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https://github.com/KolibriOS/kolibrios.git
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git-svn-id: svn://kolibrios.org@1944 a494cfbc-eb01-0410-851d-a64ba20cac60
388 lines
12 KiB
Plaintext
388 lines
12 KiB
Plaintext
What is implemented
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===================
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The following features are present in the TCP/IP stack code:
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IP layer.
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ICMP.
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TCP layer.
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UDP layer.
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local loopback.
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Realtek 8029 PCI ethernet interface.
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Realtek 8139 PCI ethernet interface.
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Intel i8255x PCI ethernet interface.
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Dynamic ARP table.
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PPP dialer
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And the following internet applcations are implemented
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HTTP Server
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Telnet
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POP Client
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DNS Name resolver
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MP3 Server
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TFTP Client
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IRC Client
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There are also a number of experimental applications for streaming music
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and performing interprocess communication via sockets. A Web broswer is in
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development
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What is not implemented
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=======================
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The IP layer does not process header options.
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The IP layer does not support routing.
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Packet fragmentation is not supported.
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How to configure Kolibri for PPP
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===============================
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See ppp.txt
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How to configure Kolibri for Ethernet
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====================================
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First, you need to have a supported ethernet card fitted, or present
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on your motherboard. If you are uncertain what type of hardware you
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have, try to configue the stack. If you have supported hardware it
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will be found, and enabled.
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Setting Up the ARP Table
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------------------------
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Kolibri's ARP table is dynamically created and maintained; You can see what
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hosts Kolibri has communicated with by running the ARPSTAT application.
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Enabling Ethernet
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-----------------
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Boot Kolibri, then select STACKCFG from the NET menu.
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Press the 'Read' Button, then select 'Packet Driver'.
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Press 'Change' next to the IP address, and enter the IP address you want
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to use. Make sure it is on the same sub-net as the LAN to which you are
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connected.
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Press 'Apply' to action the changes.
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Close the program.
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The stack is now running, which you can test by pinging Kolibri from a
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remote host.
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The simplest way to connect two PC's together is using a 'Null Modem'
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Ethernet cable. These simply cross certain wires over. They can be
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purchased from PC stores, but are simple to make. Details can be found
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on the web. Look on google for 'ethernet cross over cable' or similar.
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How to use TCP/IP locally, with no Network
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==========================================
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Kolibri supports a form of local loopback that means applications on the
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same PC can communicate with each other via sockets as though they
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were on separate hosts. To connect to an application on the same machine,
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specify the local IP address as the destination address. You do not even
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need to configure the stack for ethernet; local loopback will work without
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any network hardware. It's great for development and testing.
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Application Programming Interface
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=================================
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The developer can access the stack through interrupt 0x40, function 53.
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The file TFTPC.ASM gives a good example of how to use the programming
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interface ( at least, for UDP), but as network communication is complex
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I'll give an overview.
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Sockets
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=======
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Applications connect to each other and pass information between themselves
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through a mechanism called a 'socket'. Sockets are end-points for
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communication; You need one at each application to communicate.
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Using sockets is a little like using files on an OS; You open them, read
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and write to them, then close them. The only thing that makes life slightly
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more complicated is that unlike with a file, you have something intelligent
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at the other end ( which for example may not want to close when you do! )
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Lets deal with the terminology before we go any further.
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socket A unique identifier used by the application for communication.
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local port A number that identifies this application on the local host.
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Ports are a way to allow multiple applications to communicate
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with other hosts without the data becoming mixed up. ( The
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technical term is 'multiplex' ). Port numbers are 16 bit.
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remote port A number that identifies the application on the remote host
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to which we are communicating with. To the remote host, this is
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it's 'local port'. Port numbers are 16 bit.
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IP Address A 32 bit number that identifies the remote host PC that we are
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communicating with.
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Passive Refers to the mode by which a socket is opened; When opening in
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passive mode, the local PC is awaiting an incoming connection.
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Active Refers to the mode by which a socket is opened; When opening in
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active mode, the local PC will attempt to connect to a remote
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PC.
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When you connect to a socket on a remote PC, you need to specify more than
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just the IP address, otherwise the remote stack will not know to which
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application it should send your data. You must fully qualify the address,
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which means you specify the IP address and the port number. This would be
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written like this
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192.168.1.10:80 ; Connect to port 80 on the machine 192.168.1.10
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Port numbers are important. Some are 'well known' and provide access to
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common applications. For example port 80 is used by HTTP servers; That
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way I can connect to a webserver on a host without having to find out
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what port number the application is listening on.
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This brings me to the way in which you open a socket; As I said earlier,
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there are two modes, Passive and Active. A webserver would open a passive
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socket, as it is waiting for incoming connection requests. A web browser
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would open an active socket because it is attempting to connect to a
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specified remote host.
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Access to programming interface
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===============================
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The developer accesses the stack functions through interrupt 0x40,
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function 53. Some functions may be accessed through function 52, but these
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are mainly for stack configuration.
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Here is a summary of the functions that you may use and the parameter
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definitions.
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Get Local IP Address
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--------------------
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eax = 52
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ebx = 1
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IP address returned in eax ( in internet byte order )
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Write to stack input queue
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--------------------------
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eax = 52
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ebx = 6
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edx = number of bytes to write
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esi = pointer to data ( in application space )
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On return, eax holds 0 for OK, or 0xFFFFFFFF for error.
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This interface is for slow network drivers only ( PPP, SLIP )
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Read data from network output queue
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-----------------------------------
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eax = 52
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ebx = 8
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esi = pointer to data ( in application space )
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On return, eax holds number of bytes transferred.
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This interface is for slow network drivers only ( PPP, SLIP )
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Open a UDP socket
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-----------------
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eax = 53
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ebx = 0
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ecx = local port
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edx = remote port
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esi = remote ip address ( in internet byte order )
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The socket number allocated is returned in eax.
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A return value of 0xFFFFFFFF means no socket could be opened.
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Open a TCP socket
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-----------------
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eax = 53
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ebx = 5
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ecx = local port
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edx = remote port
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esi = remote ip address ( in internet byte order )
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edi = mode : SOCKET_PASSIVE or SOCKET_ACTIVE ( defined in stack.inc )
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The socket number allocated is returned in eax.
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A return value of 0xFFFFFFFF means no socket could be opened.
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Close a socket (UDP Only )
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--------------------------
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eax = 53
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ebx = 1
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ecx = socket number
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On return, eax holds 0 for OK, or 0xFFFFFFFF for error.
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Close a socket (TCP Only )
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--------------------------
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eax = 53
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ebx = 8
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ecx = socket number
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On return, eax holds 0 for OK, or 0xFFFFFFFF for error.
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Poll socket
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-----------
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eax = 53
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ebx = 2
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ecx = socket number
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On return, eax holds the number of bytes in the receive buffer.
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Read socket data
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----------------
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eax = 53
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ebx = 3
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ecx = socket number
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On return, eax holds the number of bytes remaining, bl holds a data byte.
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Write to socket ( UDP only )
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----------------------------
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eax = 53
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ebx = 4
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ecx = socket number
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edx = number of bytes to write
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esi = pointer to data ( in application space )
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On return, eax holds 0 for OK, or 0xFFFFFFFF for error.
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Return socket status ( TCP only )
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---------------------------------
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eax = 53
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ebx = 6
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ecx = socket number
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On return, eax holds the sockets TCP status.
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This function can be used to determine when a socket has actually connected
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to another socket - data cannot be written to a socket until the connection
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is established (TCB_ESTABLISHED). The states a socket can be in are defined
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in stack.inc as TCB_
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Write to socket ( TCP only )
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----------------------------
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eax = 53
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ebx = 7
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ecx = socket number
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edx = number of bytes to write
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esi = pointer to data ( in application space )
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On return, eax holds 0 for OK, or 0xFFFFFFFF for error.
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Check port number
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-----------------
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eax = 53
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ebx = 9
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ecx = port number
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This function is used to determine if a port number
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is in use by any sockets as a local port number. Local
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port numbers are normally unique.
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On return, eax is 1 for port number not in use, 0 otherwise.
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Opening a TCP socket in Kolibri
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===============================
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There are two ways to open a socket - Passive or Active.
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In a Passive connection your application 'listens' for incoming
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requests from remote applications. Typically this will be done when
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you are implementing a server application that allows any other
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application to connect to it. You would specify a 'known' local
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port number, such as 80 for a web server. You would leave the
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remote IP and remote port number as 0, which indicates any
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remote application may connect.
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Once the socket has been opened you would wait for an incoming
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connection before doing anything. This can be by either checking
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the socket status for TCB_ESTABLISHED, or waiting for data in the
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receive buffer.
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In an Active connection, you are making a connection to a specified
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remote port. The remote IP and remote port parameters must be filled
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in with non-zero values ( otherwise, what are you connecting to? ).
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You also specify a unique local port number so the remote application
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can uniquely identify you - after all, there may be several applications
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on your machine connected to the same remote host. See below for finding
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a unique port number.
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How to find an unused local port number
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=======================================
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Typically when you are creating an active connection to a remote
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socket you will want to choose a unique local port number. Local
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port numbers normally start from 1000; The following code may
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be used to obtain an unused port number prior to making the
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open socket call.
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mov ecx, 1000 ; local port starting at 1000
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getlp:
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inc ecx
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push ecx
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mov eax, 53
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mov ebx, 9
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int 0x40
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pop ecx
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cmp eax, 0 ; is this local port in use?
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jz getlp ; yes - so try next
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; ecx contains a free local port number
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Writing data to a socket
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========================
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There are two functions available depending on whether the socket
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was opened for TCP or UDP protocol; The call parameters are the
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same however. When the socket is being opened for TCP, use the
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status function to poll for a connection - data cannot be written
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to a socket until another socket has connected to it, and the
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state of the socket is TCB_ESTABLISHED.
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When you write data, the call results in a single IP packet being
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created and transmitted. Thus the user application is responsible for
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the size of transmitted packets. Keep the packet sizes under 768 bytes.
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If you are writing a terminal program like telnet, you may want to send
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a packet for each keystroke ( inefficient ) or use a timer to send data
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periodically ( say, every second ).
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Reading data from a socket
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==========================
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There is one function to read data from a sockets receive buffer. This
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function retrieves one byte at a time. You can use the poll function to
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test the receive buffer for data.
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Closing a socket
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================
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Simply call the appropriate function - there is one for TCP, and another
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for UDP. When closing a TCP socket, don't forget that the other end
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may continue to send data, so the socket may remain active for a
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few seconds after your call.
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If you have any questions or have suggestions for improving this
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document please contact me at mikeh@oceanfree.net.
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