Tsocket samples send and receive?

Tsocket samples send and receive?

Postby dutch » Mon Sep 25, 2006 4:52 pm

Dear All,

I want to send data via Tsocket and wait for Server reply but I don't know does to. In SockCli.prg is send and receive but How to wait until get reply ::GetData() back.

Example
PPC -> PC (Send Request Data)
wait state (PPC wait for answer)
PPC <- PC (PC answer to PPC)

Can I :New() and :End() many time in one opening program? Because I thinks :New(), :SendData(), :GetData() must do in the same Window or Dialog, doesn't it?

Best regards,
Dutch
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dutch
 
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Re: Tsocket samples send and receive?

Postby Enrico Maria Giordano » Tue Sep 26, 2006 10:17 am

This is a sample:

Code: Select all  Expand view
FUNCTION MAIN()

    LOCAL nSocket

    INETINIT()

    nSocket = INETCONNECT( cIp, nPort )

    ? INETERRORCODE( nSocket )

    INETSEND( nSocket, "This is a test." + CHR( 13 ) + CHR( 10 ) )

    ? INETRECVLINE( nSocket )

    INETCLOSE( nSocket )

    INETCLEANUP()

    INKEY( 0 )

    RETURN NIL


EMG
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Postby dutch » Tue Sep 26, 2006 4:39 pm

Dear Enrico,

What is the library of those functions? I cannot find any document of Fivewin or Harbour?

Best regards,
Dutch
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Postby Enrico Maria Giordano » Tue Sep 26, 2006 4:44 pm

wininet.lib. This is inet.txt from xHarbour CVS:

XHARBOUR INET API
-------------------


Giancarlo Niccolai <gian@niccolai.ws>

/* $DOC$
* $FUNCNAME$
* Xharbour Inet functions
* $CATEGORY$
* Xharbour Enhacements
* $ONELINER$
* XHARBOUR INET API
* $DESCRIPTION$
*
* STATUS OF THIS DOCUMENT
*
*
* This is just a draft, a survival guide with minimal API instructions
* extracted from the inet.c program comments and from some posting to
* the xharbour newsgroup.
*
* More adequate version will be available soon.
*
*
* XHARBOUR INET API
* =================
*
*
* Startup / cleanup functions
* ---------------------------
*
* InetInit() -->NIL
* Activates inet support; mainly used for winsock start up at the moment, but
* could be used in the future for many other purpose. Put it at the beginning
* of every program using INET functions.
*
*
* InetCleanup() -->NIL
* Closes Inet support; mainly used for win32. Put it at the end of any program
* using Inet functions, just before the program exits.
*
* InetCreate() --> SOCKET
* Creates the raw data of the socket, that can be passed to an asynchronous
* connection function (InetConnect or InetConnectIP). This will prevent the
* connection function from allocating some data that could be never used in
* certain cases, i.e. an asynchronously detected timeout.
*
* InetClose( SOCKET ) --> NUMERIC
* Closes the socket, notifiying both ends of the communication pipe that the
* connection is over. If you have threads waiting for data to be read from
* this socket, this method will make them stop waiting and return an error
* (socket closed) to their callers.
* The method does not destroy the socket, which can be used by subordinate
* threads to check that the socket is closed, and so they should stop as soon
* as they can. Don't destroy the socket unless you are sure that no other
* thread is using it.
* RETURNS 0 on success or -1 on error; on error, the error code is set;
* (actually, on success the socket error code is set to 1 -- socket closed )
*
*
* InetDestroy( SOCKET ) --> Numeric
* Closes AND destroys a socket. After this call, the socket can't be used
* anymore. Returns 0 on success -1 on failure.
*
*
* InetSetTimeout( SOCKET, nMillisecs ) --> NIL
* Sets the default timeout of the given socket. Default timeout is used in all
* blocking operations: if the operation can't be done in nMillisec milliseconds,
* the function returns immediately and the InetErrorCode( SOCKET ) returns -1.
* The default timeout is not the maximum time that a function using the socket
* is allowed to execute: it is the maximum time that each single blocking
* operation inside that function is allowed to hold the control of the socket.
* So, an function like InetReadAll(), that may repeat a raw recv() several
* times, is not guaranteed to terminate in nMillisecs, but you are guaranteed
* that if any of that raw socket read operation is going to take more than
* nMillisecs, the function will be terminated.
* When created, a socket is created with an infinite default timeout (-1).
*
* InetGetTimeout( SOCKET ) --> NUMERIC
* Returns the timeout set for the given socket.
*
* InetClearTimeout( SOCKET, nMillisecs ) --> NIL
* Clears the default timeout of the given socket. Default timeout is used in all
* blocking operations.
*
*
* Informative functions
* ---------------------
*
* InetErrorCode( SOCKET ) --> Numeric
* Returns the last error code that has been provoked by a network operation,
* or 0 if none. Error codes are the ones used for winsock or UnixSockets (they
* are the same); 1 is reserved for "connection closed" message.
*
*
* InetErrorDesc( SOCKET ) --> String
* Returns a string describing the last error that occurred in the socket;
* the string is system dependent, and should be used only for debugging
* purposes.
*
*
* InetCount( SOCKET ) --> Numeric
* Returns the amount of characters read or written in the latest socket
* operation.
*
*
* InetAddress( SOCKET ) --> STRING
* Returns a string representing the remote server address in quad dot notation,
* e.g. "192.168.1.1", or the local server address if the socket is server
* side.
* TODO: have a version that returns a vector of 4 numbers.
*
*
* InetPort( SOCKET ) --> STRING
* Returns the port to which this socket is bound, or the remote port if this
* socket is connected with a remote host or client
*
* Server Side socket functions
* ----------------------------
*
* InetServer( port [, cBindAddr [, nListenLimit]] ) --> SOCKET
* Creates a server that can accept connections from client on a certain port.
* If the computer on which InetServe is called has more than one logical
* interface (e.g. one network card, one loopback and one PPP address),
* cBindAddr can be specified to select only one of these interfaces to accept
* connections for this process. This is useful when a server is present on
* two networks, and the service is to be available only in one of them. Also,
* the same port on other addresses is left free to be used, so you can have
* different server programs running for different networks but managing
* the same service. In example, an FTP server available to the internal
* network could be radically different from an FTP server available for
* the internet.
* nListenLimit is an internal parameter and rarely needs to be specified.
* This is the number of incoming connections accepted by kernel before the
* kernel has the chance to report them to the application program. If
* the sockets receive nListenLimit connections before accepting them
* all, the nListenLimit + 1 connection will be notified to be "busy" by
* the kernel. Usually, a value of 10 (the default) is enough for even
* a heavy duty server.
* On error, sets error description in the newly returned socket.
*
* InetAccept( SOCKET ) --> SOCKET
* Waits until a connection is available on a socket created with InetServer;
* Returns a socket that can be used to communicate with the incoming client.
* On error, sets error in the newly returned socket.
*
* Client side socket functions
* ----------------------------
*
* InetConnect( cAddress, nPort ) --> SOCKET
* InetConnect( cAddress, nPort, SOCKET ) --> NIL
* Connects to a remote server described by cAddress, that can be in
* quad dot notation (e.g. "192.168.1.1") or in DNS name (e.g.
* "www.xharbour.org"), using the desired port.
* InetConnect uses "gethostbyname" C system call to
* find the network address of the specified server; this means that
* this call is an hybrid function doing both a DNS scan and a TCP/IP
* connection. InetConnect is not thread safe, and the xHarbour
* program must take care that two InetConnect functions are never
* called at the same moment from two different threads (or that
* InetGetHosts is not called in the same moment as an InetConnect).
* The second version of this function accepts a pre-built socket
* as a parameter. This allows to kill asyncronously a thread waiting
* for InetConnect to connect, and then cleaning up the leftover
* socket data. Also, it is possible to give timeout to the given SOCKET,
* but this timeout will be used only in the connection phase, after that
* the network address resolution is completed. Use GetHosts() and
* InetConnectIP for a finer timeout control.
* On error, the error of the returned socket is set. The error could
* be due to unavailable name resolving service, host name not valid,
* host address not reachable and host reachable but port not open.
*
*
* InetConnectIP( cAddress, PORT ) --> SOCKET
* InetConnectIP( cAddress, PORT, SOCKET ) --> NIL
* Connects to a remote server described by cAddress, that can be specified
* only in quad dot IPV4 notation (e.g. "127.0.0.1"), using the desired port.
* This version of InetConnect does not use gethostbyname, and thus is thread
* safe and can be used in combination with InetGetHosts to have a finer
* timeout control while connecting to a server, and a finer error control.
* The second version of this function accepts a pre-built socket
* as a parameter. This allows to kill asyncronously a thread waiting
* for InetConnectIP to connect, and then cleaning up the leftover
* socket data. Also, it is possible to give timeout at the given SOCKET.
*
* On error, the error of the returned socket is set.
*
*
*
* Sending and receiving data
* ----------------------------
*
* InetRecv( SOCKET, @cString [, nAmount] ) --> NUMERIC
* Reads at maximum nAmount bytes (or a number of bytes equal to cString
* length if nAmount is not given) from the socket into cString.
* The parameter cString must be preallocated so that it has enough
* space to receive the data. The routine will block the thread until some
* bytes are read from the socket, the socket is closed (either from the
* receiver or the sender side) or a network error occurs, whichever comes
* first. In the latter cases, an error is set, and only the characters
* received until premature end of communications are returned.
* Notice that there is no guarantee that all the available bytes will be
* read before the function returns, in fact, InetRecv returns as soon it
* is able to fill cString with one or more bytes. To block the current
* process until the whole cString is filled (or nAmount bytes are read),
* use the InetRecvALL().
* RETURNS the number of the characters read from the SOCKET.
*
*
* InetRecvAll( SOCKET, @cString [, @nAmount] ) --> NUMERIC
* This function works exactly as InetRecv, except for the fact that it
* blocks until nAmount bytes are read, if nAmount is given, or
* cString is filled for its whole length.
* RETURNS the number of the characters read from the SOCKET. Might be
* less than nAmount on premature socket closing or on network error.
*
*
* InetRecvLine( SOCKET [, @nResult, [, nMaxLength [, nBufSize]]] ) --> STRING
* Blocks the calling thread until a sequence CRLF is read from the socket.
* Incremental allocation and end-of-line checking are done in an efficient
* way. If an error occurs, or if the stream is closed before a CRLF is read,
* the function returns nothing and sets the socket error.
* The returned string does not contain the trailing CRLF sequence, so an
* empty line is effectively returned as an empty string.
* If the nResult parameter is given, it will contain the number of bytes
* read from the socket, including the CRLF sequence, so that in normal
* conditions, nResult will report a count equal to the length of the
* returned string plus 2. nResult will be 0 if stream is closed before
* a CRLF sequence is read, and will be -1 on error.
* An optional MaxLength parameter can be given to allow a maximum character
* count before the data is returned anyway. If this number is hit before
* a CRLF sequence is encountered, nResult will contain the value one.
* Finally, a nBufSize parameter can be given. If not, memory allocation
* will be increased by discrete amounts of 80 bytes. The programmer
* can provide here a different allocation strategy (e.g. setting nBufSize
* equal to nMaxLength, memory for reading the line will be allocated only
* once, at the beginning of the function).
*
*
* InetRecvEndBlock( SOCKET [, cBlock [, @nResult, [, nMaxLength [,
* nBufSize]]]] ) --> STRING
* This function operates exactly the same way as InetRecvLine, but
* the "record termination" is customizable thorugh the cBlock parameter.
* If not given, this parameter defaults to the CRLF sequence.
* Provided by: Marcelo Lombardo
*
*
* InetDataReady( SOCKET [, nMillisecs] ) --> NUMERIC
* Verifies if some data is available to be read in the socket without blocking
* execution of the caller. If nMillisecs is not given, the function returns
* immediately 1 if there is some data to be read, 0 if there isn't any data and
* -1 in case of error. If nMillisecs is given, the functon will wait up to that
* amount of milliseconds for data to be available; if some data arrives in the
* meanwhile, the wait is immediately interrupted.
* The next InetRecv() function will read all the available data (up to the
* required length) without blocking.
* On error, InetErrorCode and InetErrorDesc can be use to determine what kind
* of error happened.
*
*
* InetSend( SOCKET, STRING [, nLength ] ) --> NUMERIC
* Send data being stored in a string over the socket. Returns the amount of
* data written, 0 if the socket has been closed in the meanwhile or -1 on
* error. The nLength parameter can be given to allow writing only a part of
* the string.
* Please, notice that there is no guarantee that all your string will be
* sent, as this is a decision that is up to the OS; this function does not
* take care to ensure that the data is really sent; so you should check for
* the returned number, and send the part that has not been sent.
* To ensure that all the data is sent before the function returns, use the
* InetSendAll() function.
* On error, the error in the socket is set.
*
*
* InetSendAll( SOCKET, STRING [, nLength ] ) --> NUMERIC
* This function works exactly as InetSend() but it ensures that all the
* data to be sent is written before returning.
*
* Utility Functions
* ------------------
*
* InetGetHosts( cName ) --> aHosts
* Returns an array containing all the IP addresses associated with a given
* host name. The IP addressess returned by this funtion are strings in
* quad dot notations, eg "192.168.1.1", and can be directly used into
* InetConnectIP(). cName can be any string: valid DNS names (eg.
* "www.myserver.com"), locally available names (e.g. "localhost" or
* windows Network Neighborhood names), or even IP addresses in quad
* dot notation.
* NOTE: This function is not thread safe (by design), and programmers
* must be sure not to use it at the same time in two different threads,
* or not to use it together with a InetConnect(). If this kind of situation
* should ever arise, you are advised to use a thread MUTEX.
* On error, and if the server can't be found, the function returns NIL.
*
*
* InetGetAlias( cName ) --> aHosts
* Returns an array containing the aliases ( CNAME DNS records ) by
* which the server is currently known. Whether this function is able
* to have the complete list of aliases or not depends on the verbosity
* of the DNS server.
*
*
* InetCRLF() --> String
* Returns a CRLF sequence used in many internet protocols.
*
* UDP (User Datagram Protocol) Compliant Routines
* -----------------------------------------------
*
* InetDGram( [bBroadcast] ) --> SOCKET
* Creates a datagram oriented socket that will be able to send data and
* eventually receive data. Since the socket is not bound, the program can't
* retrieve the address at which this socket appaers to be, but a second
* socket receiving a message sent from this one would be able to reply
* correctly with a datagram that can be read from a non-bound socket.
* If bBroadcast is set to .T., the routine creates a broadcast capable socket:
* it will be able to receive and send broadcast messages. On most systems this
* requires special user privileges.
* Returns the socket, and if an error occurs, the socket error message
* and code are set.
*
*
* InetDGramBind( nPort, [cAddress [, bBroadcast] ] ) --> SOCKET
* Creates a datagram oriented socket and binds it to a particular port, and
* eventually to a certain interface if cAddress is given and not NIL.
* If bBroadcast is set to .T., the routine creates a broadcast capable socket:
* it will be able to receive and send broadcast messages. On most systems this
* requires special user privileges.
* Returns the socket, and if an error occurs, the socket error message
* and code are set.
*
*
* InetDGramSend( SOCKET, cAddress, nPort, cBuffer [, nSize ] ) --> NUMERIC
* Sends a datagram (a fixed length data) to a determined ip address (cAddress,
* to be specified in quad-dot notation) and port. If nSize is not specified,
* all the data in cBuffer will be sent; if nSize is specified, only
* the first nSize bytes of cBuffer will be sent.
* There isn't any guarantee that all the data required to be written is
* really sent to the socket: the calling program should check for the
* numeric return and send iteratively the unsent data to complete
* the message.
* Anyway, the raw datagram is sent and received as once, and any data
* less than the system datagram size will be sent and received
* as a single item.
* If the socket is created in broadcast mode, the cAddress element
* can be a broadcast address.
* Returns -1 on error, or the number of bytes actually sent on success.
*
* InetDGramRecv( SOCKET, cBuffer [, nSize ] ) --> NUMERIC
* Reads at maximum nSize bytes incoming from a UDP socket, if nSize is
* given, or reads at maximum cBuffer length if nSize is not given.
* There isn't any guarantee that all the data required to be read is
* really sent from the kernel to the application: the kernel should
* just return the last complete datagram that has been received, up
* to nSize bytes.
* Returns -1 on error, or the number of bytes actually read on success.
* $END$
*/


EMG
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Enrico Maria Giordano
 
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Postby dutch » Wed Sep 27, 2006 2:19 am

Dear Enrico,

HB_CE has not this lib. Is there another TSocket class samples for my case?

I try as following but it doesn't work.

Code: Select all  Expand view
#include "FWCE.ch"

static oWnd, oSocket, cReadData

function Main()

   local oBtn1, oBtn2, oBtn3, oBtn4, oGet

   local cTbl := space(4)

   DEFINE WINDOW oWnd TITLE '192.168.0.238'

   @ 10, 100 GET oGet VAR cTbl SIZE 60, 18 PIXEL

   @ 2, 2 BUTTON oBtn1 PROMPT "Connect" ;
           ACTION (Client( oBtn1, oBtn2, oBtn3, oBtn4 )) SIZE 80, 20
   
   @ 4, 2 BUTTON oBtn2 PROMPT "SendData" ;
          ACTION (SendReq(oSocket,oGet,@cTbl), oGet:SetFocus()) ;
          SIZE 80, 20

   @ 6, 2 BUTTON oBtn3 PROMPT "ReadData" ;
          ACTION MsgInfo(cReadData)  SIZE 80, 20

   @ 8, 2 BUTTON oBtn4 PROMPT "HostName" ;
          ACTION MsgInfo( GetHostName() ) SIZE 80, 20

   oBtn2:Disable()
   oBtn3:Disable()
   oBtn4:Disable()

   ACTIVATE WINDOW oWnd
   oSocket:End()
return nil

function Client( oBtn1, oBtn2, oBtn3, oBtn4 )

   oSocket = TSocket():New( 2000 )

   oSocket:bRead    = { | oSocket | OnRead( oSocket )  }

   // Never use a MsgInfo() here because it hangs Windows!!!
   oSocket:bConnect = { || oBtn1:Disable(), oBtn2:Enable(), oBtn3:Enable(), oBtn4:Enable() }

   oSocket:bClose   = { || MsgInfo( "Server has closed!" ) }

   oSocket:Connect( "192.168.0.238" ) // use the server IP address here

return nil

function SendFile()

   MemoWrit( CurDir() + "\test.txt", "This is a file test" )
   oSocket:SendData( "SENDFILE test.txt" )
   SysRefresh()
   oSocket:SendFile( CurDir() + "\test.txt" )
   oSocket:End()
   MsgInfo( "File sent" )

return nil


*---------------*
Function SendReq(oSocket,oGet, cTbl)
local nSec := seconds()
Default cTbl := '012 '

oSocket:SendData( "TBL 01"+cTbl )

do while empty(cReadData) .and. nSec+3 >= seconds()
end

cTbl := space(4)
oGet:Refresh()
return !empty(cReadData)

*--------------*
Function OnRead( oSocket )
local cGetData := oSocket:GetData()

cReadData := cGetData

// MsgInfo( cReadData )

return nil


Best regards,
Dutch
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dutch
 
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Postby Enrico Maria Giordano » Wed Sep 27, 2006 6:55 am

dutch wrote:Dear Enrico,

HB_CE has not this lib.


Yes, it has. wininet.lib is a standard WinCE library. But my sample is for xHarbour. I wasn't aware that this is a FWPPC forum, sorry. Anyway, you may try to write the wrappers to the functions used by my sampe.

EMG
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