prefix = "";
builder.append(", evictable=");
for (Entry<Long, ShortCircuitReplica> entry : evictable.entrySet()) {
builder.append(prefix).append(entry.getKey()).
append(":").append(entry.getValue());
prefix = ",";
}
prefix = "";
builder.append(", evictableMmapped=");
for (Entry<Long, ShortCircuitReplica> entry : evictableMmapped.entrySet()) {
builder.append(prefix).append(entry.getKey()).
append(":").append(entry.getValue());
prefix = ",";
}
LOG.debug(builder.toString());
}
LOG.debug("visiting {} with outstandingMmapCount={}, replicas={}, "
+ "failedLoads={}, evictable={}, evictableMmapped={}",
visitor.getClass().getName(), outstandingMmapCount, replicas,
failedLoads, evictable, evictableMmapped);
visitor.visit(outstandingMmapCount, replicas, failedLoads,
evictable, evictableMmapped);
} finally {

View File

@ -154,25 +154,19 @@ public class ShortCircuitReplica {
// Check staleness by looking at the shared memory area we use to
// communicate with the DataNode.
boolean stale = !slot.isValid();
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": checked shared memory segment. isStale=" + stale);
}
LOG.trace("{}: checked shared memory segment. isStale={}", this, stale);
return stale;
} else {
// Fall back to old, time-based staleness method.
long deltaMs = Time.monotonicNow() - creationTimeMs;
long staleThresholdMs = cache.getStaleThresholdMs();
if (deltaMs > staleThresholdMs) {
if (LOG.isTraceEnabled()) {
LOG.trace(this + " is stale because it's " + deltaMs +
" ms old, and staleThresholdMs = " + staleThresholdMs);
}
LOG.trace("{} is stale because it's {} ms old and staleThreadholdMS={}",
this, deltaMs, staleThresholdMs);
return true;
} else {
if (LOG.isTraceEnabled()) {
LOG.trace(this + " is not stale because it's only " + deltaMs +
" ms old, and staleThresholdMs = " + staleThresholdMs);
}
LOG.trace("{} is not stale because it's only {} ms old "
+ "and staleThresholdMs={}", this, deltaMs, staleThresholdMs);
return false;
}
}
@ -194,13 +188,8 @@ public class ShortCircuitReplica {
return false;
}
boolean result = slot.addAnchor();
if (LOG.isTraceEnabled()) {
if (result) {
LOG.trace(this + ": added no-checksum anchor to slot " + slot);
} else {
LOG.trace(this + ": could not add no-checksum anchor to slot " + slot);
}
}
LOG.trace("{}: {} no-checksum anchor to slot {}",
this, result ? "added" : "could not add", slot);
return result;
}
@ -263,9 +252,7 @@ public class ShortCircuitReplica {
suffix += " scheduling " + slot + " for later release.";
}
}
if (LOG.isTraceEnabled()) {
LOG.trace("closed " + this + suffix);
}
LOG.trace("closed {}{}", this, suffix);
}
public FileInputStream getDataStream() {
@ -293,9 +280,7 @@ public class ShortCircuitReplica {
FileChannel channel = dataStream.getChannel();
MappedByteBuffer mmap = channel.map(MapMode.READ_ONLY, 0,
Math.min(Integer.MAX_VALUE, channel.size()));
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": created mmap of size " + channel.size());
}
LOG.trace("{}: created mmap of size {}", this, channel.size());
return mmap;
} catch (IOException e) {
LOG.warn(this + ": mmap error", e);

View File

@ -484,13 +484,9 @@ public class ShortCircuitShm {
POSIX.MMAP_PROT_READ | POSIX.MMAP_PROT_WRITE, true, mmappedLength);
this.slots = new Slot[mmappedLength / BYTES_PER_SLOT];
this.allocatedSlots = new BitSet(slots.length);
if (LOG.isTraceEnabled()) {
LOG.trace("creating " + this.getClass().getSimpleName() +
"(shmId=" + shmId +
", mmappedLength=" + mmappedLength +
", baseAddress=" + String.format("%x", baseAddress) +
", slots.length=" + slots.length + ")");
}
LOG.trace("creating {}(shmId={}, mmappedLength={}, baseAddress={}, "
+ "slots.length={})", this.getClass().getSimpleName(), shmId,
mmappedLength, String.format("%x", baseAddress), slots.length);
}
public final ShmId getShmId() {
@ -615,9 +611,7 @@ public class ShortCircuitShm {
"tried to unregister slot " + slotIdx + ", which was not registered.");
allocatedSlots.set(slotIdx, false);
slots[slotIdx] = null;
if (LOG.isTraceEnabled()) {
LOG.trace(this + ": unregisterSlot " + slotIdx);
}
LOG.trace("{}: unregisterSlot {}", this, slotIdx);
}
/**

View File

@ -36,18 +36,6 @@ import org.slf4j.LoggerFactory;
@InterfaceAudience.Private
public abstract class ByteArrayManager {
static final Logger LOG = LoggerFactory.getLogger(ByteArrayManager.class);
private static final ThreadLocal<StringBuilder> DEBUG_MESSAGE =
new ThreadLocal<StringBuilder>() {
protected StringBuilder initialValue() {
return new StringBuilder();
}
};
private static void logDebugMessage() {
final StringBuilder b = DEBUG_MESSAGE.get();
LOG.debug(b.toString());
b.setLength(0);
}
static final int MIN_ARRAY_LENGTH = 32;
static final byte[] EMPTY_BYTE_ARRAY = {};
@ -160,27 +148,18 @@ public abstract class ByteArrayManager {
* via the {@link FixedLengthManager#recycle(byte[])} method.
*/
synchronized byte[] allocate() throws InterruptedException {
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", ").append(this);
}
LOG.debug(", {}", this);
for(; numAllocated >= maxAllocated;) {
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(": wait ...");
logDebugMessage();
}
LOG.debug(": wait ...");
wait();
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append("wake up: ").append(this);
}
LOG.debug("wake up: {}", this);
}
numAllocated++;
final byte[] array = freeQueue.poll();
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", recycled? ").append(array != null);
}
LOG.debug(", recycled? {}", array != null);
return array != null? array : new byte[byteArrayLength];
}
@ -194,9 +173,7 @@ public abstract class ByteArrayManager {
synchronized int recycle(byte[] array) {
Preconditions.checkNotNull(array);
Preconditions.checkArgument(array.length == byteArrayLength);
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", ").append(this);
}
LOG.debug(", {}", this);
notify();
numAllocated--;
@ -207,9 +184,7 @@ public abstract class ByteArrayManager {
}
if (freeQueue.size() < maxAllocated - numAllocated) {
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", freeQueue.offer");
}
LOG.debug(", freeQueue.offer");
freeQueue.offer(array);
}
return freeQueue.size();
@ -349,9 +324,7 @@ public abstract class ByteArrayManager {
public byte[] newByteArray(final int arrayLength)
throws InterruptedException {
Preconditions.checkArgument(arrayLength >= 0);
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append("allocate(").append(arrayLength).append(")");
}
LOG.debug("allocate({})", arrayLength);
final byte[] array;
if (arrayLength == 0) {
@ -365,18 +338,12 @@ public abstract class ByteArrayManager {
final FixedLengthManager manager =
managers.get(powerOfTwo, aboveThreshold);
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(": count=").append(count)
.append(aboveThreshold? ", aboveThreshold": ", belowThreshold");
}
LOG.debug(": count={}, {}Threshold", count,
aboveThreshold ? "above" : "below");
array = manager != null? manager.allocate(): new byte[powerOfTwo];
}
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", return byte[")
.append(array.length).append("]");
logDebugMessage();
}
LOG.debug(", return byte[{}]", array.length);
return array;
}
@ -391,10 +358,7 @@ public abstract class ByteArrayManager {
@Override
public int release(final byte[] array) {
Preconditions.checkNotNull(array);
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get()
.append("recycle: array.length=").append(array.length);
}
LOG.debug("recycle: array.length={}", array.length);
final int freeQueueSize;
if (array.length == 0) {
@ -404,10 +368,7 @@ public abstract class ByteArrayManager {
freeQueueSize = manager == null? -1: manager.recycle(array);
}
if (LOG.isDebugEnabled()) {
DEBUG_MESSAGE.get().append(", freeQueueSize=").append(freeQueueSize);
logDebugMessage();
}
LOG.debug(", freeQueueSize={}", freeQueueSize);
return freeQueueSize;
}

View File

@ -140,9 +140,7 @@ final class TokenAspect<T extends FileSystem & Renewable> {
if (token != null) {
fs.setDelegationToken(token);
addRenewAction(fs);
if (LOG.isDebugEnabled()) {
LOG.debug("Created new DT for {}", token.getService());
}
LOG.debug("Created new DT for {}", token.getService());
}
hasInitedToken = true;
}
@ -155,9 +153,7 @@ final class TokenAspect<T extends FileSystem & Renewable> {
synchronized void initDelegationToken(UserGroupInformation ugi) {
Token<?> token = selectDelegationToken(ugi);
if (token != null) {
if (LOG.isDebugEnabled()) {
LOG.debug("Found existing DT for {}", token.getService());
}
LOG.debug("Found existing DT for {}", token.getService());
fs.setDelegationToken(token);
hasInitedToken = true;
}

View File

@ -182,9 +182,7 @@ public class URLConnectionFactory {
public URLConnection openConnection(URL url, boolean isSpnego)
throws IOException, AuthenticationException {
if (isSpnego) {
if (LOG.isDebugEnabled()) {
LOG.debug("open AuthenticatedURL connection {}", url);
}
LOG.debug("open AuthenticatedURL connection {}", url);
UserGroupInformation.getCurrentUser().checkTGTAndReloginFromKeytab();
final AuthenticatedURL.Token authToken = new AuthenticatedURL.Token();
return new AuthenticatedURL(new KerberosUgiAuthenticator(),

View File

@ -240,16 +240,12 @@ public class WebHdfsFileSystem extends FileSystem
// refetch tokens. even if ugi has credentials, don't attempt
// to get another token to match hdfs/rpc behavior
if (token != null) {
if(LOG.isDebugEnabled()) {
LOG.debug("Using UGI token: {}", token);
}
LOG.debug("Using UGI token: {}", token);
canRefreshDelegationToken = false;
} else {
token = getDelegationToken(null);
if (token != null) {
if(LOG.isDebugEnabled()) {
LOG.debug("Fetched new token: {}", token);
}
LOG.debug("Fetched new token: {}", token);
} else { // security is disabled
canRefreshDelegationToken = false;
}
@ -264,9 +260,7 @@ public class WebHdfsFileSystem extends FileSystem
boolean replaced = false;
if (canRefreshDelegationToken) {
Token<?> token = getDelegationToken(null);
if(LOG.isDebugEnabled()) {
LOG.debug("Replaced expired token: {}", token);
}
LOG.debug("Replaced expired token: {}", token);
setDelegationToken(token);
replaced = (token != null);
}
@ -451,9 +445,7 @@ public class WebHdfsFileSystem extends FileSystem
InetSocketAddress nnAddr = getCurrentNNAddr();
final URL url = new URL(getTransportScheme(), nnAddr.getHostName(),
nnAddr.getPort(), path + '?' + query);
if (LOG.isTraceEnabled()) {
LOG.trace("url={}", url);
}
LOG.trace("url={}", url);
return url;
}
@ -488,9 +480,7 @@ public class WebHdfsFileSystem extends FileSystem
+ Param.toSortedString("&", getAuthParameters(op))
+ Param.toSortedString("&", parameters);
final URL url = getNamenodeURL(path, query);
if (LOG.isTraceEnabled()) {
LOG.trace("url={}", url);
}
LOG.trace("url={}", url);
return url;
}
@ -778,9 +768,7 @@ public class WebHdfsFileSystem extends FileSystem
} catch (Exception e) { // catch json parser errors
final IOException ioe =
new IOException("Response decoding failure: "+e.toString(), e);
if (LOG.isDebugEnabled()) {
LOG.debug("Response decoding failure: {}", e.toString(), e);
}
LOG.debug("Response decoding failure.", e);
throw ioe;
} finally {
conn.disconnect();
@ -1251,9 +1239,7 @@ public class WebHdfsFileSystem extends FileSystem
cancelDelegationToken(delegationToken);
}
} catch (IOException ioe) {
if (LOG.isDebugEnabled()) {
LOG.debug("Token cancel failed: ", ioe);
}
LOG.debug("Token cancel failed: ", ioe);
} finally {
super.close();
}

View File

@ -655,6 +655,9 @@ Release 2.8.0 - UNRELEASED
HDFS-8696. Make the lower and higher watermark in the DN Netty server
configurable. (Xiaobing Zhou via wheat9)
HDFS-8971. Remove guards when calling LOG.debug() and LOG.trace() in client
package. (Mingliang Liu via wheat9)
OPTIMIZATIONS
HDFS-8026. Trace FSOutputSummer#writeChecksumChunks rather than