static void Main(string[] args)
{
IntPtr userData = new IntPtr(0);
try
{
FPPool myPool = new FPPool("128.221.200.56?c:\\pea\\emea1.pea");
FPTag myTag;
FPLogger log = new FPLogger();
log.LogPath = "C:\\GenStreamsLog.txt";
log.Start();
// First we'll write a test clip to the Centera
string fileName = "c:\\discovery.xml";
FileInfo info = new FileInfo(fileName);
FPClip myClip = myPool.ClipCreate("GenericStreamWrite_testClip");
myTag = myClip.AddTag("testTag");
FPGenericStream myStream = new FPGenericStream(File.OpenRead(fileName), userData);
myStream.StreamLen = info.Length;
myTag.BlobWrite(myStream);
myTag.Close();
myStream.Close();
string clipID = myClip.Write();
myClip.Close();
FPLogger.ConsoleMessage("\nGenericStreamWrite test succeeded");
// Now we will test reading it back from the Centera {
myClip = myPool.ClipOpen(clipID, FPMisc.OPEN_ASTREE);
myTag = myClip.NextTag;
myStream = new FPGenericStream(File.OpenWrite("c:\\test.out"), userData);
myStream.StreamLen = myTag.BlobSize;
myTag.BlobRead(myStream);
myStream.Close();
FPLogger.ConsoleMessage("\nGenericStreamRead test succeeded for FileStream");
// We could use a Memory stream. As it is a bi-directional stream we
// need to use a ctor that specifies the direction we want to use.
// We'll set up the space first.
MemoryStream s = new MemoryStream((int)myTag.BlobSize);
myStream = new FPGenericStream(s, FPStream.StreamDirection.OutputFromCentera, userData);
myStream.StreamLen = myTag.BlobSize;
myTag.BlobRead(myStream, FPMisc.OPTION_DEFAULT_OPTIONS);
myStream.Close();
FPLogger.ConsoleMessage("\nGenericStreamRead test succeeded for MemoryStream");
myTag.Close();
myClip.Close();
myPool.Close();
}
catch (FPLibraryException e)
{
ErrorInfo err = e.errorInfo;
FPLogger.ConsoleMessage("\nException thrown in FP Library: Error " + err.error + " " + err.message);
}
}
static void Main(string[] args)
{
IntPtr userData = new IntPtr(0);
string clipID;
BinaryReader myReader;
BinaryWriter myWriter;
BlobStream myStream;
// For thsi test we are using a file as the input. *Any* stream could be used.
// This would be your test PDF - in a file or memory stream.
FileStream inputStream = new FileStream("e:\\testfile", FileMode.Open);
FPLogger.ConsoleMessage("\nInput file length " + inputStream.Length);
try
{
FPLogger log = new FPLogger();
log.LogPath = "C:\\GenStreamsLog.txt";
log.Start();
// Create a test clip demonstrating how to write a blob using a stream
FPPool myPool = new FPPool("cse1.centera.lab.emc.com");
FPClip myClip = myPool.ClipCreate("GenericStreamWrite_testClip");
FPTag myTag = myClip.AddTag("testTag");
// Simple test of the BlobWriteStream - write contents of a local file
// to Centera using a StreamReader and StreamWriter
// We are using a temporary MemoryStream for our staging area
myStream = new BlobWriteStream(myTag);
myReader = new BinaryReader(inputStream);
myWriter = new BinaryWriter(myStream);
long writeTime1 = DateTime.Now.Ticks;
myWriter.Write(myReader.ReadBytes((int)inputStream.Length));
myWriter.Flush();
((BlobWriteStream)myStream).Close(); // If we don't do this it will stay open forever with keep alives!
writeTime1 = DateTime.Now.Ticks - writeTime1;
// If we assign values to existing FP objects we must explicitly close
// them first to avoid potential "Object In Use" errors on future closure
myTag.Close();
myTag = myClip.AddTag("SlicedBlob");
inputStream.Seek(0, SeekOrigin.Begin);
long writeTime = DateTime.Now.Ticks;
SlicedBlobWriter.Instance(inputStream, myTag, 8);
writeTime = DateTime.Now.Ticks - writeTime;
myTag.Close();
clipID = myClip.Write();
myClip.Close();
FPLogger.ConsoleMessage("\nGenericStreamWrite test succeeded " + clipID);
// Now we will test reading it back from the Centera {
myClip = myPool.ClipOpen(clipID, FPMisc.OPEN_ASTREE);
myTag = myClip.NextTag;
// Here we create a stream to read back the blob
long readTime1 = DateTime.Now.Ticks;
myStream = new BlobReadStream(myTag);
// This is only to test to verify when we read the content back it is the same as the
// input file i.e. we are going to store it on the file system and then use file system tools
// to compare the files
myReader = new BinaryReader(myStream);
myWriter = new BinaryWriter(new FileStream("c:\\testfile2.out", FileMode.Create));
((BlobReadStream)myStream).Join();
myWriter.Write(myReader.ReadBytes((int)myTag.BlobSize));
myWriter.Flush();
myStream.Close();
readTime1 = DateTime.Now.Ticks - readTime1;
myTag.Close();
// This shows how to read content back using multiple threads
myTag = myClip.NextTag;
long readTime = DateTime.Now.Ticks;
SlicedBlobReader.Instance(new FileStream("c:\\testfile2.out.sliced", FileMode.Create), myTag, 8);
readTime = DateTime.Now.Ticks - readTime;
myTag.Close();
myClip.Close();
myPool.Close();
FPLogger.ConsoleMessage("\nSerial tests - Write time: " + TimeSpan.FromTicks(writeTime1) + " Read time " + TimeSpan.FromTicks(readTime1));
FPLogger.ConsoleMessage("\nMulti threaded tests - Write time: " + TimeSpan.FromTicks(writeTime) + " Read time " + TimeSpan.FromTicks(readTime));
}
catch (FPLibraryException e)
{
ErrorInfo err = e.errorInfo;
FPLogger.ConsoleMessage("\nException thrown in FP Library: Error " + err.error + " " + err.message);
}
}
static void Main(string[] args)
{
try
{
FPLogger.ConsoleMessage("\nCluster to connect to [" + defaultCluster + "] : ");
String clusterAddress = System.Console.ReadLine();
if ("" == clusterAddress)
{
clusterAddress = defaultCluster;
}
UTF8Encoding converter2 = new UTF8Encoding();
// We are going to create a filename containing Chinese characters
byte[] inputFileName = { 0xE6, 0x98, 0x8E, 0xE5, 0xA4, 0xA9, 0x2E, 0x74, 0x78, 0x74 };
string fileName = System.Text.Encoding.UTF8.GetString(inputFileName);
File.WriteAllText(fileName, "Test file with wide characters in the file name\n");
FPLogger.ConsoleMessage("\nEnter the threshold to use for Embedded Blobs: ");
String blobString = System.Console.ReadLine();
if (blobString == "")
{
blobString = "0";
}
int blobThreshold = Int32.Parse(blobString);
if (blobThreshold > 0)
{
FPLogger.ConsoleMessage("\nContent less than " + blobString + " bytes will be embedded in the CDF.");
}
else
{
FPLogger.ConsoleMessage("\nContent will never be embedded in the CDF.");
}
FPPool.EmbeddedBlobThreshold = blobThreshold;
FPPool thePool = new FPPool(clusterAddress);
// Create the clip
FPClip clipRef = new FPClip(thePool, "UTF8_Example");
clipRef.SetAttribute("OriginalFilename", fileName);
FPTag fileTag = clipRef.AddTag("WideFilenameTag");
fileTag.SetAttribute("filename", fileName);
// Write the content of the file to the Centera
FPStream streamRef = new FPWideFilenameStream(fileName);
fileTag.BlobWrite(streamRef, FPMisc.OPTION_CLIENT_CALCID);
streamRef.Close();
long blobSize = fileTag.BlobSize;
if (blobThreshold > 0 && blobSize < blobThreshold)
{
FPLogger.ConsoleMessage("\nContent was embedded in the CDF as size "
+ blobSize
+ " is less than the threshold.");
}
fileTag.Close();
fileTag = clipRef.AddTag("TestTag");
fileTag.SetAttribute("fileCabinetGuid", "52d9cf57-7261-472a-b6d9-a8cdd30d1d27");
fileTag.SetAttribute("attr2", "a second attribute");
fileTag.SetAttribute("anotherattr", "the third attribute");
/* Or you can write from a memory buffer holding the data
* The exampe uses a byte array containing a string
*/
UTF8Encoding converter = new UTF8Encoding();
byte[] rawBuffer = converter.GetBytes("This is a test string to illustrate how to interface to Centera using a buffer stream");
IntPtr source = Marshal.AllocHGlobal(rawBuffer.Length);
Marshal.Copy(rawBuffer, 0, source, rawBuffer.Length);
streamRef = new FPStream(source, rawBuffer.Length, FPStream.StreamDirection.InputToCentera);
fileTag.BlobWrite(streamRef, FPMisc.OPTION_CLIENT_CALCID);
streamRef.Close();
Marshal.FreeHGlobal(source);
fileTag.Close();
fileTag = clipRef.AddTag("TestTag2");
fileTag.SetAttribute("filename", fileName);
// We will only store a fragment of the file - "length" characters from position "offset"
long offset = 5;
long length = 30;
streamRef = new FPWideFilenameStream(fileName, offset, length);
fileTag.BlobWrite(streamRef, FPMisc.OPTION_CLIENT_CALCID);
streamRef.Close();
// And this is how we read back at most "length" characters into a file at position "offset"
// We can also specify that we don't want the created file to be larger than "maxFileSize"
long maxFileSize = 20;
streamRef = new FPWideFilenameStream(fileName + ".partial", FileMode.OpenOrCreate, offset, length, maxFileSize);
fileTag.BlobRead(streamRef);
streamRef.Close();
String clipID = clipRef.Write();
/* Write the Clip ID to the output file, "inputFileName.clipID" */
FPLogger.ConsoleMessage("\nThe C-Clip ID of the content is " + clipID);
FileStream outFile = new FileStream(fileName + ".clipID", FileMode.Create);
BinaryWriter outWriter = new BinaryWriter(outFile);
outWriter.Write(clipID.ToString() + "\n");
outWriter.Close();
outFile.Close();
fileTag.Close();
clipRef.Close();
thePool.Close();
}
catch (FPLibraryException e)
{
ErrorInfo err = e.errorInfo;
FPLogger.ConsoleMessage("\nException thrown in FP Library: Error " + err.error + " " + err.message);
}
}
