/
ServerMessageBlock.java
537 lines (509 loc) · 21 KB
/
ServerMessageBlock.java
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/* jcifs smb client library in Java
* Copyright (C) 2000 "Michael B. Allen" <jcifs at samba dot org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package jcifs.smb1.smb1;
import java.io.InputStream;
import java.io.PushbackInputStream;
import java.io.IOException;
import java.io.UnsupportedEncodingException;
import java.util.Calendar;
import java.util.Date;
import jcifs.smb1.Config;
import jcifs.smb1.util.Hexdump;
import jcifs.smb1.util.LogStream;
import jcifs.smb1.util.transport.*;
abstract class ServerMessageBlock extends Response implements Request, SmbConstants {
static LogStream log = LogStream.getInstance();
static final byte[] header = {
(byte)0xFF, (byte)'S', (byte)'M', (byte)'B',
(byte)0x00, (byte)0x00, (byte)0x00, (byte)0x00,
(byte)0x00, (byte)0x00, (byte)0x00, (byte)0x00,
(byte)0x00, (byte)0x00, (byte)0x00, (byte)0x00,
(byte)0x00, (byte)0x00, (byte)0x00, (byte)0x00,
(byte)0x00, (byte)0x00, (byte)0x00, (byte)0x00
};
static void writeInt2( long val, byte[] dst, int dstIndex ) {
dst[dstIndex] = (byte)(val);
dst[++dstIndex] = (byte)(val >> 8);
}
static void writeInt4( long val, byte[] dst, int dstIndex ) {
dst[dstIndex] = (byte)(val);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >> 8);
}
static int readInt2( byte[] src, int srcIndex ) {
return ( src[srcIndex] & 0xFF ) +
(( src[srcIndex + 1] & 0xFF ) << 8 );
}
static int readInt4( byte[] src, int srcIndex ) {
return ( src[srcIndex] & 0xFF ) +
(( src[srcIndex + 1] & 0xFF ) << 8 ) +
(( src[srcIndex + 2] & 0xFF ) << 16 ) +
(( src[srcIndex + 3] & 0xFF ) << 24 );
}
static long readInt8( byte[] src, int srcIndex ) {
return (readInt4( src, srcIndex ) & 0xFFFFFFFFL) +
((long)(readInt4( src, srcIndex + 4 )) << 32);
}
static void writeInt8( long val, byte[] dst, int dstIndex ) {
dst[dstIndex] = (byte)(val);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >>= 8);
dst[++dstIndex] = (byte)(val >> 8);
}
static long readTime( byte[] src, int srcIndex ) {
int low = readInt4( src, srcIndex );
int hi = readInt4( src, srcIndex + 4 );
long t = ((long)hi << 32L ) | (low & 0xFFFFFFFFL);
t = ( t / 10000L - MILLISECONDS_BETWEEN_1970_AND_1601 );
return t;
}
static void writeTime( long t, byte[] dst, int dstIndex ) {
if( t != 0L ) {
t = (t + MILLISECONDS_BETWEEN_1970_AND_1601) * 10000L;
}
writeInt8( t, dst, dstIndex );
}
static long readUTime( byte[] buffer, int bufferIndex ) {
return readInt4( buffer, bufferIndex ) * 1000L;
}
static void writeUTime( long t, byte[] dst, int dstIndex ) {
if( t == 0L || t == 0xFFFFFFFFFFFFFFFFL ) {
writeInt4( 0xFFFFFFFF, dst, dstIndex );
return;
}
synchronized( TZ ) {
if( TZ.inDaylightTime( new Date() )) {
// in DST
if( TZ.inDaylightTime( new Date( t ))) {
// t also in DST so no correction
} else {
// t not in DST so subtract 1 hour
t -= 3600000;
}
} else {
// not in DST
if( TZ.inDaylightTime( new Date( t ))) {
// t is in DST so add 1 hour
t += 3600000;
} else {
// t isn't in DST either
}
}
}
writeInt4( (int)(t / 1000L), dst, dstIndex );
}
/*
* These are all the smbs supported by this library. This includes requests
* and well as their responses for each type however the actuall implementations
* of the readXxxWireFormat and writeXxxWireFormat methods may not be in
* place. For example at the time of this writing the readXxxWireFormat
* for requests and the writeXxxWireFormat for responses are not implemented
* and simply return 0. These would need to be completed for a server
* implementation.
*/
static final byte SMB_COM_CREATE_DIRECTORY = (byte)0x00;
static final byte SMB_COM_DELETE_DIRECTORY = (byte)0x01;
static final byte SMB_COM_CLOSE = (byte)0x04;
static final byte SMB_COM_DELETE = (byte)0x06;
static final byte SMB_COM_RENAME = (byte)0x07;
static final byte SMB_COM_QUERY_INFORMATION = (byte)0x08;
static final byte SMB_COM_WRITE = (byte)0x0B;
static final byte SMB_COM_CHECK_DIRECTORY = (byte)0x10;
static final byte SMB_COM_TRANSACTION = (byte)0x25;
static final byte SMB_COM_TRANSACTION_SECONDARY = (byte)0x26;
static final byte SMB_COM_MOVE = (byte)0x2A;
static final byte SMB_COM_ECHO = (byte)0x2B;
static final byte SMB_COM_OPEN_ANDX = (byte)0x2D;
static final byte SMB_COM_READ_ANDX = (byte)0x2E;
static final byte SMB_COM_WRITE_ANDX = (byte)0x2F;
static final byte SMB_COM_TRANSACTION2 = (byte)0x32;
static final byte SMB_COM_FIND_CLOSE2 = (byte)0x34;
static final byte SMB_COM_TREE_DISCONNECT = (byte)0x71;
static final byte SMB_COM_NEGOTIATE = (byte)0x72;
static final byte SMB_COM_SESSION_SETUP_ANDX = (byte)0x73;
static final byte SMB_COM_LOGOFF_ANDX = (byte)0x74;
static final byte SMB_COM_TREE_CONNECT_ANDX = (byte)0x75;
static final byte SMB_COM_NT_TRANSACT = (byte)0xA0;
static final byte SMB_COM_NT_TRANSACT_SECONDARY = (byte)0xA1;
static final byte SMB_COM_NT_CREATE_ANDX = (byte)0xA2;
/*
* Some fields specify the offset from the beginning of the header. This
* field should be used for calculating that. This would likely be zero
* but an implemantation that encorporates the transport header(for
* efficiency) might use a different initial bufferIndex. For example,
* to eliminate copying data when writing NbtSession data one might
* manage that 4 byte header specifically and therefore the initial
* bufferIndex, and thus headerStart, would be 4).(NOTE: If one where
* looking for a way to improve perfomance this is precisly what you
* would want to do as the jcifs.smb1.netbios.SocketXxxputStream classes
* arraycopy all data read or written into a new buffer shifted over 4!)
*/
byte command, flags;
int headerStart,
length,
batchLevel,
errorCode,
flags2,
tid, pid, uid, mid,
wordCount, byteCount;
boolean useUnicode, received, extendedSecurity;
long responseTimeout = 1;
int signSeq;
boolean verifyFailed;
NtlmPasswordAuthentication auth = null;
String path;
SigningDigest digest = null;
ServerMessageBlock response;
ServerMessageBlock() {
flags = (byte)( FLAGS_PATH_NAMES_CASELESS | FLAGS_PATH_NAMES_CANONICALIZED );
pid = PID;
batchLevel = 0;
}
void reset() {
flags = (byte)( FLAGS_PATH_NAMES_CASELESS | FLAGS_PATH_NAMES_CANONICALIZED );
flags2 = 0;
errorCode = 0;
received = false;
digest = null;
}
int writeString( String str, byte[] dst, int dstIndex ) {
return writeString( str, dst, dstIndex, useUnicode );
}
int writeString( String str, byte[] dst, int dstIndex, boolean useUnicode ) {
int start = dstIndex;
try {
if( useUnicode ) {
// Unicode requires word alignment
if((( dstIndex - headerStart ) % 2 ) != 0 ) {
dst[dstIndex++] = (byte)'\0';
}
System.arraycopy( str.getBytes( UNI_ENCODING ), 0,
dst, dstIndex, str.length() * 2 );
dstIndex += str.length() * 2;
dst[dstIndex++] = (byte)'\0';
dst[dstIndex++] = (byte)'\0';
} else {
byte[] b = str.getBytes( OEM_ENCODING );
System.arraycopy( b, 0, dst, dstIndex, b.length );
dstIndex += b.length;
dst[dstIndex++] = (byte)'\0';
}
} catch( UnsupportedEncodingException uee ) {
if( log.level > 1 )
uee.printStackTrace( log );
}
return dstIndex - start;
}
String readString( byte[] src, int srcIndex ) {
return readString( src, srcIndex, 256, useUnicode );
}
String readString( byte[] src, int srcIndex, int maxLen, boolean useUnicode ) {
int len = 0;
String str = null;
try {
if( useUnicode ) {
// Unicode requires word alignment
if((( srcIndex - headerStart ) % 2 ) != 0 ) {
srcIndex++;
}
while( src[srcIndex + len] != (byte)0x00 ||
src[srcIndex + len + 1] != (byte)0x00 ) {
len += 2;
if( len > maxLen ) {
if( log.level > 0 )
Hexdump.hexdump( System.err, src, srcIndex, maxLen < 128 ? maxLen + 8 : 128 );
throw new RuntimeException( "zero termination not found" );
}
}
str = new String( src, srcIndex, len, UNI_ENCODING );
} else {
while( src[srcIndex + len] != (byte)0x00 ) {
len++;
if( len > maxLen ) {
if( log.level > 0 )
Hexdump.hexdump( System.err, src, srcIndex, maxLen < 128 ? maxLen + 8 : 128 );
throw new RuntimeException( "zero termination not found" );
}
}
str = new String( src, srcIndex, len, OEM_ENCODING );
}
} catch( UnsupportedEncodingException uee ) {
if( log.level > 1 )
uee.printStackTrace( log );
}
return str;
}
String readString(byte[] src, int srcIndex, int srcEnd, int maxLen, boolean useUnicode) {
int len = 0;
String str = null;
try {
if (useUnicode) {
// Unicode requires word alignment
if (((srcIndex - headerStart) % 2) != 0) {
srcIndex++;
}
for (len = 0; (srcIndex + len + 1) < srcEnd; len += 2) {
if (src[srcIndex + len] == (byte)0x00 && src[srcIndex + len + 1] == (byte)0x00) {
break;
}
if (len > maxLen) {
if (log.level > 0)
Hexdump.hexdump(System.err, src, srcIndex, maxLen < 128 ? maxLen + 8 : 128);
throw new RuntimeException("zero termination not found");
}
}
str = new String(src, srcIndex, len, UNI_ENCODING);
} else {
for (len = 0; srcIndex < srcEnd; len++) {
if (src[srcIndex + len] == (byte)0x00) {
break;
}
if (len > maxLen) {
if (log.level > 0)
Hexdump.hexdump(System.err, src, srcIndex, maxLen < 128 ? maxLen + 8 : 128);
throw new RuntimeException("zero termination not found");
}
}
str = new String(src, srcIndex, len, OEM_ENCODING);
}
} catch( UnsupportedEncodingException uee ) {
if( log.level > 1 )
uee.printStackTrace( log );
}
return str;
}
int stringWireLength( String str, int offset ) {
int len = str.length() + 1;
if( useUnicode ) {
len = str.length() * 2 + 2;
len = ( offset % 2 ) != 0 ? len + 1 : len;
}
return len;
}
int readStringLength( byte[] src, int srcIndex, int max ) {
int len = 0;
while( src[srcIndex + len] != (byte)0x00 ) {
if( len++ > max ) {
throw new RuntimeException( "zero termination not found: " + this );
}
}
return len;
}
int encode( byte[] dst, int dstIndex ) {
int start = headerStart = dstIndex;
dstIndex += writeHeaderWireFormat( dst, dstIndex );
wordCount = writeParameterWordsWireFormat( dst, dstIndex + 1 );
dst[dstIndex++] = (byte)(( wordCount / 2 ) & 0xFF );
dstIndex += wordCount;
wordCount /= 2;
byteCount = writeBytesWireFormat( dst, dstIndex + 2 );
dst[dstIndex++] = (byte)( byteCount & 0xFF );
dst[dstIndex++] = (byte)(( byteCount >> 8 ) & 0xFF );
dstIndex += byteCount;
length = dstIndex - start;
if( digest != null ) {
digest.sign( dst, headerStart, length, this, response );
}
return length;
}
int decode( byte[] buffer, int bufferIndex ) {
int start = headerStart = bufferIndex;
bufferIndex += readHeaderWireFormat( buffer, bufferIndex );
wordCount = buffer[bufferIndex++];
if( wordCount != 0 ) {
int n;
if(( n = readParameterWordsWireFormat( buffer, bufferIndex )) != wordCount * 2 ) {
if( log.level >= 5 ) {
log.println( "wordCount * 2=" + ( wordCount * 2 ) +
" but readParameterWordsWireFormat returned " + n );
}
}
bufferIndex += wordCount * 2;
}
byteCount = readInt2( buffer, bufferIndex );
bufferIndex += 2;
if( byteCount != 0 ) {
int n;
if(( n = readBytesWireFormat( buffer, bufferIndex )) != byteCount ) {
if( log.level >= 5 ) {
log.println( "byteCount=" + byteCount +
" but readBytesWireFormat returned " + n );
}
}
// Don't think we can rely on n being correct here. Must use byteCount.
// Last paragraph of section 3.13.3 eludes to this.
bufferIndex += byteCount;
}
length = bufferIndex - start;
return length;
}
int writeHeaderWireFormat( byte[] dst, int dstIndex ) {
System.arraycopy( header, 0, dst, dstIndex, header.length );
dst[dstIndex + CMD_OFFSET] = command;
dst[dstIndex + FLAGS_OFFSET] = flags;
writeInt2( flags2, dst, dstIndex + FLAGS_OFFSET + 1 );
dstIndex += TID_OFFSET;
writeInt2( tid, dst, dstIndex );
writeInt2( pid, dst, dstIndex + 2 );
writeInt2( uid, dst, dstIndex + 4 );
writeInt2( mid, dst, dstIndex + 6 );
return HEADER_LENGTH;
}
int readHeaderWireFormat( byte[] buffer, int bufferIndex ) {
command = buffer[bufferIndex + CMD_OFFSET];
errorCode = readInt4( buffer, bufferIndex + ERROR_CODE_OFFSET );
flags = buffer[bufferIndex + FLAGS_OFFSET];
flags2 = readInt2( buffer, bufferIndex + FLAGS_OFFSET + 1 );
tid = readInt2( buffer, bufferIndex + TID_OFFSET );
pid = readInt2( buffer, bufferIndex + TID_OFFSET + 2 );
uid = readInt2( buffer, bufferIndex + TID_OFFSET + 4 );
mid = readInt2( buffer, bufferIndex + TID_OFFSET + 6 );
return HEADER_LENGTH;
}
boolean isResponse() {
return ( flags & FLAGS_RESPONSE ) == FLAGS_RESPONSE;
}
/*
* For this packet deconstruction technique to work for
* other networking protocols the InputStream may need
* to be passed to the readXxxWireFormat methods. This is
* actually purer. However, in the case of smb we know the
* wordCount and byteCount. And since every subclass of
* ServerMessageBlock would have to perform the same read
* operation on the input stream, we might as will pull that
* common functionality into the superclass and read wordCount
* and byteCount worth of data.
*
* We will still use the readXxxWireFormat return values to
* indicate how many bytes(note: readParameterWordsWireFormat
* returns bytes read and not the number of words(but the
* wordCount member DOES store the number of words)) we
* actually read. Incedentally this is important to the
* AndXServerMessageBlock class that needs to potentially
* read in another smb's parameter words and bytes based on
* information in it's andxCommand, andxOffset, ...etc.
*/
abstract int writeParameterWordsWireFormat( byte[] dst, int dstIndex );
abstract int writeBytesWireFormat( byte[] dst, int dstIndex );
abstract int readParameterWordsWireFormat( byte[] buffer, int bufferIndex );
abstract int readBytesWireFormat( byte[] buffer, int bufferIndex );
public int hashCode() {
return mid;
}
public boolean equals( Object obj ) {
return obj instanceof ServerMessageBlock && ((ServerMessageBlock)obj).mid == mid;
}
public String toString() {
String c;
switch( command ) {
case SMB_COM_NEGOTIATE:
c = "SMB_COM_NEGOTIATE";
break;
case SMB_COM_SESSION_SETUP_ANDX:
c = "SMB_COM_SESSION_SETUP_ANDX";
break;
case SMB_COM_TREE_CONNECT_ANDX:
c = "SMB_COM_TREE_CONNECT_ANDX";
break;
case SMB_COM_QUERY_INFORMATION:
c = "SMB_COM_QUERY_INFORMATION";
break;
case SMB_COM_CHECK_DIRECTORY:
c = "SMB_COM_CHECK_DIRECTORY";
break;
case SMB_COM_TRANSACTION:
c = "SMB_COM_TRANSACTION";
break;
case SMB_COM_TRANSACTION2:
c = "SMB_COM_TRANSACTION2";
break;
case SMB_COM_TRANSACTION_SECONDARY:
c = "SMB_COM_TRANSACTION_SECONDARY";
break;
case SMB_COM_FIND_CLOSE2:
c = "SMB_COM_FIND_CLOSE2";
break;
case SMB_COM_TREE_DISCONNECT:
c = "SMB_COM_TREE_DISCONNECT";
break;
case SMB_COM_LOGOFF_ANDX:
c = "SMB_COM_LOGOFF_ANDX";
break;
case SMB_COM_ECHO:
c = "SMB_COM_ECHO";
break;
case SMB_COM_MOVE:
c = "SMB_COM_MOVE";
break;
case SMB_COM_RENAME:
c = "SMB_COM_RENAME";
break;
case SMB_COM_DELETE:
c = "SMB_COM_DELETE";
break;
case SMB_COM_DELETE_DIRECTORY:
c = "SMB_COM_DELETE_DIRECTORY";
break;
case SMB_COM_NT_CREATE_ANDX:
c = "SMB_COM_NT_CREATE_ANDX";
break;
case SMB_COM_OPEN_ANDX:
c = "SMB_COM_OPEN_ANDX";
break;
case SMB_COM_READ_ANDX:
c = "SMB_COM_READ_ANDX";
break;
case SMB_COM_CLOSE:
c = "SMB_COM_CLOSE";
break;
case SMB_COM_WRITE_ANDX:
c = "SMB_COM_WRITE_ANDX";
break;
case SMB_COM_CREATE_DIRECTORY:
c = "SMB_COM_CREATE_DIRECTORY";
break;
case SMB_COM_NT_TRANSACT:
c = "SMB_COM_NT_TRANSACT";
break;
case SMB_COM_NT_TRANSACT_SECONDARY:
c = "SMB_COM_NT_TRANSACT_SECONDARY";
break;
default:
c = "UNKNOWN";
}
String str = errorCode == 0 ? "0" : SmbException.getMessageByCode( errorCode );
return new String(
"command=" + c +
",received=" + received +
",errorCode=" + str +
",flags=0x" + Hexdump.toHexString( flags & 0xFF, 4 ) +
",flags2=0x" + Hexdump.toHexString( flags2, 4 ) +
",signSeq=" + signSeq +
",tid=" + tid +
",pid=" + pid +
",uid=" + uid +
",mid=" + mid +
",wordCount=" + wordCount +
",byteCount=" + byteCount );
}
}