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/* Copyright (c) 2015 The Android Open Source Project
* Copyright (C) 2015 Samsung LSI
* Copyright (c) 2008-2009, Motorola, Inc.
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* - Neither the name of the Motorola, Inc. nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
package javax.obex;
import java.io.IOException;
import java.io.InputStream;
import java.io.DataInputStream;
import java.io.OutputStream;
import java.io.DataOutputStream;
import java.io.ByteArrayOutputStream;
import android.util.Log;
/**
* This class implements the Operation interface for server side connections.
* <P>
* <STRONG>Request Codes</STRONG> There are four different request codes that
* are in this class. 0x02 is a PUT request that signals that the request is not
* complete and requires an additional OBEX packet. 0x82 is a PUT request that
* says that request is complete. In this case, the server can begin sending the
* response. The 0x03 is a GET request that signals that the request is not
* finished. When the server receives a 0x83, the client is signaling the server
* that it is done with its request. TODO: Extend the ClientOperation and reuse
* the methods defined TODO: in that class.
* @hide
*/
public final class ServerOperation implements Operation, BaseStream {
private static final String TAG = "ServerOperation";
private static final boolean V = ObexHelper.VDBG; // Verbose debugging
public boolean isAborted;
public HeaderSet requestHeader;
public HeaderSet replyHeader;
public boolean finalBitSet;
private InputStream mInput;
private ServerSession mParent;
private int mMaxPacketLength;
private int mResponseSize;
private boolean mClosed;
private boolean mGetOperation;
private PrivateInputStream mPrivateInput;
private PrivateOutputStream mPrivateOutput;
private ObexTransport mTransport;
private boolean mPrivateOutputOpen;
private String mExceptionString;
private ServerRequestHandler mListener;
private boolean mRequestFinished;
private boolean mHasBody;
private boolean mSendBodyHeader = true;
// Assume SRM disabled - needs to be explicit
// enabled by client
private boolean mSrmEnabled = false;
// A latch - when triggered, there is not way back ;-)
private boolean mSrmActive = false;
// Set to true when a SRM enable response have been send
private boolean mSrmResponseSent = false;
// keep waiting until final-bit is received in request
// to handle the case where the SRM enable header is in
// a different OBEX packet than the SRMP header.
private boolean mSrmWaitingForRemote = true;
// Why should we wait? - currently not exposed to apps.
private boolean mSrmLocalWait = false;
/**
* Creates new ServerOperation
* @param p the parent that created this object
* @param in the input stream to read from
* @param out the output stream to write to
* @param request the initial request that was received from the client
* @param maxSize the max packet size that the client will accept
* @param listen the listener that is responding to the request
* @throws IOException if an IO error occurs
*/
public ServerOperation(ServerSession p, InputStream in, int request, int maxSize,
ServerRequestHandler listen) throws IOException {
isAborted = false;
mParent = p;
mInput = in;
mMaxPacketLength = maxSize;
mClosed = false;
requestHeader = new HeaderSet();
replyHeader = new HeaderSet();
mPrivateInput = new PrivateInputStream(this);
mResponseSize = 3;
mListener = listen;
mRequestFinished = false;
mPrivateOutputOpen = false;
mHasBody = false;
ObexPacket packet;
mTransport = p.getTransport();
/*
* Determine if this is a PUT request
*/
if ((request == ObexHelper.OBEX_OPCODE_PUT) ||
(request == ObexHelper.OBEX_OPCODE_PUT_FINAL)) {
/*
* It is a PUT request.
*/
mGetOperation = false;
/*
* Determine if the final bit is set
*/
if ((request & ObexHelper.OBEX_OPCODE_FINAL_BIT_MASK) == 0) {
finalBitSet = false;
} else {
finalBitSet = true;
mRequestFinished = true;
}
} else if ((request == ObexHelper.OBEX_OPCODE_GET) ||
(request == ObexHelper.OBEX_OPCODE_GET_FINAL)) {
/*
* It is a GET request.
*/
mGetOperation = true;
// For Get request, final bit set is decided by server side logic
finalBitSet = false;
if (request == ObexHelper.OBEX_OPCODE_GET_FINAL) {
mRequestFinished = true;
}
} else {
throw new IOException("ServerOperation can not handle such request");
}
packet = ObexPacket.read(request, mInput);
/*
* Determine if the packet length is larger than this device can receive
*/
if (packet.mLength > ObexHelper.getMaxRxPacketSize(mTransport)) {
mParent.sendResponse(ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE, null);
throw new IOException("Packet received was too large. Length: "
+ packet.mLength + " maxLength: " + ObexHelper.getMaxRxPacketSize(mTransport));
}
/*
* Determine if any headers were sent in the initial request
*/
if (packet.mLength > 3) {
if(!handleObexPacket(packet)) {
return;
}
if (!mHasBody) {
while ((!mGetOperation) && (!finalBitSet)) {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
if (mPrivateInput.available() > 0) {
break;
}
}
}
}
while ((!mGetOperation) && (!finalBitSet) && (mPrivateInput.available() == 0)) {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
if (mPrivateInput.available() > 0) {
break;
}
}
// wait for get request finished !!!!
while (mGetOperation && !mRequestFinished) {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
}
}
/**
* Parse headers and update member variables
* @param packet the received obex packet
* @return false for failing authentication - and a OBEX_HTTP_UNAUTHORIZED
* response have been send. Else true.
* @throws IOException
*/
private boolean handleObexPacket(ObexPacket packet) throws IOException {
byte[] body = updateRequestHeaders(packet);
if (body != null) {
mHasBody = true;
}
if (mListener.getConnectionId() != -1 && requestHeader.mConnectionID != null) {
mListener.setConnectionId(ObexHelper
.convertToLong(requestHeader.mConnectionID));
} else {
mListener.setConnectionId(1);
}
if (requestHeader.mAuthResp != null) {
if (!mParent.handleAuthResp(requestHeader.mAuthResp)) {
mExceptionString = "Authentication Failed";
mParent.sendResponse(ResponseCodes.OBEX_HTTP_UNAUTHORIZED, null);
mClosed = true;
requestHeader.mAuthResp = null;
return false;
}
requestHeader.mAuthResp = null;
}
if (requestHeader.mAuthChall != null) {
mParent.handleAuthChall(requestHeader);
// send the auhtResp to the client
replyHeader.mAuthResp = new byte[requestHeader.mAuthResp.length];
System.arraycopy(requestHeader.mAuthResp, 0, replyHeader.mAuthResp, 0,
replyHeader.mAuthResp.length);
requestHeader.mAuthResp = null;
requestHeader.mAuthChall = null;
}
if (body != null) {
mPrivateInput.writeBytes(body, 1);
}
return true;
}
/**
* Update the request header set, and sniff on SRM headers to update local state.
* @param data the OBEX packet data
* @return any bytes in a body/end-of-body header returned by {@link ObexHelper.updateHeaderSet}
* @throws IOException
*/
private byte[] updateRequestHeaders(ObexPacket packet) throws IOException {
byte[] body = null;
if (packet.mPayload != null) {
body = ObexHelper.updateHeaderSet(requestHeader, packet.mPayload);
}
Byte srmMode = (Byte)requestHeader.getHeader(HeaderSet.SINGLE_RESPONSE_MODE);
if(mTransport.isSrmSupported() && srmMode != null
&& srmMode == ObexHelper.OBEX_SRM_ENABLE) {
mSrmEnabled = true;
if(V) Log.d(TAG,"SRM is now ENABLED (but not active) for this operation");
}
checkForSrmWait(packet.mHeaderId);
if((!mSrmWaitingForRemote) && (mSrmEnabled)) {
if(V) Log.d(TAG,"SRM is now ACTIVE for this operation");
mSrmActive = true;
}
return body;
}
/**
* Call this only when a complete request have been received.
* (This is not optimal, but the current design is not really suited to
* the way SRM is specified.)
*/
private void checkForSrmWait(int headerId){
if (mSrmEnabled && (headerId == ObexHelper.OBEX_OPCODE_GET
|| headerId == ObexHelper.OBEX_OPCODE_GET_FINAL
|| headerId == ObexHelper.OBEX_OPCODE_PUT)) {
try {
mSrmWaitingForRemote = false;
Byte srmp = (Byte)requestHeader.getHeader(HeaderSet.SINGLE_RESPONSE_MODE_PARAMETER);
if(srmp != null && srmp == ObexHelper.OBEX_SRMP_WAIT) {
mSrmWaitingForRemote = true;
// Clear the wait header, as the absents of the header when the final bit is set
// indicates don't wait.
requestHeader.setHeader(HeaderSet.SINGLE_RESPONSE_MODE_PARAMETER, null);
}
} catch (IOException e) {if(V){Log.w(TAG,"Exception while extracting header",e);}}
}
}
public boolean isValidBody() {
return mHasBody;
}
/**
* Determines if the operation should continue or should wait. If it should
* continue, this method will continue the operation.
* @param sendEmpty if <code>true</code> then this will continue the
* operation even if no headers will be sent; if <code>false</code>
* then this method will only continue the operation if there are
* headers to send
* @param inStream if<code>true</code> the stream is input stream, otherwise
* output stream
* @return <code>true</code> if the operation was completed;
* <code>false</code> if no operation took place
*/
public synchronized boolean continueOperation(boolean sendEmpty, boolean inStream)
throws IOException {
if (!mGetOperation) {
if (!finalBitSet) {
if (sendEmpty) {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
return true;
} else {
if ((mResponseSize > 3) || (mPrivateOutput.size() > 0)) {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
return true;
} else {
return false;
}
}
} else {
return false;
}
} else {
sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
return true;
}
}
/**
* Sends a reply to the client. If the reply is a OBEX_HTTP_CONTINUE, it
* will wait for a response from the client before ending unless SRM is active.
* @param type the response code to send back to the client
* @return <code>true</code> if the final bit was not set on the reply;
* <code>false</code> if no reply was received because the operation
* ended, an abort was received, the final bit was set in the
* reply or SRM is active.
* @throws IOException if an IO error occurs
*/
public synchronized boolean sendReply(int type) throws IOException {
ByteArrayOutputStream out = new ByteArrayOutputStream();
boolean skipSend = false;
boolean skipReceive = false;
boolean srmRespSendPending = false;
long id = mListener.getConnectionId();
if (id == -1) {
replyHeader.mConnectionID = null;
} else {
replyHeader.mConnectionID = ObexHelper.convertToByteArray(id);
}
if(mSrmEnabled && !mSrmResponseSent) {
// As we are not ensured that the SRM enable is in the first OBEX packet
// We must check for each reply.
if(V)Log.v(TAG, "mSrmEnabled==true, sending SRM enable response.");
replyHeader.setHeader(HeaderSet.SINGLE_RESPONSE_MODE, (byte)ObexHelper.OBEX_SRM_ENABLE);
srmRespSendPending = true;
}
if(mSrmEnabled && !mGetOperation && mSrmLocalWait) {
replyHeader.setHeader(HeaderSet.SINGLE_RESPONSE_MODE, (byte)ObexHelper.OBEX_SRMP_WAIT);
}
byte[] headerArray = ObexHelper.createHeader(replyHeader, true); // This clears the headers
int bodyLength = -1;
int orginalBodyLength = -1;
if (mPrivateOutput != null) {
bodyLength = mPrivateOutput.size();
orginalBodyLength = bodyLength;
}
if ((ObexHelper.BASE_PACKET_LENGTH + headerArray.length) > mMaxPacketLength) {
int end = 0;
int start = 0;
while (end != headerArray.length) {
end = ObexHelper.findHeaderEnd(headerArray, start, mMaxPacketLength
- ObexHelper.BASE_PACKET_LENGTH);
if (end == -1) {
mClosed = true;
if (mPrivateInput != null) {
mPrivateInput.close();
}
if (mPrivateOutput != null) {
mPrivateOutput.close();
}
mParent.sendResponse(ResponseCodes.OBEX_HTTP_INTERNAL_ERROR, null);
throw new IOException("OBEX Packet exceeds max packet size");
}
byte[] sendHeader = new byte[end - start];
System.arraycopy(headerArray, start, sendHeader, 0, sendHeader.length);
mParent.sendResponse(type, sendHeader);
start = end;
}
if (bodyLength > 0) {
return true;
} else {
return false;
}
} else {
out.write(headerArray);
}
// For Get operation: if response code is OBEX_HTTP_OK, then this is the
// last packet; so set finalBitSet to true.
if (mGetOperation && type == ResponseCodes.OBEX_HTTP_OK) {
finalBitSet = true;
}
if(mSrmActive) {
if(!mGetOperation && type == ResponseCodes.OBEX_HTTP_CONTINUE &&
mSrmResponseSent == true) {
// we are in the middle of a SRM PUT operation, don't send a continue.
skipSend = true;
} else if(mGetOperation && mRequestFinished == false && mSrmResponseSent == true) {
// We are still receiving the get request, receive, but don't send continue.
skipSend = true;
} else if(mGetOperation && mRequestFinished == true) {
// All done receiving the GET request, send data to the client, without
// expecting a continue.
skipReceive = true;
}
if(V)Log.v(TAG, "type==" + type + " skipSend==" + skipSend
+ " skipReceive==" + skipReceive);
}
if(srmRespSendPending) {
if(V)Log.v(TAG,
"SRM Enabled (srmRespSendPending == true)- sending SRM Enable response");
mSrmResponseSent = true;
}
if ((finalBitSet) || (headerArray.length < (mMaxPacketLength - 20))) {
if (bodyLength > 0) {
/*
* Determine if I can send the whole body or just part of
* the body. Remember that there is the 3 bytes for the
* response message and 3 bytes for the header ID and length
*/
if (bodyLength > (mMaxPacketLength - headerArray.length - 6)) {
bodyLength = mMaxPacketLength - headerArray.length - 6;
}
byte[] body = mPrivateOutput.readBytes(bodyLength);
/*
* Since this is a put request if the final bit is set or
* the output stream is closed we need to send the 0x49
* (End of Body) otherwise, we need to send 0x48 (Body)
*/
if ((finalBitSet) || (mPrivateOutput.isClosed())) {
if(mSendBodyHeader == true) {
out.write(0x49);
bodyLength += 3;
out.write((byte)(bodyLength >> 8));
out.write((byte)bodyLength);
out.write(body);
}
} else {
if(mSendBodyHeader == true) {
out.write(0x48);
bodyLength += 3;
out.write((byte)(bodyLength >> 8));
out.write((byte)bodyLength);
out.write(body);
}
}
}
}
if ((finalBitSet) && (type == ResponseCodes.OBEX_HTTP_OK) && (orginalBodyLength <= 0)) {
if(mSendBodyHeader) {
out.write(0x49);
orginalBodyLength = 3;
out.write((byte)(orginalBodyLength >> 8));
out.write((byte)orginalBodyLength);
}
}
if(skipSend == false) {
mResponseSize = 3;
mParent.sendResponse(type, out.toByteArray());
}
if (type == ResponseCodes.OBEX_HTTP_CONTINUE) {
if(mGetOperation && skipReceive) {
// Here we need to check for and handle abort (throw an exception).
// Any other signal received should be discarded silently (only on server side)
checkSrmRemoteAbort();
} else {
// Receive and handle data (only send reply if !skipSend)
// Read a complete OBEX Packet
ObexPacket packet = ObexPacket.read(mInput);
int headerId = packet.mHeaderId;
if ((headerId != ObexHelper.OBEX_OPCODE_PUT)
&& (headerId != ObexHelper.OBEX_OPCODE_PUT_FINAL)
&& (headerId != ObexHelper.OBEX_OPCODE_GET)
&& (headerId != ObexHelper.OBEX_OPCODE_GET_FINAL)) {
/*
* Determine if an ABORT was sent as the reply
*/
if (headerId == ObexHelper.OBEX_OPCODE_ABORT) {
handleRemoteAbort();
} else {
// TODO:shall we send this if it occurs during SRM? Errata on the subject
mParent.sendResponse(ResponseCodes.OBEX_HTTP_BAD_REQUEST, null);
mClosed = true;
mExceptionString = "Bad Request Received";
throw new IOException("Bad Request Received");
}
} else {
if ((headerId == ObexHelper.OBEX_OPCODE_PUT_FINAL)) {
finalBitSet = true;
} else if (headerId == ObexHelper.OBEX_OPCODE_GET_FINAL) {
mRequestFinished = true;
}
/*
* Determine if the packet length is larger than the negotiated packet size
*/
if (packet.mLength > ObexHelper.getMaxRxPacketSize(mTransport)) {
mParent.sendResponse(ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE, null);
throw new IOException("Packet received was too large");
}
/*
* Determine if any headers were sent in the initial request
*/
if (packet.mLength > 3 || (mSrmEnabled && packet.mLength == 3)) {
if(handleObexPacket(packet) == false) {
return false;
}
}
}
}
return true;
} else {
return false;
}
}
/**
* This method will look for an abort from the peer during a SRM transfer.
* The function will not block if no data has been received from the remote device.
* If data have been received, the function will block while reading the incoming
* OBEX package.
* An Abort request will be handled, and cause an IOException("Abort Received").
* Other messages will be discarded silently as per GOEP specification.
* @throws IOException if an abort request have been received.
* TODO: I think this is an error in the specification. If we discard other messages,
* the peer device will most likely stall, as it will not receive the expected
* response for the message...
* I'm not sure how to understand "Receipt of invalid or unexpected SRM or SRMP
* header values shall be ignored by the receiving device."
* If any signal is received during an active SRM transfer it is unexpected regardless
* whether or not it contains SRM/SRMP headers...
*/
private void checkSrmRemoteAbort() throws IOException {
if(mInput.available() > 0) {
ObexPacket packet = ObexPacket.read(mInput);
/*
* Determine if an ABORT was sent as the reply
*/
if (packet.mHeaderId == ObexHelper.OBEX_OPCODE_ABORT) {
handleRemoteAbort();
} else {
// TODO: should we throw an exception here anyway? - don't see how to
// ignore SRM/SRMP headers without ignoring the complete signal
// (in this particular case).
Log.w(TAG, "Received unexpected request from client - discarding...\n"
+ " headerId: " + packet.mHeaderId + " length: " + packet.mLength);
}
}
}
private void handleRemoteAbort() throws IOException {
/* TODO: To increase the speed of the abort operation in SRM, we need
* to be able to flush the L2CAP queue for the PSM in use.
* This could be implemented by introducing a control
* message to be send over the socket, that in the abort case
* could carry a flush command. */
mParent.sendResponse(ResponseCodes.OBEX_HTTP_OK, null);
mClosed = true;
isAborted = true;
mExceptionString = "Abort Received";
throw new IOException("Abort Received");
}
/**
* Sends an ABORT message to the server. By calling this method, the
* corresponding input and output streams will be closed along with this
* object.
* @throws IOException if the transaction has already ended or if an OBEX
* server called this method
*/
public void abort() throws IOException {
throw new IOException("Called from a server");
}
/**
* Returns the headers that have been received during the operation.
* Modifying the object returned has no effect on the headers that are sent
* or retrieved.
* @return the headers received during this <code>Operation</code>
* @throws IOException if this <code>Operation</code> has been closed
*/
public HeaderSet getReceivedHeader() throws IOException {
ensureOpen();
return requestHeader;
}
/**
* Specifies the headers that should be sent in the next OBEX message that
* is sent.
* @param headers the headers to send in the next message
* @throws IOException if this <code>Operation</code> has been closed or the
* transaction has ended and no further messages will be exchanged
* @throws IllegalArgumentException if <code>headers</code> was not created
* by a call to <code>ServerRequestHandler.createHeaderSet()</code>
*/
public void sendHeaders(HeaderSet headers) throws IOException {
ensureOpen();
if (headers == null) {
throw new IOException("Headers may not be null");
}
int[] headerList = headers.getHeaderList();
if (headerList != null) {
for (int i = 0; i < headerList.length; i++) {
replyHeader.setHeader(headerList[i], headers.getHeader(headerList[i]));
}
}
}
/**
* Retrieves the response code retrieved from the server. Response codes are
* defined in the <code>ResponseCodes</code> interface.
* @return the response code retrieved from the server
* @throws IOException if an error occurred in the transport layer during
* the transaction; if this method is called on a
* <code>HeaderSet</code> object created by calling
* <code>createHeaderSet</code> in a <code>ClientSession</code>
* object; if this is called from a server
*/
public int getResponseCode() throws IOException {
throw new IOException("Called from a server");
}
/**
* Always returns <code>null</code>
* @return <code>null</code>
*/
public String getEncoding() {
return null;
}
/**
* Returns the type of content that the resource connected to is providing.
* E.g. if the connection is via HTTP, then the value of the content-type
* header field is returned.
* @return the content type of the resource that the URL references, or
* <code>null</code> if not known
*/
public String getType() {
try {
return (String)requestHeader.getHeader(HeaderSet.TYPE);
} catch (IOException e) {
return null;
}
}
/**
* Returns the length of the content which is being provided. E.g. if the
* connection is via HTTP, then the value of the content-length header field
* is returned.
* @return the content length of the resource that this connection's URL
* references, or -1 if the content length is not known
*/
public long getLength() {
try {
Long temp = (Long)requestHeader.getHeader(HeaderSet.LENGTH);
if (temp == null) {
return -1;
} else {
return temp.longValue();
}
} catch (IOException e) {
return -1;
}
}
public int getMaxPacketSize() {
return mMaxPacketLength - 6 - getHeaderLength();
}
public int getHeaderLength() {
long id = mListener.getConnectionId();
if (id == -1) {
replyHeader.mConnectionID = null;
} else {
replyHeader.mConnectionID = ObexHelper.convertToByteArray(id);
}
byte[] headerArray = ObexHelper.createHeader(replyHeader, false);
return headerArray.length;
}
/**
* Open and return an input stream for a connection.
* @return an input stream
* @throws IOException if an I/O error occurs
*/
public InputStream openInputStream() throws IOException {
ensureOpen();
return mPrivateInput;
}
/**
* Open and return a data input stream for a connection.
* @return an input stream
* @throws IOException if an I/O error occurs
*/
public DataInputStream openDataInputStream() throws IOException {
return new DataInputStream(openInputStream());
}
/**
* Open and return an output stream for a connection.
* @return an output stream
* @throws IOException if an I/O error occurs
*/
public OutputStream openOutputStream() throws IOException {
ensureOpen();
if (mPrivateOutputOpen) {
throw new IOException("no more input streams available, stream already opened");
}
if (!mRequestFinished) {
throw new IOException("no output streams available ,request not finished");
}
if (mPrivateOutput == null) {
mPrivateOutput = new PrivateOutputStream(this, getMaxPacketSize());
}
mPrivateOutputOpen = true;
return mPrivateOutput;
}
/**
* Open and return a data output stream for a connection.
* @return an output stream
* @throws IOException if an I/O error occurs
*/
public DataOutputStream openDataOutputStream() throws IOException {
return new DataOutputStream(openOutputStream());
}
/**
* Closes the connection and ends the transaction
* @throws IOException if the operation has already ended or is closed
*/
public void close() throws IOException {
ensureOpen();
mClosed = true;
}
/**
* Verifies that the connection is open and no exceptions should be thrown.
* @throws IOException if an exception needs to be thrown
*/
public void ensureOpen() throws IOException {
if (mExceptionString != null) {
throw new IOException(mExceptionString);
}
if (mClosed) {
throw new IOException("Operation has already ended");
}
}
/**
* Verifies that additional information may be sent. In other words, the
* operation is not done.
* <P>
* Included to implement the BaseStream interface only. It does not do
* anything on the server side since the operation of the Operation object
* is not done until after the handler returns from its method.
* @throws IOException if the operation is completed
*/
public void ensureNotDone() throws IOException {
}
/**
* Called when the output or input stream is closed. It does not do anything
* on the server side since the operation of the Operation object is not
* done until after the handler returns from its method.
* @param inStream <code>true</code> if the input stream is closed;
* <code>false</code> if the output stream is closed
* @throws IOException if an IO error occurs
*/
public void streamClosed(boolean inStream) throws IOException {
}
public void noBodyHeader(){
mSendBodyHeader = false;
}
}