private void WriteRFH2Properties()
{
uint method = 0xff;
this.TrEntry(method);
try
{
int num5;
int length = 0;
int num3 = 0;
string foldername = null;
bool flag = false;
RFH2Folder folder = null;
if (this.properties != null)
{
IEnumerator enumerator = this.properties.Keys.GetEnumerator();
while (enumerator.MoveNext())
{
string current = (string)enumerator.Current;
Queue queue = (Queue)((Queue)this.properties[current]).Clone();
Queue queue2 = (Queue)this.mqMessage.propertiesPDTable[current];
MQPropertyDescriptor pd = new MQPropertyDescriptor();
length = current.IndexOf('.');
if (length > 0)
{
foldername = current.Substring(0, length);
if (!this.rfh.Contains(foldername))
{
RFH2Folder child = new RFH2Folder(foldername);
this.rfhFolders.AddFolder(child);
this.rfh.AddFolder(child);
}
flag = true;
current = current.Substring(length + 1);
}
else
{
if (!this.rfh.Contains("usr"))
{
RFH2Folder folder3 = new RFH2Folder("usr");
this.rfhFolders.AddFolder(folder3);
this.rfh.AddFolder(folder3);
}
RFH2Folder folder4 = this.rfh.GetFolder("usr");
if (queue != null)
{
while (queue.Count > 0)
{
RFH2Folder element = new RFH2Folder(current);
if ((queue2 != null) && (queue2.Count > 0))
{
pd = (MQPropertyDescriptor)queue2.Dequeue();
if (pd != null)
{
this.SetPropertyDescriptor(element, pd);
}
}
this.SetContent(element, queue.Dequeue());
folder4.AddFolder(element);
}
folder4 = null;
}
else
{
RFH2Folder folder6 = new RFH2Folder(current);
if ((queue2 != null) && (queue2.Count > 0))
{
pd = (MQPropertyDescriptor)queue2.Dequeue();
if (pd != null)
{
this.SetPropertyDescriptor(folder6, pd);
}
}
this.SetContent(folder6, null);
folder4.AddFolder(folder6);
folder4 = null;
}
}
while (flag)
{
length = current.IndexOf('.');
if (folder == null)
{
folder = this.rfh.GetFolder(foldername);
}
if (length == -1)
{
foldername = current;
if (queue != null)
{
while (queue.Count > 0)
{
RFH2Folder folder7 = new RFH2Folder(foldername);
if ((queue2 != null) && (queue2.Count > 0))
{
pd = (MQPropertyDescriptor)queue2.Dequeue();
if (pd != null)
{
this.SetPropertyDescriptor(folder7, pd);
}
}
this.SetContent(folder7, queue.Dequeue());
folder.AddFolder(folder7);
}
folder = null;
}
else
{
RFH2Folder folder8 = new RFH2Folder(foldername);
if ((queue2 != null) && (queue2.Count > 0))
{
pd = (MQPropertyDescriptor)queue2.Dequeue();
if (pd != null)
{
this.SetPropertyDescriptor(folder8, pd);
}
}
this.SetContent(folder8, null);
folder.AddFolder(folder8);
folder = null;
}
continue;
}
foldername = current.Substring(0, length);
current = current.Substring(length + 1);
if (!folder.Contains(foldername) && (folder.name != foldername))
{
RFH2Folder folder9 = new RFH2Folder(foldername);
folder.AddFolder(folder9);
folder = folder9;
}
else if (folder.name != foldername)
{
folder = folder.GetFolder(foldername);
}
}
}
}
ArrayList list = new ArrayList(10);
byte[] buf = null;
int num6 = 4;
Encoding dotnetEncoding = MQCcsidTable.GetDotnetEncoding(0x4b8);
foreach (RFH2Folder folder11 in this.rfh.folders)
{
string s = folder11.Render();
buf = dotnetEncoding.GetBytes(s);
int num4 = buf.Length;
num5 = 3 - ((buf.Length - 1) % num6);
num4 += num5;
num3 += num4 + num6;
base.TrData(method, 2, "RFH2 XML(variable part) Content", buf);
list.Add(buf);
}
int i = num3 + 0x24;
int encoding = this.mqMessage.Encoding;
int characterSet = this.mqMessage.CharacterSet;
string format = this.mqMessage.Format;
int off = 0;
byte[] dst = new byte[0x24];
RFH2.InsertStrIntoByteArray("RFH ", 4, dst, 0, 0x4b8, encoding);
off += "RFH ".Length;
RFH2.InsertIntIntoByteArray(2, dst, off, encoding);
off += 4;
RFH2.InsertIntIntoByteArray(i, dst, off, encoding);
off += 4;
RFH2.InsertIntIntoByteArray(encoding, dst, off, encoding);
off += 4;
RFH2.InsertIntIntoByteArray(characterSet, dst, off, encoding);
off += 4;
RFH2.InsertStrIntoByteArray(format, 8, dst, off, 0x4b8, encoding);
off += 8;
RFH2.InsertIntIntoByteArray(0, dst, off, encoding);
off += 4;
RFH2.InsertIntIntoByteArray(0x4b8, dst, off, encoding);
this.mqMessage.Format = "MQHRF2 ";
this.ExpandMessageData((num3 + this.body.Length) + 0x24);
this.AppendByteArray(dst);
foreach (object obj2 in list)
{
buf = (byte[])obj2;
num5 = 3 - ((buf.Length - 1) % num6);
this.AppendInt(buf.Length, this.mqMessage.Encoding);
this.AppendByteArray(buf);
this.AppendByteArray(this.SPACES, 0, num5);
}
}
finally
{
base.TrExit(method);
}
}
internal byte[] ProcessMessageForRFH()
{
byte[] buffer;
uint method = 0xf4;
this.TrEntry(method);
if (this.rfhBytes == null)
{
base.TrExit(method, this.rfhBytes, 1);
return(this.rfhBytes);
}
if ((this.rfhBytes != null) && (this.rfhBytes.Length < 0x24))
{
base.TrExit(method, this.rfhBytes, 2);
return(this.rfhBytes);
}
int count = 0;
string format = null;
try
{
int encoding = this.mqMessage.Encoding;
int characterSet = this.mqMessage.CharacterSet;
ulong formatAsLong = this.GetFormatAsLong(MQCcsidTable.GetDotnetEncoding(characterSet));
format = this.mqMessage.Format;
while (((formatAsLong & 18446742974197923840L) == 0x4d51480000000000L) || ((formatAsLong & 18446742974197923840L) == 15337228433335779328L))
{
int num8 = 0;
int readCursor = this.readCursor;
this.readCursor += 8;
num8 += 8;
count = this.ReadInt(encoding);
this.readCursor += 4;
num8 += 4;
int num3 = this.ReadInt(encoding);
this.readCursor += 4;
num8 += 4;
int num4 = this.ReadInt(encoding);
this.readCursor += 4;
num8 += 4;
RFHHeader header = new RFHHeader();
header.hdrCcsid = characterSet;
header.hdrEncoding = encoding;
header.hdrFormatAsLong = formatAsLong;
header.hdrFormatAsString = format;
header.hdrLength = count;
header.hdrData = new byte[count];
System.Buffer.BlockCopy(this.rfhBytes, readCursor, header.hdrData, 0, count);
this.rfhHeaderList.Add(header);
format = this.GetFormatAsString(MQCcsidTable.GetDotnetEncoding(characterSet));
base.TrText(method, "Format of Next Header " + format);
this.mqMessage.Format = format;
num8 += 8;
this.readCursor += 8;
formatAsLong = this.GetFormatAsLong(MQCcsidTable.GetDotnetEncoding(characterSet));
int num10 = count - num8;
this.readCursor += num10;
encoding = num3;
this.mqMessage.Encoding = encoding;
characterSet = num4;
this.mqMessage.CharacterSet = num4;
}
int i = this.mqMessage.Encoding;
int num12 = this.mqMessage.CharacterSet;
string src = this.mqMessage.Format;
if (this.rfhHeaderList.Count > 0)
{
this.ConvertBytesContentToString();
}
if (this.rfhStrings.Count > 0)
{
this.ProcessAllAvailableRFHs();
this.mqMessage.properties = this._receivedProps;
this._receivedProps = null;
}
int num13 = this.dataLength - this.readCursor;
if (num13 < 0)
{
num13 = 0;
}
int num14 = 0;
for (int j = 0; j < this.rfhHeaderList.Count; j++)
{
RFHHeader header2 = (RFHHeader)this.rfhHeaderList[j];
if (header2.includeInMsg)
{
num14 += header2.hdrLength;
}
}
num14 += num13;
buffer = new byte[num14];
int dstOffset = 0;
bool flag = true;
for (int k = 0; k < this.rfhHeaderList.Count; k++)
{
RFHHeader header3 = (RFHHeader)this.rfhHeaderList[k];
if (header3.includeInMsg)
{
base.TrText(method, "Including rfh header in message which is at position : " + k);
base.TrText(method, "Header Length : " + header3.hdrLength);
if (flag)
{
this.mqMessage.Encoding = header3.hdrEncoding;
this.mqMessage.CharacterSet = header3.hdrCcsid;
this.mqMessage.Format = header3.hdrFormatAsString;
flag = false;
}
System.Buffer.BlockCopy(header3.hdrData, 0, buffer, dstOffset, header3.hdrLength);
base.TrText(method, string.Concat(new object[] { "Header ", k, " of length ", header3.hdrLength, ", included in message starting position : ", dstOffset }));
int num18 = k + 1;
while (num18 < this.rfhHeaderList.Count)
{
RFHHeader header4 = (RFHHeader)this.rfhHeaderList[num18];
if (header4.includeInMsg)
{
base.TrText(method, "Updating next header encoding, ccsid and format to this header");
RFH2.InsertIntIntoByteArray(header4.hdrEncoding, buffer, dstOffset + 12, header3.hdrEncoding);
RFH2.InsertIntIntoByteArray(header4.hdrCcsid, buffer, dstOffset + 0x10, header3.hdrEncoding);
RFH2.InsertStrIntoByteArray(header4.hdrFormatAsString, 8, buffer, dstOffset + 20, header3.hdrCcsid, header3.hdrEncoding);
break;
}
num18++;
}
if (num18 == this.rfhHeaderList.Count)
{
base.TrText(method, "No more header present. Updating encoding, ccsid and format of data to this header");
RFH2.InsertIntIntoByteArray(i, buffer, dstOffset + 12, header3.hdrEncoding);
RFH2.InsertIntIntoByteArray(num12, buffer, dstOffset + 0x10, header3.hdrEncoding);
RFH2.InsertStrIntoByteArray(src, 8, buffer, dstOffset + 20, header3.hdrCcsid, header3.hdrEncoding);
}
dstOffset += header3.hdrLength;
continue;
}
base.TrText(method, "The header processed. Not Including rfh header in message which is at position : " + k);
base.TrText(method, "Header Length which is not included : " + header3.hdrLength);
}
System.Buffer.BlockCopy(this.rfhBytes, this.readCursor, buffer, dstOffset, this.dataLength - this.readCursor);
base.TrText(method, string.Concat(new object[] { "Message data copied from position: ", this.readCursor, ", to position : ", dstOffset, ", length : ", this.dataLength - this.readCursor }));
}
finally
{
base.TrExit(method, 2);
}
return(buffer);
}