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Easy Redis Java client and Real-Time Data Platform. Valkey compatible. Sync/Async/RxJava3/Reactive API. Client side caching. Over 50 Redis based Java objects and services: JCache API, Apache Tomcat, Hibernate, Spring, Set, Multimap, SortedSet, Map, List, Queue, Deque, Semaphore, Lock, AtomicLong, Map Reduce, Bloom filter, Scheduler, RPC
/*
* Copyright 2015 The Netty Project
*
* The Netty Project licenses this file to you under the Apache License,
* version 2.0 (the "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at:
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
*/
package io.netty.channel.unix;
import io.netty.channel.ChannelException;
import io.netty.channel.socket.InternetProtocolFamily;
import io.netty.util.CharsetUtil;
import io.netty.util.NetUtil;
import java.io.IOException;
import java.net.Inet6Address;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.PortUnreachableException;
import java.net.SocketAddress;
import java.nio.ByteBuffer;
import java.nio.channels.ClosedChannelException;
import static io.netty.channel.unix.Errors.ERRNO_EAGAIN_NEGATIVE;
import static io.netty.channel.unix.Errors.ERRNO_EINPROGRESS_NEGATIVE;
import static io.netty.channel.unix.Errors.ERRNO_EWOULDBLOCK_NEGATIVE;
import static io.netty.channel.unix.Errors.ERROR_ECONNREFUSED_NEGATIVE;
import static io.netty.channel.unix.Errors.handleConnectErrno;
import static io.netty.channel.unix.Errors.ioResult;
import static io.netty.channel.unix.Errors.newIOException;
import static io.netty.channel.unix.NativeInetAddress.address;
import static io.netty.channel.unix.NativeInetAddress.ipv4MappedIpv6Address;
/**
* Provides a JNI bridge to native socket operations.
* Internal usage only!
*/
public class Socket extends FileDescriptor {
private static volatile boolean isIpv6Preferred;
@Deprecated
public static final int UDS_SUN_PATH_SIZE = 100;
protected final boolean ipv6;
public Socket(int fd) {
super(fd);
ipv6 = isIPv6(fd);
}
/**
* Returns {@code true} if we should use IPv6 internally, {@code false} otherwise.
*/
private boolean useIpv6(InetAddress address) {
return useIpv6(this, address);
}
/**
* Returns {@code true} if the given socket and address combination should use IPv6 internally,
* {@code false} otherwise.
*/
protected static boolean useIpv6(Socket socket, InetAddress address) {
return socket.ipv6 || address instanceof Inet6Address;
}
public final void shutdown() throws IOException {
shutdown(true, true);
}
public final void shutdown(boolean read, boolean write) throws IOException {
for (;;) {
// We need to only shutdown what has not been shutdown yet, and if there is no change we should not
// shutdown anything. This is because if the underlying FD is reused and we still have an object which
// represents the previous incarnation of the FD we need to be sure we don't inadvertently shutdown the
// "new" FD without explicitly having a change.
final int oldState = state;
if (isClosed(oldState)) {
throw new ClosedChannelException();
}
int newState = oldState;
if (read && !isInputShutdown(newState)) {
newState = inputShutdown(newState);
}
if (write && !isOutputShutdown(newState)) {
newState = outputShutdown(newState);
}
// If there is no change in state, then we should not take any action.
if (newState == oldState) {
return;
}
if (casState(oldState, newState)) {
break;
}
}
int res = shutdown(fd, read, write);
if (res < 0) {
ioResult("shutdown", res);
}
}
public final boolean isShutdown() {
int state = this.state;
return isInputShutdown(state) && isOutputShutdown(state);
}
public final boolean isInputShutdown() {
return isInputShutdown(state);
}
public final boolean isOutputShutdown() {
return isOutputShutdown(state);
}
public final int sendTo(ByteBuffer buf, int pos, int limit, InetAddress addr, int port) throws IOException {
return sendTo(buf, pos, limit, addr, port, false);
}
public final int sendTo(ByteBuffer buf, int pos, int limit, InetAddress addr, int port, boolean fastOpen)
throws IOException {
// just duplicate the toNativeInetAddress code here to minimize object creation as this method is expected
// to be called frequently
byte[] address;
int scopeId;
if (addr instanceof Inet6Address) {
address = addr.getAddress();
scopeId = ((Inet6Address) addr).getScopeId();
} else {
// convert to ipv4 mapped ipv6 address;
scopeId = 0;
address = ipv4MappedIpv6Address(addr.getAddress());
}
int flags = fastOpen ? msgFastopen() : 0;
int res = sendTo(fd, useIpv6(addr), buf, pos, limit, address, scopeId, port, flags);
if (res >= 0) {
return res;
}
if (res == ERRNO_EINPROGRESS_NEGATIVE && fastOpen) {
// This happens when we (as a client) have no pre-existing cookie for doing a fast-open connection.
// In this case, our TCP connection will be established normally, but no data was transmitted at this time.
// We'll just transmit the data with normal writes later.
return 0;
}
if (res == ERROR_ECONNREFUSED_NEGATIVE) {
throw new PortUnreachableException("sendTo failed");
}
return ioResult("sendTo", res);
}
public final int sendToDomainSocket(ByteBuffer buf, int pos, int limit, byte[] path) throws IOException {
int res = sendToDomainSocket(fd, buf, pos, limit, path);
if (res >= 0) {
return res;
}
return ioResult("sendToDomainSocket", res);
}
public final int sendToAddress(long memoryAddress, int pos, int limit, InetAddress addr, int port)
throws IOException {
return sendToAddress(memoryAddress, pos, limit, addr, port, false);
}
public final int sendToAddress(long memoryAddress, int pos, int limit, InetAddress addr, int port,
boolean fastOpen) throws IOException {
// just duplicate the toNativeInetAddress code here to minimize object creation as this method is expected
// to be called frequently
byte[] address;
int scopeId;
if (addr instanceof Inet6Address) {
address = addr.getAddress();
scopeId = ((Inet6Address) addr).getScopeId();
} else {
// convert to ipv4 mapped ipv6 address;
scopeId = 0;
address = ipv4MappedIpv6Address(addr.getAddress());
}
int flags = fastOpen ? msgFastopen() : 0;
int res = sendToAddress(fd, useIpv6(addr), memoryAddress, pos, limit, address, scopeId, port, flags);
if (res >= 0) {
return res;
}
if (res == ERRNO_EINPROGRESS_NEGATIVE && fastOpen) {
// This happens when we (as a client) have no pre-existing cookie for doing a fast-open connection.
// In this case, our TCP connection will be established normally, but no data was transmitted at this time.
// We'll just transmit the data with normal writes later.
return 0;
}
if (res == ERROR_ECONNREFUSED_NEGATIVE) {
throw new PortUnreachableException("sendToAddress failed");
}
return ioResult("sendToAddress", res);
}
public final int sendToAddressDomainSocket(long memoryAddress, int pos, int limit, byte[] path) throws IOException {
int res = sendToAddressDomainSocket(fd, memoryAddress, pos, limit, path);
if (res >= 0) {
return res;
}
return ioResult("sendToAddressDomainSocket", res);
}
public final int sendToAddresses(long memoryAddress, int length, InetAddress addr, int port) throws IOException {
return sendToAddresses(memoryAddress, length, addr, port, false);
}
public final int sendToAddresses(long memoryAddress, int length, InetAddress addr, int port, boolean fastOpen)
throws IOException {
// just duplicate the toNativeInetAddress code here to minimize object creation as this method is expected
// to be called frequently
byte[] address;
int scopeId;
if (addr instanceof Inet6Address) {
address = addr.getAddress();
scopeId = ((Inet6Address) addr).getScopeId();
} else {
// convert to ipv4 mapped ipv6 address;
scopeId = 0;
address = ipv4MappedIpv6Address(addr.getAddress());
}
int flags = fastOpen ? msgFastopen() : 0;
int res = sendToAddresses(fd, useIpv6(addr), memoryAddress, length, address, scopeId, port, flags);
if (res >= 0) {
return res;
}
if (res == ERRNO_EINPROGRESS_NEGATIVE && fastOpen) {
// This happens when we (as a client) have no pre-existing cookie for doing a fast-open connection.
// In this case, our TCP connection will be established normally, but no data was transmitted at this time.
// We'll just transmit the data with normal writes later.
return 0;
}
if (res == ERROR_ECONNREFUSED_NEGATIVE) {
throw new PortUnreachableException("sendToAddresses failed");
}
return ioResult("sendToAddresses", res);
}
public final int sendToAddressesDomainSocket(long memoryAddress, int length, byte[] path) throws IOException {
int res = sendToAddressesDomainSocket(fd, memoryAddress, length, path);
if (res >= 0) {
return res;
}
return ioResult("sendToAddressesDomainSocket", res);
}
public final DatagramSocketAddress recvFrom(ByteBuffer buf, int pos, int limit) throws IOException {
return recvFrom(fd, buf, pos, limit);
}
public final DatagramSocketAddress recvFromAddress(long memoryAddress, int pos, int limit) throws IOException {
return recvFromAddress(fd, memoryAddress, pos, limit);
}
public final DomainDatagramSocketAddress recvFromDomainSocket(ByteBuffer buf, int pos, int limit)
throws IOException {
return recvFromDomainSocket(fd, buf, pos, limit);
}
public final DomainDatagramSocketAddress recvFromAddressDomainSocket(long memoryAddress, int pos, int limit)
throws IOException {
return recvFromAddressDomainSocket(fd, memoryAddress, pos, limit);
}
public int recv(ByteBuffer buf, int pos, int limit) throws IOException {
int res = recv(intValue(), buf, pos, limit);
if (res > 0) {
return res;
}
if (res == 0) {
return -1;
}
return ioResult("recv", res);
}
public int recvAddress(long address, int pos, int limit) throws IOException {
int res = recvAddress(intValue(), address, pos, limit);
if (res > 0) {
return res;
}
if (res == 0) {
return -1;
}
return ioResult("recvAddress", res);
}
public int send(ByteBuffer buf, int pos, int limit) throws IOException {
int res = send(intValue(), buf, pos, limit);
if (res >= 0) {
return res;
}
return ioResult("send", res);
}
public int sendAddress(long address, int pos, int limit) throws IOException {
int res = sendAddress(intValue(), address, pos, limit);
if (res >= 0) {
return res;
}
return ioResult("sendAddress", res);
}
public final int recvFd() throws IOException {
int res = recvFd(fd);
if (res > 0) {
return res;
}
if (res == 0) {
return -1;
}
if (res == ERRNO_EAGAIN_NEGATIVE || res == ERRNO_EWOULDBLOCK_NEGATIVE) {
// Everything consumed so just return -1 here.
return 0;
}
throw newIOException("recvFd", res);
}
public final int sendFd(int fdToSend) throws IOException {
int res = sendFd(fd, fdToSend);
if (res >= 0) {
return res;
}
if (res == ERRNO_EAGAIN_NEGATIVE || res == ERRNO_EWOULDBLOCK_NEGATIVE) {
// Everything consumed so just return -1 here.
return -1;
}
throw newIOException("sendFd", res);
}
public final boolean connect(SocketAddress socketAddress) throws IOException {
int res;
if (socketAddress instanceof InetSocketAddress) {
InetSocketAddress inetSocketAddress = (InetSocketAddress) socketAddress;
InetAddress inetAddress = inetSocketAddress.getAddress();
NativeInetAddress address = NativeInetAddress.newInstance(inetAddress);
res = connect(fd, useIpv6(inetAddress), address.address, address.scopeId, inetSocketAddress.getPort());
} else if (socketAddress instanceof DomainSocketAddress) {
DomainSocketAddress unixDomainSocketAddress = (DomainSocketAddress) socketAddress;
res = connectDomainSocket(fd, unixDomainSocketAddress.path().getBytes(CharsetUtil.UTF_8));
} else {
throw new Error("Unexpected SocketAddress implementation " + socketAddress);
}
if (res < 0) {
return handleConnectErrno("connect", res);
}
return true;
}
public final boolean finishConnect() throws IOException {
int res = finishConnect(fd);
if (res < 0) {
return handleConnectErrno("finishConnect", res);
}
return true;
}
public final void disconnect() throws IOException {
int res = disconnect(fd, ipv6);
if (res < 0) {
handleConnectErrno("disconnect", res);
}
}
public final void bind(SocketAddress socketAddress) throws IOException {
if (socketAddress instanceof InetSocketAddress) {
InetSocketAddress addr = (InetSocketAddress) socketAddress;
InetAddress inetAddress = addr.getAddress();
NativeInetAddress address = NativeInetAddress.newInstance(inetAddress);
int res = bind(fd, useIpv6(inetAddress), address.address, address.scopeId, addr.getPort());
if (res < 0) {
throw newIOException("bind", res);
}
} else if (socketAddress instanceof DomainSocketAddress) {
DomainSocketAddress addr = (DomainSocketAddress) socketAddress;
int res = bindDomainSocket(fd, addr.path().getBytes(CharsetUtil.UTF_8));
if (res < 0) {
throw newIOException("bind", res);
}
} else {
throw new Error("Unexpected SocketAddress implementation " + socketAddress);
}
}
public final void listen(int backlog) throws IOException {
int res = listen(fd, backlog);
if (res < 0) {
throw newIOException("listen", res);
}
}
public final int accept(byte[] addr) throws IOException {
int res = accept(fd, addr);
if (res >= 0) {
return res;
}
if (res == ERRNO_EAGAIN_NEGATIVE || res == ERRNO_EWOULDBLOCK_NEGATIVE) {
// Everything consumed so just return -1 here.
return -1;
}
throw newIOException("accept", res);
}
public final InetSocketAddress remoteAddress() {
byte[] addr = remoteAddress(fd);
// addr may be null if getpeername failed.
// See https://github.com/netty/netty/issues/3328
return addr == null ? null : address(addr, 0, addr.length);
}
public final DomainSocketAddress remoteDomainSocketAddress() {
byte[] addr = remoteDomainSocketAddress(fd);
return addr == null ? null : new DomainSocketAddress(new String(addr));
}
public final InetSocketAddress localAddress() {
byte[] addr = localAddress(fd);
// addr may be null if getpeername failed.
// See https://github.com/netty/netty/issues/3328
return addr == null ? null : address(addr, 0, addr.length);
}
public final DomainSocketAddress localDomainSocketAddress() {
byte[] addr = localDomainSocketAddress(fd);
return addr == null ? null : new DomainSocketAddress(new String(addr));
}
public final int getReceiveBufferSize() throws IOException {
return getReceiveBufferSize(fd);
}
public final int getSendBufferSize() throws IOException {
return getSendBufferSize(fd);
}
public final boolean isKeepAlive() throws IOException {
return isKeepAlive(fd) != 0;
}
public final boolean isTcpNoDelay() throws IOException {
return isTcpNoDelay(fd) != 0;
}
public final boolean isReuseAddress() throws IOException {
return isReuseAddress(fd) != 0;
}
public final boolean isReusePort() throws IOException {
return isReusePort(fd) != 0;
}
public final boolean isBroadcast() throws IOException {
return isBroadcast(fd) != 0;
}
public final int getSoLinger() throws IOException {
return getSoLinger(fd);
}
public final int getSoError() throws IOException {
return getSoError(fd);
}
public final int getTrafficClass() throws IOException {
return getTrafficClass(fd, ipv6);
}
public final void setKeepAlive(boolean keepAlive) throws IOException {
setKeepAlive(fd, keepAlive ? 1 : 0);
}
public final void setReceiveBufferSize(int receiveBufferSize) throws IOException {
setReceiveBufferSize(fd, receiveBufferSize);
}
public final void setSendBufferSize(int sendBufferSize) throws IOException {
setSendBufferSize(fd, sendBufferSize);
}
public final void setTcpNoDelay(boolean tcpNoDelay) throws IOException {
setTcpNoDelay(fd, tcpNoDelay ? 1 : 0);
}
public final void setSoLinger(int soLinger) throws IOException {
setSoLinger(fd, soLinger);
}
public final void setReuseAddress(boolean reuseAddress) throws IOException {
setReuseAddress(fd, reuseAddress ? 1 : 0);
}
public final void setReusePort(boolean reusePort) throws IOException {
setReusePort(fd, reusePort ? 1 : 0);
}
public final void setBroadcast(boolean broadcast) throws IOException {
setBroadcast(fd, broadcast ? 1 : 0);
}
public final void setTrafficClass(int trafficClass) throws IOException {
setTrafficClass(fd, ipv6, trafficClass);
}
public void setIntOpt(int level, int optname, int optvalue) throws IOException {
setIntOpt(fd, level, optname, optvalue);
}
public void setRawOpt(int level, int optname, ByteBuffer optvalue) throws IOException {
int limit = optvalue.limit();
if (optvalue.isDirect()) {
setRawOptAddress(fd, level, optname,
Buffer.memoryAddress(optvalue) + optvalue.position(), optvalue.remaining());
} else if (optvalue.hasArray()) {
setRawOptArray(fd, level, optname,
optvalue.array(), optvalue.arrayOffset() + optvalue.position(), optvalue.remaining());
} else {
byte[] bytes = new byte[optvalue.remaining()];
optvalue.duplicate().get(bytes);
setRawOptArray(fd, level, optname, bytes, 0, bytes.length);
}
optvalue.position(limit);
}
public int getIntOpt(int level, int optname) throws IOException {
return getIntOpt(fd, level, optname);
}
public void getRawOpt(int level, int optname, ByteBuffer out) throws IOException {
if (out.isDirect()) {
getRawOptAddress(fd, level, optname, Buffer.memoryAddress(out) + out.position() , out.remaining());
} else if (out.hasArray()) {
getRawOptArray(fd, level, optname, out.array(), out.position() + out.arrayOffset(), out.remaining());
} else {
byte[] outArray = new byte[out.remaining()];
getRawOptArray(fd, level, optname, outArray, 0, outArray.length);
out.put(outArray);
}
out.position(out.limit());
}
public static boolean isIPv6Preferred() {
return isIpv6Preferred;
}
public static boolean shouldUseIpv6(InternetProtocolFamily family) {
return family == null ? isIPv6Preferred() :
family == InternetProtocolFamily.IPv6;
}
private static native boolean isIPv6Preferred0(boolean ipv4Preferred);
private static native boolean isIPv6(int fd);
@Override
public String toString() {
return "Socket{" +
"fd=" + fd +
'}';
}
public static Socket newSocketStream() {
return new Socket(newSocketStream0());
}
public static Socket newSocketDgram() {
return new Socket(newSocketDgram0());
}
public static Socket newSocketDomain() {
return new Socket(newSocketDomain0());
}
public static Socket newSocketDomainDgram() {
return new Socket(newSocketDomainDgram0());
}
public static void initialize() {
isIpv6Preferred = isIPv6Preferred0(NetUtil.isIpV4StackPreferred());
}
protected static int newSocketStream0() {
return newSocketStream0(isIPv6Preferred());
}
protected static int newSocketStream0(InternetProtocolFamily protocol) {
return newSocketStream0(shouldUseIpv6(protocol));
}
protected static int newSocketStream0(boolean ipv6) {
int res = newSocketStreamFd(ipv6);
if (res < 0) {
throw new ChannelException(newIOException("newSocketStream", res));
}
return res;
}
protected static int newSocketDgram0() {
return newSocketDgram0(isIPv6Preferred());
}
protected static int newSocketDgram0(InternetProtocolFamily family) {
return newSocketDgram0(shouldUseIpv6(family));
}
protected static int newSocketDgram0(boolean ipv6) {
int res = newSocketDgramFd(ipv6);
if (res < 0) {
throw new ChannelException(newIOException("newSocketDgram", res));
}
return res;
}
protected static int newSocketDomain0() {
int res = newSocketDomainFd();
if (res < 0) {
throw new ChannelException(newIOException("newSocketDomain", res));
}
return res;
}
protected static int newSocketDomainDgram0() {
int res = newSocketDomainDgramFd();
if (res < 0) {
throw new ChannelException(newIOException("newSocketDomainDgram", res));
}
return res;
}
private static native int shutdown(int fd, boolean read, boolean write);
private static native int connect(int fd, boolean ipv6, byte[] address, int scopeId, int port);
private static native int connectDomainSocket(int fd, byte[] path);
private static native int finishConnect(int fd);
private static native int disconnect(int fd, boolean ipv6);
private static native int bind(int fd, boolean ipv6, byte[] address, int scopeId, int port);
private static native int bindDomainSocket(int fd, byte[] path);
private static native int listen(int fd, int backlog);
private static native int accept(int fd, byte[] addr);
private static native byte[] remoteAddress(int fd);
private static native byte[] remoteDomainSocketAddress(int fd);
private static native byte[] localAddress(int fd);
private static native byte[] localDomainSocketAddress(int fd);
private static native int send(int fd, ByteBuffer buf, int pos, int limit);
private static native int sendAddress(int fd, long address, int pos, int limit);
private static native int recv(int fd, ByteBuffer buf, int pos, int limit);
private static native int recvAddress(int fd, long address, int pos, int limit);
private static native int sendTo(
int fd, boolean ipv6, ByteBuffer buf, int pos, int limit, byte[] address, int scopeId, int port,
int flags);
private static native int sendToAddress(
int fd, boolean ipv6, long memoryAddress, int pos, int limit, byte[] address, int scopeId, int port,
int flags);
private static native int sendToAddresses(
int fd, boolean ipv6, long memoryAddress, int length, byte[] address, int scopeId, int port,
int flags);
private static native int sendToDomainSocket(int fd, ByteBuffer buf, int pos, int limit, byte[] path);
private static native int sendToAddressDomainSocket(int fd, long memoryAddress, int pos, int limit, byte[] path);
private static native int sendToAddressesDomainSocket(int fd, long memoryAddress, int length, byte[] path);
private static native DatagramSocketAddress recvFrom(
int fd, ByteBuffer buf, int pos, int limit) throws IOException;
private static native DatagramSocketAddress recvFromAddress(
int fd, long memoryAddress, int pos, int limit) throws IOException;
private static native DomainDatagramSocketAddress recvFromDomainSocket(
int fd, ByteBuffer buf, int pos, int limit) throws IOException;
private static native DomainDatagramSocketAddress recvFromAddressDomainSocket(
int fd, long memoryAddress, int pos, int limit) throws IOException;
private static native int recvFd(int fd);
private static native int sendFd(int socketFd, int fd);
private static native int msgFastopen();
private static native int newSocketStreamFd(boolean ipv6);
private static native int newSocketDgramFd(boolean ipv6);
private static native int newSocketDomainFd();
private static native int newSocketDomainDgramFd();
private static native int isReuseAddress(int fd) throws IOException;
private static native int isReusePort(int fd) throws IOException;
private static native int getReceiveBufferSize(int fd) throws IOException;
private static native int getSendBufferSize(int fd) throws IOException;
private static native int isKeepAlive(int fd) throws IOException;
private static native int isTcpNoDelay(int fd) throws IOException;
private static native int isBroadcast(int fd) throws IOException;
private static native int getSoLinger(int fd) throws IOException;
private static native int getSoError(int fd) throws IOException;
private static native int getTrafficClass(int fd, boolean ipv6) throws IOException;
private static native void setReuseAddress(int fd, int reuseAddress) throws IOException;
private static native void setReusePort(int fd, int reuseAddress) throws IOException;
private static native void setKeepAlive(int fd, int keepAlive) throws IOException;
private static native void setReceiveBufferSize(int fd, int receiveBufferSize) throws IOException;
private static native void setSendBufferSize(int fd, int sendBufferSize) throws IOException;
private static native void setTcpNoDelay(int fd, int tcpNoDelay) throws IOException;
private static native void setSoLinger(int fd, int soLinger) throws IOException;
private static native void setBroadcast(int fd, int broadcast) throws IOException;
private static native void setTrafficClass(int fd, boolean ipv6, int trafficClass) throws IOException;
private static native void setIntOpt(int fd, int level, int optname, int optvalue) throws IOException;
private static native void setRawOptArray(int fd, int level, int optname, byte[] optvalue, int offset, int length)
throws IOException;
private static native void setRawOptAddress(int fd, int level, int optname, long optvalueMemoryAddress, int length)
throws IOException;
private static native int getIntOpt(int fd, int level, int optname) throws IOException;
private static native void getRawOptArray(int fd, int level, int optname, byte[] out, int offset, int length)
throws IOException;
private static native void getRawOptAddress(int fd, int level, int optname, long outMemoryAddress, int length)
throws IOException;
}
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