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SDL_net 1.2.4

1. Overview  The README from the SDL_net distribution

2. Getting Started  Using SDL_net

3. Functions  Functions supported by the SDL_net API
4. Types  Types used with the SDL_net API
5. Defines  Defined values/macros in the SDL_net API

6. Glossary  Terms used in this document

Index  Index of selected words

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1. Overview

A Little Bit About Me

I am currently, as I write this document, a programmer for Raytheon. There I do all sorts of communications, network, GUI, and other general programming tasks in C/C++ on the Solaris and sometimes Linux Operating Systems. I have been programming network code at work and in my free time for about 8 years. I find there is always more to learn about network coding, but the rewards for making something comunicate over what can only be called the most chaotic channel of information transfer are sometimes to much fun to ignore. I have coded only a few things in SDL_net that I would call complete projects. However SDL_net does make network coding easier and more portable than anything I could code using just plain BSD sockets. I was happy that I could finally base my code on something that is portable and small enough to be unintrusive. SDL_net does sometimes seem to oversimplify some things, but in the end I found that if I couldn't do it in SDL_net then perhaps I'm not doing something that is worthwhile. Of course I have and will continue to do things that are not so worthwhile perhaps, using SDL_net. Like a Web Server library, and an IRC client library. But I still enjoy making them anyway! So if you are making a game, or doing a school project, or even making a no-fun application, SDL_net is a viable choice in my opinion for almost any of these tasks. If you are interested in multicast and non-TCP/IPv4 networking then SDL_net is not the right thing for you. Everyone else, please make more network games that are fun to play, and portable enough that more people are out there to play with. I, meanwhile, will continue writting documentation and applications and games that will likely become vapourware before they even see the light of day, but I'll be having fun the whole time.

Feel free to contact me: jcatki@jcatki.no-ip.org

I am also usually on IRC at irc.freenode.net in the #SDL channel as LIM

This is the README in the SDL_net source archive.

SDL_net 1.2

The latest version of this library is available from:
SDL_net Homepage

This is an example portable network library for use with SDL. It is available under the GNU Library General Public License. The API can be found in the file SDL_net.h This library supports UNIX, Windows, and BeOS. MacOS support is being written.

The demo program is a chat client and server. The chat client requires the sample GUI library available at:
GUIlib Homepage
The chat client connects to the server via TCP, registering itself. The server sends back a list of connected clients, and keeps the client updated with the status of other clients. Every line of text from a client is sent via UDP to every other client.

Note that this isn't necessarily how you would want to write a chat program, but it demonstrates how to use the basic features of the network library.

Enjoy!

-Sam Lantinga and Roy Wood

You may want to look at
Beej's Guide to Network Programming, which explains network programming using BSD sockets. You can apply the knowledge from there while using SDL_net.

And here's a bit of humor for you to look at as you deal with networking terms.

Dr. Suess as a Network Wizard

Gene_Ziegler@Cornell.edu

Here's an easy game to play.
Here's an easy thing to say....

If a packet hits a pocket on a socket on a port,
and the bus is interupted as a very last resort,
and the address of the memory makes your floppy disk abort
then the socket packet pocket has an error to report!

If your cursor finds a menu item followed by a dash,
and the double-clicking icon puts your window in the trash,
and your data is corrupted cause the index doesn't hash,
then your situation's hopeless, and your system's gona crash.

You can't say this? What a shame, sir!
We'll find you another game, sir.

If the label on the cable on the table at your house
says the network is connected to the button on your mouse,
but your packets want to tunnel on another protocol,
that's repeatedly rejected by the printer down the hall,
and your screen is all distorted by the side-effects of gauss,
so your icons in the window are as wavy as a souse,
then you may as well reboot and go out with a bang,
cause as sure as I'm a poet, the sucker's gunna hang!

When the copy of your floppy's getting sloppy on the disk,
and the microcode instructions cause unecessary risc,
then you have to flash your memory and you'll want to RAM your ROM.
quickly turn of your computer and be sure to tell your mom!


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2. Getting Started

This assumes you have gotten SDL_net and installed it on your system. SDL_net has an INSTALL document in the source distribution to help you get it compiled and installed.

Generally, installation consists of:

 
./configure
make
make install

You may also want to look at some demonstration code which may be downloaded from:
http://jcatki.no-ip.org/SDL_net/

2.1 Includes  The include files to use for SDL_net
2.2 Compiling  Using the SDL_net library and header file.


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2.1 Includes

To use SDL_net functions in a C/C++ source code file, you must use the SDL_net.h include file:

#include "SDL_net.h"


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2.2 Compiling

To link with SDL_net you should use sdl-config to get the required SDL compilation options. After that, compiling with SDL_net is quite easy.
Note: Some systems may not have the SDL_net library and include file in the same place as the SDL library and includes are located, in that case you will need to add more -I and -L paths to these command lines.

Simple Example for compiling an object file:

cc -c `sdl-config --cflags` mysource.c

Simple Example for compiling an object file:

cc -o myprogram mysource.o `sdl-config --libs` -lSDL_net

Now myprogram is ready to run.


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3. Functions

These are the functions in the SDL_net API.

3.1 General  API activation
3.2 Name Resolution  Hostname and numeric IP lookup (IPaddress functions)
3.3 TCP Sockets  Working with TCP connections
3.4 UDP Sockets  Working with UDP semi-connections
3.5 UDP Packets  Working with the UDPpacket type
3.6 Socket Sets  Working on demand with sockets

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3.1 General

These functions are useful, as they are the only/best ways to work with SDL_net.

Activation
3.1.1 SDLNet_Init  Start up SDL_net functionality
3.1.2 SDLNet_Quit  Stop SDL_net functionality
Errors
3.1.3 SDLNet_GetError  Get the current error string
Data Helpers
3.1.4 SDLNet_Write16  Put a 16bit number in network ordered data
3.1.5 SDLNet_Write32  Put a 32bit number in network ordered data
3.1.6 SDLNet_Read16  Get a 16bit number from network ordered data
3.1.7 SDLNet_Read32  Get a 32bit number from network ordered data


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3.1.1 SDLNet_Init

int SDLNet_Init()

Initialize the network API.
This must be called before using other functions in this library.
SDL must be initialized before this call.

Returns: 0 on success, -1 on errors

 
if(SDL_Init(0)==-1) {
    printf("SDL_Init: %s\n", SDL_GetError());
    exit(1);
}
if(SDLNet_Init()==-1) {
    printf("SDLNet_Init: %s\n", SDLNet_GetError());
    exit(2);
}

See Also:
3.1.2 SDLNet_Quit


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3.1.2 SDLNet_Quit

void SDLNet_Quit()

Shutdown and cleanup the network API.
After calling this all sockets are closed, and the SDL_net functions should not be used. You may, of course, use SDLNet_Init to use the functionality again.

 
SDLNet_Quit();
// you could SDL_Quit(); here...or not.

See Also:
3.1.1 SDLNet_Init


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3.1.3 SDLNet_GetError

char *SDLNet_GetError()

This is the same as SDL_GetError, which returns the last error set as a string which you may use to tell the user what happened when an error status has been returned from an SDLNet_function.

Returns: a char pointer (string) containing a humam readble version or the reason for the last error that occured.

 
printf("Oh My Goodness, an error : %s", SDLNet_GetError());


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3.1.4 SDLNet_Write16

void SDLNet_Write16(Uint16 value, void *area)

value
The 16bit number to put into the area buffer
area
The pointer into a data buffer, at which to put the number

Put the 16bit (a short on 32bit systems) value into the data buffer area in network byte order. This helps avoid byte order differences between two systems that are talking over the network. The value can be a signed number, the unsigned parameter type doesn't affect the data. The area pointer need not be at the beginning of a buffer, but must have at least 2 bytes of space left, including the byte currently pointed at.

 
// put my number into a data buffer to prepare for sending to a remote host
char data[1024];
Sint16 number=12345;
SDLNet_Write16((Uint16)number,data);

See Also:
3.1.6 SDLNet_Read16, 3.1.5 SDLNet_Write32


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3.1.5 SDLNet_Write32

void SDLNet_Write32(Uint32 value, void *area)

value
The 32bit number to put into the area buffer
area
The pointer into a data buffer, at which to put the number

Put the 32bit (a long on 32bit systems) value into the data buffer area in network byte order. This helps avoid byte order differences between two systems that are talking over the network. The value can be a signed number, the unsigned parameter type doesn't affect the data. The area pointer need not be at the beginning of a buffer, but must have at least 4 bytes of space left, including the byte currently pointed at.

 
// put my number into a data buffer to prepare for sending to a remote host
char data[1024];
Uint32 number=0xDEADBEEF;
SDLNet_Write32(number,data);

See Also:
3.1.7 SDLNet_Read32, 3.1.4 SDLNet_Write16


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3.1.6 SDLNet_Read16

Uint16 SDLNet_Read16(void *area)

area
The pointer into a data buffer, at which to get the number from

Get a 16bit (a short on 32bit systems) value from the data buffer area which is in network byte order. This helps avoid byte order differences between two systems that are talking over the network. The returned value can be a signed number, the unsigned parameter type doesn't affect the data. The area pointer need not be at the beginning of a buffer, but must have at least 2 bytes of space left, including the byte currently pointed at.

 
// get a number from a data buffer to use on this host
//char *ptr; //this points into a previously received data buffer
Sint16 number;
number=(Sint16) SDLNet_Read16(ptr);
// number is now in your hosts byte order, ready to use.

See Also:
3.1.4 SDLNet_Write16, 3.1.7 SDLNet_Read32


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3.1.7 SDLNet_Read32

Uint32 SDLNet_Read32(void *area)

area
The pointer into a data buffer, at which to get the number from

Get a 32bit (a long on 32bit systems) value from the data buffer area which is in network byte order. This helps avoid byte order differences between two systems that are talking over the network. The returned value can be a signed number, the unsigned parameter type doesn't affect the data. The area pointer need not be at the beginning of a buffer, but must have at least 4 bytes of space left, including the byte currently pointed at.

 
// get a number from a data buffer to use on this host
//char *ptr; //this points into a previously received data buffer
Uint32 number;
number=SDLNet_Read32(ptr);
// number is now in your hosts byte order, ready to use.

See Also:
3.1.5 SDLNet_Write32, 3.1.6 SDLNet_Read16


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3.2 Name Resolution

These functions are used to resolve hostnames and numerical IPv4 Address to each other.

3.2.1 SDLNet_ResolveHost  
3.2.2 SDLNet_ResolveIP  


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3.2.1 SDLNet_ResolveHost

int SDLNet_ResolveHost(IPaddress *address, char *host, Uint16 port)

address
This points to the IPaddress that will be filled in. It doesn't need to be set before calling this, but it must be allocated in memory.
host
For connecting to a server, this is the hostname or IP in a string.
For becoming a server, this is NULL. If you do use NULL, all network interfaces would be listened to for incoming connections, using the INADDR_ANY address.
port
For connecting to a server, this is the the servers listening port number.
For becoming a server, this is the port to listen on.
If you are just doing Domain Name Resolution functions, this can be 0.

Resolve the string host, and fill in the IPaddress pointed to by address with the resolved IP and the port number passed in through port.
This is the best way to fill in the IPaddress struct for later use. This function does not actually open any sockets, it is used to prepare the arguments for the socket opening functions.
WARNING: this function will put the host and port into Network Byte Order into the address fields, so make sure you pass in the data in your hosts byte order. (normally not an issue)

Returns: 0 on success. -1 on errors, plus address.host will be INADDR_NONE. An error would likely be that the address could not be resolved.

For a server listening on all interfaces, on port 1234:

 
// create a server type IPaddress on port 1234
IPaddress ipaddress;
SDLNet_ResolveHost(&ipaddress, NULL, 1234);

For a client connecting to "host.domain.ext", at port 1234:

 
// create an IPaddress for host name "host.domain.ext" on port 1234
// this is used by a client
IPaddress ipaddress;
SDLNet_ResolveHost(&ipaddress, "host.domain.ext", 1234);

See Also:
3.2.2 SDLNet_ResolveIP, 4.1 IPaddress


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3.2.2 SDLNet_ResolveIP

char *SDLNet_ResolveIP(IPaddress *address)

address
This points to the IPaddress that will be resolved to a host name. The address->port is ignored.

Resolve the IPv4 numeric address in address->host, and return the hostname as a string.

Returns: a valid char pointer (string) on success. the returned hostname will have host and domain, as in "host.domain.ext". NULL is returned on errors, such as when it's not able to resolve the host name. The returned pointer is not to be freed. Each time you call this function the previous pointer's data will change to the new value, so you may have to copy it into a local buffer to keep it around longer.

 
// resolve the host name of the address in ipaddress
//IPaddress ipaddress;
char *host;
if(!(host=SDLNet_ResolveIP(&ipaddress))) {
    printf("SDLNet_ResolveIP: %s\n", SDLNet_GetError());
    exit(1);
}

See Also:
3.2.1 SDLNet_ResolveHost, 4.1 IPaddress


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3.3 TCP Sockets

These functions are used to work with TCP Sockets. TCP is used with a full connection, whereas UDP is connectionless. TCP also ensures that all packets reach the destionation (when possible). TCP also ensures that packets are received in the same order as sent.

General
3.3.1 SDLNet_TCP_Open  Open a TCP client or server socket
3.3.2 SDLNet_TCP_Close  Close a TCP socket
Server
3.3.3 SDLNet_TCP_Accept  Accept a connection on a server socket
Information
3.3.4 SDLNet_TCP_GetPeerAddress  Get the remote host address and port number
Input/Output
3.3.5 SDLNet_TCP_Send  Send data over a connected socket
3.3.6 SDLNet_TCP_Recv  Receive data from a connected socket


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3.3.1 SDLNet_TCP_Open

TCPsocket SDLNet_TCP_Open(IPaddress *ip)

ip
This points to the IPaddress that contains the resolved IP address and port number to use.

Connect to the host and port contained in ip using a TCP connection.
If the host is INADDR_ANY, then only the port number is used, and a socket is created that can be used to later accept incoming TCP connections.

Returns: a valid TCPsocket on success, which indicates a successful connection has been established, or a socket has been created that is valid to accept incoming TCP connections. NULL is returned on errors, such as when it's not able to create a socket, or it cannot connect to host and/or port contained in ip.

 
// connect to localhost at port 9999 using TCP (client)
IPaddress ip;
TCPsocket tcpsock;

if(SDLNet_ResolveHost(&ip,"localhost",9999)==-1) {
    printf("SDLNet_ResolveHost: %s\n", SDLNet_GetError());
    exit(1);
}

tcpsock=SDLNet_TCP_Open(&ip);
if(!tcpsock) {
    printf("SDLNet_TCP_Open: %s\n", SDLNet_GetError());
    exit(2);
}

 
// create a listening TCP socket on port 9999 (server)
IPaddress ip;
TCPsocket tcpsock;

if(SDLNet_ResolveHost(&ip,NULL,9999)==-1) {
    printf("SDLNet_ResolveHost: %s\n", SDLNet_GetError());
    exit(1);
}

tcpsock=SDLNet_TCP_Open(&ip);
if(!tcpsock) {
    printf("SDLNet_TCP_Open: %s\n", SDLNet_GetError());
    exit(2);
}

See Also:
3.3.3 SDLNet_TCP_Accept, 3.3.2 SDLNet_TCP_Close, 4.1 IPaddress, 4.2 TCPsocket


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3.3.2 SDLNet_TCP_Close

void SDLNet_TCP_Close(TCPsocket sock)

sock
A valid TCPsocket. This can be a server or client type socket.

This shutsdown, disconnects, and closes the TCPsocket sock.
After this, you can be assured that this socket is not in use anymore. You can reuse the sock variable after this to open a new connection with SDLNet_TCP_Open. Do not try to use any other functions on a closed socket, as it is now invalid.

Returns: nothing, this always succeeds for all we need to know.

 
// close the connection on sock
//TCPsocket sock;

SDLNet_TCP_Close(sock);

See Also:
3.3.1 SDLNet_TCP_Open, 4.2 TCPsocket


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3.3.3 SDLNet_TCP_Accept

TCPsocket SDLNet_TCP_Accept(TCPsocket server)

server
This is the server TCPsocket which was previously created by
SDLNet_TCP_Open.

Accept an incoming connection on the server TCPsocket.
Do not use this function on a connected socket. Server sockets are never connected to a remote host. What you get back is a new TCPsocket that is connected to the remote host.
This is a non-blocking call, so if no connections are there to be accepted, you will get a NULL TCPsocket and the program will continue going.

Returns: a valid TCPsocket on success, which indicates a successful connection has been established. NULL is returned on errors, such as when it's not able to create a socket, or it cannot finish connecting to the originating host and port. There also may not be a connection attempt in progress, so of course you cannot accept nothing, and you get a NULL in this case as well.

 
// accept a connection coming in on server_tcpsock
TCPsocket new_tcpsock;

new_tcpsock=SDLNet_TCP_Accept(server_tcpsock);
if(!new_tcpsock) {
    printf("SDLNet_TCP_Accept: %s\n", SDLNet_GetError());
}
else {
    // communicate over new_tcpsock
}

See Also:
3.3.1 SDLNet_TCP_Open, 3.3.4 SDLNet_TCP_GetPeerAddress, 3.3.2 SDLNet_TCP_Close, 4.2 TCPsocket


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3.3.4 SDLNet_TCP_GetPeerAddress

IPaddress *SDLNet_TCP_GetPeerAddress(TCPsocket sock)

sock
This is a valid TCPsocket.

Get the Peer's (the other side of the connection, the remote side, not the local side) IP address and port number.

Returns: an IPaddress. NULL is returned on errors, or when sock is a server socket.

 
// get the remote IP and port
//TCPsocket new_tcpsock;
IPaddress *remote_ip;

remote_ip=SDLNet_TCP_GetPeerAddress(new_tcpsock);
if(!remote_ip) {
    printf("SDLNet_TCP_GetPeerAddress: %s\n", SDLNet_GetError());
    printf("This may be a server socket.\n");
}
else {
    // print the info in IPaddress or something else...
}

See Also:
3.3.1 SDLNet_TCP_Open, 3.3.3 SDLNet_TCP_Accept, 4.1 IPaddress, 4.2 TCPsocket


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3.3.5 SDLNet_TCP_Send

int SDLNet_TCP_Send(TCPsocket sock, void *data, int len)

sock
This is a valid, connected, TCPsocket.
data
This is a pointer to the data to send over sock.
len
This is the length (in bytes) if the data.

Send data of length len over the socket sock.
This routine is not used for server sockets.

Returns: the number of bytes sent. If the number returned is less than len, then an error occured, such as the client disconnecting.

 
// send a hello over sock
//TCPsocket sock;
int len,result;
char *msg="Hello!";

len=strlen(msg)+1; // add one for the terminating NULL
result=SDLNet_TCP_Send(sock,msg,len);
if(result<len) {
    printf("SDLNet_TCP_Send: %s\n", SDLNet_GetError());
    // It may be good to disconnect sock because it is likely invalid now.
}

See Also:
3.3.6 SDLNet_TCP_Recv, 3.3.3 SDLNet_TCP_Accept, 3.3.1 SDLNet_TCP_Open, 3.3.4 SDLNet_TCP_GetPeerAddress, 3.3.2 SDLNet_TCP_Close, 4.2 TCPsocket


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3.3.6 SDLNet_TCP_Recv

int SDLNet_TCP_Recv(TCPsocket sock, void *data, int maxlen)

sock
This is a valid, connected, TCPsocket.
data
This is a pointer to the buffer that receives the data from sock.
maxlen
This is the maximum length (in bytes) that will be read into data.

Receive data of exactly length maxlen bytes from the socket sock, into the memory pointed to by data.
This routine is not used for server sockets.
Unless there is an error, or the connection is closed, the buffer will read maxlen bytes. If you read more than is sent from the other end, then it will wait until the full requested length is sent, or until the connection is closed from the other end.
You may have to read 1 byte at a time for some applications, for instance, text applications where blocks of text are sent, but you want to read line by line. In that case you may want to find the newline characters yourself to break the lines up, instead of reading some inordinate amount of text which may contain many lines, or not even a full line of text.

Returns: the number of bytes received. If the number returned is less than or equal to zero, then an error occured, or the remote host has closed the connection.

 
// receive some text from sock
//TCPsocket sock;
#define MAXLEN 1024
int result;
char msg[MAXLEN];

result=SDLNet_TCP_Recv(sock,msg,MAXLEN);
if(result<=0) {
    // An error may have occured, but sometimes you can just ignore it
    // It may be good to disconnect sock because it is likely invalid now.
}
printf("Received: \"%s\"\n",msg);

See Also:
3.3.5 SDLNet_TCP_Send, 3.3.3 SDLNet_TCP_Accept, 3.3.1 SDLNet_TCP_Open, 3.3.4 SDLNet_TCP_GetPeerAddress, 3.3.2 SDLNet_TCP_Close, 4.2 TCPsocket


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3.4 UDP Sockets

These functions are used to work with UDP Sockets.
UDP is connectionless, but can be used as if it is connected, in the sense that you don't have to address every outgoing packet if you don't want to. This is done by binding a socket to remote IP address and port pairs.
UDP has no delivery guarantees, each packet has a chance of never getting to the destination.
UDP packets may also be received completely out of order, as compared to the order of sending them.
All these seeming bad qualities are made up for in speed. UDP is faster than TCP, and so many games and speed sensitive applications, which may also be sending redundant data anyways, such as a game state, prefer to use UDP for the speed benefits.

SDL_net has a concept of channels, which help you to matchup packets to specific clients easier. These channel numbers are not transmitted in the UDP packet data, but rather when a UDP socket receives or sends packets, a channel number may be used instead of an IPaddress to refer to the source or destination. You might prefer not to use channels at all, which is fine. SDL_net provides them only as an optional convenience.

General
3.4.1 SDLNet_UDP_Open  Create a UDP socket
3.4.2 SDLNet_UDP_Close  Close and free a UDP socket
Channel Binding
3.4.3 SDLNet_UDP_Bind  Assign an IP address number to a socket channel
3.4.4 SDLNet_UDP_Unbind  Remove all assigned IP addresses from a socket channel
3.4.5 SDLNet_UDP_GetPeerAddress  Get the assigned IP address for a socket channel or get the port you opened the socket with
Single UDPpacket
3.4.6 SDLNet_UDP_Send  Send a UDPpacket
3.4.7 SDLNet_UDP_Recv  Receive into a UDPpacket
Many UDPpackets in a vector (array)
3.4.8 SDLNet_UDP_SendV  Send a UDPpacket vector
3.4.9 SDLNet_UDP_RecvV  Receive into a UDPpacket vector


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3.4.1 SDLNet_UDP_Open

UDPsocket SDLNet_UDP_Open(Uint16 port)

port
This is the port number (in native byte order) on which to receive UDP packets. Most servers will want to use a known port number here so that clients can easily communicate with the server. This can also be zero, which then opens an anonymous unused port number, to most likely be used to send UDP packets from.

Open a socket to be used for UDP packet sending and/or receiving.
If a non-zero port is given it will be used, otherwise any open port number will be used automatically.
Unlike TCP sockets, this socket does not require a remote host IP to connect to, this is because UDP ports are never actually connected like TCP ports are.
This socket is able to send and receive directly after this simple creation.

Returns: a valid UDPsocket on success. NULL is returned on errors, such as when it's not able to create a socket, or it cannot assign the non-zero port as requested.

Note that below I say server, but clients may also open a specific port, though it is prefered that a client be more flexible, given that the port may be already allocated by another process, such as a server. In such a case you will not be able to open the socket, and your program will be stuck, so it is better to just use whatever port you are given by using a specified port of zero. Then the client will always work. The client can inform the server what port to talk back to, or the server can just look at the source of the packets it is receiving to know where to respond to.

 
// create a UDPsocket on port 6666 (server)
UDPsocket udpsock;

udpsock=SDLNet_UDP_Open(6666);
if(!udpsock) {
    printf("SDLNet_UDP_Open: %s\n", SDLNet_GetError());
    exit(2);
}

 
// create a UDPsocket on any available port (client)
UDPsocket udpsock;

udpsock=SDLNet_UDP_Open(0);
if(!udpsock) {
    printf("SDLNet_UDP_Open: %s\n", SDLNet_GetError());
    exit(2);
}

See Also:
3.4.2 SDLNet_UDP_Close, 4.3 UDPsocket


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3.4.2 SDLNet_UDP_Close

void SDLNet_UDP_Close(UDPsocket sock)

sock
A valid UDPsocket to shutdown, close, and free.

Shutdown, close, and free a UDPsocket.
Don't use the UDPsocket after calling this, except to open a new one.

Returns: nothing, this always succeeds.

 
// unbind all addresses on the UDPsocket channel 0
//UDPsocket udpsock;

SDLNet_UDP_Close(udpsock);
udpsock=NULL; //this helps us know that this UDPsocket is not valid anymore

See Also:
3.4.1 SDLNet_UDP_Open, 4.3 UDPsocket


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3.4.3 SDLNet_UDP_Bind

int SDLNet_UDP_Bind(UDPsocket sock, int channel, IPaddress *address)

sock
the UDPsocket on which to assign the address.
channel
The channel to assign address to. This should be less than
SDLNET_MAX_UDPCHANNELS. If -1 is used, then the first unbound channel will be used, this should only be used for incomming packet filtering, as it will find the first channel with less than SDLNET_MAX_UDPADDRESSES assigned to it and use that one.
address
The resolved IPaddress to assign to the socket's channel. The host and port are both used.
It is not helpful to bind 0.0.0.0 to a channel.

Bind an address to a channel on a socket.
Incoming packets are only allowed from bound addresses for the socket channel.
All outgoing packets on that channel, regardless of the packets internal address, will attempt to send once on each bound address on that channel.
You may assign up to SDLNET_MAX_UDPADDRESSES to each channel.

Returns: The channel number that was bound. -1 is returned on errors, such as no free channels, or this channel has SDLNET_MAX_UDPADDRESSES already assigned to it, or you have used a channel higher or equal to SDLNET_MAX_UDPCHANNELS, or lower than -1.

 
// Bind address to the first free channel
//UDPsocket udpsock;
//IPaddress *address;
int channel;

channel=SDLNet_UDP_Bind(udpsock, -1, address);
if(channel==-1) {
    printf("SDLNet_UDP_Bind: %s\n", SDLNet_GetError());
    // do something because we failed to bind
}

See Also:
3.4.4 SDLNet_UDP_Unbind, 3.4.5 SDLNet_UDP_GetPeerAddress, 3.4.1 SDLNet_UDP_Open, 4.1 IPaddress, 4.3 UDPsocket


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3.4.4 SDLNet_UDP_Unbind

void SDLNet_UDP_Unbind(UDPsocket sock, int channel)

sock
A valid UDPsocket to unbind addresses from.
channel
The channel to unbind the addresses from in the UDPsocket.

This removes all previously assigned (bound) addresses from a socket channel.
After this you may bind new addresses to the socket channel.

Returns: nothing, this always succeeds.

 
// unbind all addresses on the UDPsocket channel 0
//UDPsocket udpsock;

SDLNet_UDP_Unbind(udpsock, 0);

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.2 SDLNet_UDP_Close, 4.3 UDPsocket


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3.4.5 SDLNet_UDP_GetPeerAddress

IPaddress *SDLNet_UDP_GetPeerAddress(UDPsocket sock, int channel)

sock
A valid UDPsocket that probably has an address assigned to the channel.
channel
The channel to get the primary address from in the socket. This may also be -1 to get the port which this socket is bound to on the local computer.

Get the primary address assigned to this channel. Only the first bound address is returned.
When channel is -1, get the port that this socket is bound to on the local computer, this only means something if you opened the socket with a specific port number.
Do not free the returned IPaddress pointer.

Returns: a pointer to an IPaddress. NULL is returned for unbound channels and on any errors.

 
// get the primary address bound to UDPsocket channel 0
//UDPsocket udpsock;
IPaddress *address;

address=SDLNet_UDP_GetPeerAddress(udpsock, 0);
if(!address) {
    printf("SDLNet_UDP_GetPeerAddress: %s\n", SDLNet_GetError());
    // do something because we failed to get the address
}
else {
    // perhaps print out address->host and address->port
}

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.4 SDLNet_UDP_Unbind, 4.1 IPaddress, 4.3 UDPsocket


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3.4.6 SDLNet_UDP_Send

int SDLNet_UDP_Send(UDPsocket sock, int channel, UDPpacket *packet)

sock
A valid UDPsocket.
channel
what channel to send packet on.
packet
The packet to send.

Send packet using the specified socket sock, use ing the specified channel or else the packet's address.
If channel is not -1 then the packet is sent to all the socket channels bound addresses. If socket sock's channel is not bound to any destinations, then the packet is not sent at all!
If the channel is -1, then the packet's address is used as the destination.
Don't forget to set the length of the packet in the len element of the packet you are sending! NOTE: the packet->channel will be set to the channel passed in to this function.

Returns: The number of destinations sent to that worked. 0 is returned on errors.
Note that since a channel can point to multiple destinations, there should be just as many packets sent, so dont assume it will always return 1 on success. Unfortunately there's no way to get the number of destinations bound to a channel, so either you have to remember the number bound, or just test for the zero return value indicating all channels failed.

 
// send a packet using a UDPsocket, using the packet's channel as the channel
//UDPsocket udpsock;
//UDPpacket *packet;
int numsent;

numsent=SDLNet_UDP_Send(udpsock, packet->channel, packet);
if(!numsent) {
    printf("SDLNet_UDP_Send: %s\n", SDLNet_GetError());
    // do something because we failed to send
    // this may just be because no addresses are bound to the channel...
}

Here's a way of sending one packet using it's internal channel setting.
This is actually what SDLNet_UDP_Send ends up calling for you.

 
// send a packet using a UDPsocket, using the packet's channel as the channel
//UDPsocket udpsock;
//UDPpacket *packet;
int numsent;

numsent=SDLNet_UDP_SendV(sock, &packet, 1);
if(!numsent) {
    printf("SDLNet_UDP_SendV: %s\n", SDLNet_GetError());
    // do something because we failed to send
    // this may just be because no addresses are bound to the channel...
}

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.8 SDLNet_UDP_SendV, 3.4.7 SDLNet_UDP_Recv, 3.4.9 SDLNet_UDP_RecvV, 4.4 UDPpacket, 4.3 UDPsocket


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3.4.7 SDLNet_UDP_Recv

int SDLNet_UDP_Recv(UDPsocket sock, UDPpacket *packet)

sock
A valid UDPsocket.
packet
The packet to receive into.

Receive a packet on the specified sock socket.
The packet you pass in must have enough of a data size allocated for the incoming packet data to fit into. This means you should have knowledge of your size needs before trying to receive UDP packets.
The packet will have it's address set to the remote sender's address.
The socket's channels are checked in highest to lowest order, so if an address is bound to multiple channels, the highest channel with the source address bound will be retreived before the lower bound channels. So, the packets channel will also be set to the highest numbered channel that has the remote address and port assigned to it. Otherwise the channel will -1, which you can filter out easily if you want to ignore unbound source address.
Note that the local and remote channel numbers do not have to, and probably won't, match, as they are only local settings, they are not sent in the packet.
This is a non-blocking call, meaning if there's no data ready to be received the function will return.

Returns: 1 is returned when a packet is received. 0 is returned when no packets are received. -1 is returned on errors.

 
// try to receive a waiting udp packet
//UDPsocket udpsock;
UDPpacket packet;
int numrecv;

numrecv=SDLNet_UDP_Recv(udpsock, &packet);
if(numrecv) {
    // do something with packet
}

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.6 SDLNet_UDP_Send, 3.4.8 SDLNet_UDP_SendV, 3.4.9 SDLNet_UDP_RecvV, 4.4 UDPpacket, 4.3 UDPsocket


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3.4.8 SDLNet_UDP_SendV

int SDLNet_UDP_SendV(UDPsocket sock, UDPpacket **packetV, int npackets)

sock
A valid UDPsocket.
packetV
The vector of packets to send.
npackets
number of packets in the packetV vector to send.

Send npackets of packetV using the specified sock socket.
Each packet is sent in the same way as in SDLNet_UDP_Send (see section 3.4.6 SDLNet_UDP_Send).
Don't forget to set the length of the packets in the len element of the packets you are sending!

Returns: The number of destinations sent to that worked, for each packet in the vector, all summed up. 0 is returned on errors.

 
// send a vector of 10 packets using UDPsocket
//UDPsocket udpsock;
//UDPpacket **packetV;
int numsent;

numsent=SDLNet_UDP_SendV(udpsock, packetV, 10);
if(!numsent) {
    printf("SDLNet_UDP_SendV: %s\n", SDLNet_GetError());
    // do something because we failed to send
    // this may just be because no addresses are bound to the channels...
}

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.6 SDLNet_UDP_Send, 3.4.7 SDLNet_UDP_Recv, 3.4.9 SDLNet_UDP_RecvV, 4.4 UDPpacket, 4.3 UDPsocket


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3.4.9 SDLNet_UDP_RecvV

int SDLNet_UDP_RecvV(UDPsocket sock, UDPpacket **packetV)

sock
A valid UDPsocket.
packet
The packet to receive into.

Receive into a packet vector on the specified socket sock.
packetV is a NULL terminated array. Packets will be received until the NULL is reached, or there are none ready to be received.
This call is otherwise the same as SDLNet_UDP_Recv (see section 3.4.7 SDLNet_UDP_Recv).

Returns: the number of packets received. 0 is returned when no packets are received. -1 is returned on errors.

 
// try to receive some waiting udp packets
//UDPsocket udpsock;
//UDPpacket **packetV;
int numrecv, i;

numrecv=SDLNet_UDP_RecvV(udpsock, &packetV);
if(numrecv==-1) {
    // handle error, perhaps just print out the SDL_GetError string.
}
for(i=0; i<numrecv; i++) {
    // do something with packetV[i]
}

See Also:
3.4.3 SDLNet_UDP_Bind, 3.4.6 SDLNet_UDP_Send, 3.4.8 SDLNet_UDP_SendV, 3.4.7 SDLNet_UDP_Recv, 4.4 UDPpacket, 4.3 UDPsocket


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3.5 UDP Packets

These functions are used to work with the UDPpacket type. This type is used with UDP sockets to transmit and receive data.

Single UDPpacket
3.5.1 SDLNet_AllocPacket  Allocate a new UDP packet with a data buffer
3.5.2 SDLNet_ResizePacket  Resize the data buffer in a UDPpacket
3.5.3 SDLNet_FreePacket  Free a previously allocated UDPpacket
Many UDPpackets in a vector (array)
3.5.4 SDLNet_AllocPacketV  Allocate a vector of UDPpackets
3.5.5 SDLNet_FreePacketV  Free a vector of UDPpackets


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3.5.1 SDLNet_AllocPacket

UDPpacket *SDLNet_AllocPacket(int size)

size
Size, in bytes, of the data buffer to be allocated in the new UDPpacket.
Zero is invalid.

Create (via malloc) a new UDPpacket with a data buffer of size bytes.
The new packet should be freed using SDLNet_FreePacket when you are done using it.

Returns: a pointer to a new empty UDPpacket. NULL is returned on errors, such as out-of-memory.

 
// create a new UDPpacket to hold 1024 bytes of data
UDPpacket *packet;

packet=SDLNet_AllocPacket(1024);
if(!packet) {
    printf("SDLNet_AllocPacket: %s\n", SDLNet_GetError());
    // perhaps do something else since you can't make this packet
}
else {
    // do stuff with this new packet
    // SDLNet_FreePacket this packet when finished with it
}

See Also:
3.5.4 SDLNet_AllocPacketV, 3.5.2 SDLNet_ResizePacket, 3.5.3 SDLNet_FreePacket, 3.4.6 SDLNet_UDP_Send, 3.4.8 SDLNet_UDP_SendV, 4.4 UDPpacket


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3.5.2 SDLNet_ResizePacket

int SDLNet_ResizePacket(UDPpacket *packet, int size)

packet
A pointer to the UDPpacket to be resized.
size
The new desired size, in bytes, of the data buffer to be allocated in the UDPpacket.
Zero is invalid.

Resize a UDPpackets data buffer to size bytes. The old data buffer will not be retained, so the new buffer is invalid after this call.

Returns: the new size of the data in the packet. If the number returned is less than what you asked for, that's an error.

 
// Resize a UDPpacket to hold 2048 bytes of data
//UDPpacket *packet;
int newsize;

newsize=SDLNet_ResizePacket(packet, 2048);
if(newsize<2048) {
    printf("SDLNet_ResizePacket: %s\n", SDLNet_GetError());
    // perhaps do something else since you didn't get the buffer you wanted
}
else {
    // do stuff with the resized packet
}

See Also:
3.5.1 SDLNet_AllocPacket, 3.5.4 SDLNet_AllocPacketV, 3.5.3 SDLNet_FreePacket, 4.4 UDPpacket


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3.5.3 SDLNet_FreePacket

void SDLNet_FreePacket(UDPpacket *packet)

packet
A pointer to the UDPpacket to be freed from memory.

Free a UDPpacket from memory. Do not use this UDPpacket after this function is called on it.

Returns: nothing, this always succeeds.

 
// Free a UDPpacket
//UDPpacket *packet;

SDLNet_FreePacket(packet);
packet=NULL; //just to help you know that it is freed

See Also:
3.5.1 SDLNet_AllocPacket, 3.5.4 SDLNet_AllocPacketV, 3.5.5 SDLNet_FreePacketV, 3.5.2 SDLNet_ResizePacket, 4.4 UDPpacket


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3.5.4 SDLNet_AllocPacketV

UDPpacket **SDLNet_AllocPacketV(int howmany, int size)

howmany
The number of UDPpackets to allocate.
size
Size, in bytes, of the data buffers to be allocated in the new UDPpackets.
Zero is invalid.

Create (via malloc) a vector of new UDPpackets, each with data buffers of size bytes. The new packet vector should be freed using SDLNet_FreePacketV when you are done using it. The returned vector is one entry longer than requested, for a terminating NULL.

Returns: a pointer to a new empty UDPpacket vector. NULL is returned on errors, such as out-of-memory.

 
// create a new UDPpacket vector to hold 1024 bytes of data in 10 packets
UDPpacket **packetV;

packetV=SDLNet_AllocPacketV(10, 1024);
if(!packetV) {
    printf("SDLNet_AllocPacketV: %s\n", SDLNet_GetError());
    // perhaps do something else since you can't make this packet
}
else {
    // do stuff with this new packet vector
    // SDLNet_FreePacketV this packet vector when finished with it
}

See Also:
3.5.1 SDLNet_AllocPacket, 3.5.3 SDLNet_FreePacket, 3.5.5 SDLNet_FreePacketV, 3.5.2 SDLNet_ResizePacket, 4.4 UDPpacket


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3.5.5 SDLNet_FreePacketV

void SDLNet_FreePacketV(UDPpacket **packetV)

packetV
A pointer to the UDPpacket vector to be freed from memory.

Free a UDPpacket vector from memory. Do not use this UDPpacket vector, or any UDPpacket in it, after this function is called on it.

Returns: nothing, this always succeeds.

 
// Free a UDPpacket vector
//UDPpacket **packetV;

SDLNet_FreePacketV(packetV);
packetV=NULL; //just to help you know that it is freed

See Also:
3.5.4 SDLNet_AllocPacketV, 3.5.1 SDLNet_AllocPacket, 3.5.3 SDLNet_FreePacket, 3.5.2 SDLNet_ResizePacket, 4.4 UDPpacket


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3.6 Socket Sets

These functions are used to work with multiple sockets. They allow you to determine when a socket has data or a connection waiting to be processed. This is analogous to polling, or the select function.

General
3.6.1 SDLNet_AllocSocketSet  Create a new socket set
3.6.2 SDLNet_FreeSocketSet  Free a socket set
Setup
3.6.3 SDLNet_AddSocket  Add a socket to a socket set
3.6.4 SDLNet_DelSocket  Remove a socket from a socket set
Activity Checking
3.6.5 SDLNet_CheckSockets  Check and wait for sockets in a set to have activity
3.6.6 SDLNet_SocketReady  See if a socket has activity


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3.6.1 SDLNet_AllocSocketSet

SDLNet_SocketSet SDLNet_AllocSocketSet(int maxsockets)

maxsockets
The maximum number of sockets you will want to watch.

Create a socket set that will be able to watch up to maxsockets number of sockets. The same socket set can be used for both UDP and TCP sockets.

Returns: A new, empty, SDLNet_SocketSet. NULL is returned on errors, such as out-of-memory.

 
// Create a socket set to handle up to 16 sockets
SDLNet_SocketSet set;

set=SDLNet_AllocSocketSet(16);
if(!set) {
    printf("SDLNet_AllocSocketSet: %s\n", SDLNet_GetError());
    exit(1); //most of the time this is a major error, but do what you want.
}

See Also:
3.6.2 SDLNet_FreeSocketSet, 3.6.3 SDLNet_AddSocket, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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3.6.2 SDLNet_FreeSocketSet

void SDLNet_FreeSocketSet(SDLNet_SocketSet set)

set
The socket set to free from memory

Free the socket set from memory.
Do not reference the set after this call, except to allocate a new one.

Returns: nothing, this call always succeeds.

 
// free a socket set
//SDLNet_SocketSet set;

SDLNet_FreeSocketSet(set);
set=NULL; //this helps us remember that this set is not allocated

See Also:
3.6.1 SDLNet_AllocSocketSet, 3.6.3 SDLNet_AddSocket, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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3.6.3 SDLNet_AddSocket

int SDLNet_AddSocket(SDLNet_SocketSet set, SDLNet_GenericSocket sock)
int SDLNet_TCP_AddSocket(SDLNet_SocketSet set, TCPsocket sock)
int SDLNet_UDP_AddSocket(SDLNet_SocketSet set, UDPsocket sock)

set
The socket set to add this socket to
sock
the socket to add to the socket set

Add a socket to a socket set that will be watched.

Returns: the number of sockets used in the set on success. -1 is returned on errors.

 
// add two sockets to a socket set
//SDLNet_SocketSet set;
//UDPsocket udpsock;
//TCPsocket tcpsock;
int numused;

numused=SDLNet_UDP_AddSocket(set,udpsock);
if(numused==-1) {
    printf("SDLNet_AddSocket: %s\n", SDLNet_GetError());
    // perhaps you need to restart the set and make it bigger...
}
numused=SDLNet_TCP_AddSocket(set,tcpsock);
if(numused==-1) {
    printf("SDLNet_AddSocket: %s\n", SDLNet_GetError());
    // perhaps you need to restart the set and make it bigger...
}

See Also:
3.6.1 SDLNet_AllocSocketSet, 3.6.4 SDLNet_DelSocket, 3.6.5 SDLNet_CheckSockets, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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3.6.4 SDLNet_DelSocket

int SDLNet_DelSocket(SDLNet_SocketSet set, SDLNet_GenericSocket sock)
int SDLNet_TCP_DelSocket(SDLNet_SocketSet set, TCPsocket sock)
int SDLNet_UDP_DelSocket(SDLNet_SocketSet set, UDPsocket sock)

set
The socket set to remove this socket from
sock
the socket to remove from the socket set

Remove a socket from a socket set. Use this before closing a socket that you are watching with a socket set. This doesn't close the socket.

Returns: the number of sockets used in the set on success. -1 is returned on errors.

 
// remove two sockets from a socket set
//SDLNet_SocketSet set;
//UDPsocket udpsock;
//TCPsocket tcpsock;
int numused;

numused=SDLNet_UDP_DelSocket(set,udpsock);
if(numused==-1) {
    printf("SDLNet_DelSocket: %s\n", SDLNet_GetError());
    // perhaps the socket is not in the set
}
numused=SDLNet_TCP_DelSocket(set,tcpsock);
if(numused==-1) {
    printf("SDLNet_DelSocket: %s\n", SDLNet_GetError());
    // perhaps the socket is not in the set
}

See Also:
3.6.3 SDLNet_AddSocket, 3.6.2 SDLNet_FreeSocketSet, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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3.6.5 SDLNet_CheckSockets

int SDLNet_CheckSockets(SDLNet_SocketSet set, Uint32 timeout)

set
The socket set to check
timeout
The amount of time (in milliseconds).
0 means no waiting.
-1 means to wait over 49 days! (think about it)

Check all sockets in the socket set for activity. If a non-zero timeout is given then this function will wait for activity, or else it will wait for timeout milliseconds.

NOTE: "activity" also includes disconnections and other errors, which would be determined by a failed read/write attempt.

Returns: the number of sockets with activity. -1 is returned on errors, and you may not get a meaningful error message. -1 is also returned for an empty set (nothing to check).

 
// Wait for up to 1 second for network activity
//SDLNet_SocketSet set;
int numready;

numready=SDLNet_CheckSockets(set, 1000);
if(numready==-1) {
    printf("SDLNet_CheckSockets: %s\n", SDLNet_GetError());
    //most of the time this is a system error, where perror might help you.
    perror("SDLNet_CheckSockets");
}
else if(numready) {
    printf("There are %d sockets with activity!\n",numready);
    // check all sockets with SDLNet_SocketReady and handle the active ones.
}

See Also:
3.6.6 SDLNet_SocketReady, 3.6.3 SDLNet_AddSocket, 3.6.4 SDLNet_DelSocket, 3.6.1 SDLNet_AllocSocketSet, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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3.6.6 SDLNet_SocketReady

int SDLNet_SocketReady(sock)

sock
The socket to check for activity.
Both UDPsocket and TCPsocket can be used with this function.

Check whether a socket has been marked as active. This function should only be used on a socket in a socket set, and that set has to have had SDLNet_CheckSockets (see section 3.6.5 SDLNet_CheckSockets) called upon it.

Returns: non-zero for activity. zero is returned for no activity.

 
// Wait forever for a connection attempt
//SDLNet_SocketSet set;
//TCPsocket serversock, client;
int numready;

numready=SDLNet_CheckSockets(set, 1000);
if(numready==-1) {
    printf("SDLNet_CheckSockets: %s\n", SDLNet_GetError());
    //most of the time this is a system error, where perror might help you.
    perror("SDLNet_CheckSockets");
}
else if(numready) {
    printf("There are %d sockets with activity!\n",numready);
    // check all sockets with SDLNet_SocketReady and handle the active ones.
    if(SDLNet_SocketReady(serversock)) {
        client=SDLNet_TCP_Accept(serversock);
        if(client) {
            // play with the client.
        }
    }
}

To just quickly do network handling with no waiting, we do this.

 
// Check for, and handle UDP data
//SDLNet_SocketSet set;
//UDPsocket udpsock;
//UDPpacket *packet;
int numready, numpkts;

numready=SDLNet_CheckSockets(set, 0);
if(numready==-1) {
    printf("SDLNet_CheckSockets: %s\n", SDLNet_GetError());
    //most of the time this is a system error, where perror might help you.
    perror("SDLNet_CheckSockets");
}
else if(numready) {
    printf("There are %d sockets with activity!\n",numready);
    // check all sockets with SDLNet_SocketReady and handle the active ones.
    if(SDLNet_SocketReady(udpsock)) {
        numpkts=SDLNet_UDP_Recv(udpsock,&packet);
        if(numpkts) {
            // process the packet.
        }
    }
}

See Also:
3.6.5 SDLNet_CheckSockets, 3.6.3 SDLNet_AddSocket, 3.6.4 SDLNet_DelSocket, 3.6.1 SDLNet_AllocSocketSet, 4.5 SDLNet_SocketSet, 4.3 UDPsocket, 4.2 TCPsocket


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4. Types

These types are defined and used by the SDL_net API.

4.1 IPaddress  IP Address and Port number
4.2 TCPsocket  TCP socket type (opaque)
4.3 UDPsocket  UDP socket type (opaque)
4.4 UDPpacket  UDP packet data encapsulation
4.5 SDLNet_SocketSet  Socket Set type (opaque)
4.6 SDLNet_GenericSocket  A generic type for UDP and TCP sockets


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4.1 IPaddress

 
typedef struct {
    Uint32 host;            /* 32-bit IPv4 host address */
    Uint16 port;            /* 16-bit protocol port */
} IPaddress;

host
the IPv4 address of a host, encoded in Network Byte Order.
port
the IPv4 port number of a socket, encoded in Network Byte Order.

This type contains the information used to form network connections and sockets.

See Also:
3.2 Name Resolution, 3.3.1 SDLNet_TCP_Open, 4.4 UDPpacket


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4.2 TCPsocket

 
typedef struct _TCPsocket *TCPsocket;

This is an opaque data type used for TCP connections. This is a pointer, and so it could be NULL at times. NULL would indicate no socket has been established.

See Also:
3.3 TCP Sockets, 4.3 UDPsocket, 4.6 SDLNet_GenericSocket


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4.3 UDPsocket

 
typedef struct _UDPsocket *UDPsocket;

This is an opaque data type used for UDP sockets. This is a pointer, and so it could be NULL at times. NULL would indicate no socket has been established.

See Also:
3.4 UDP Sockets, 4.4 UDPpacket, 4.2 TCPsocket, 4.6 SDLNet_GenericSocket


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4.4 UDPpacket

 
typedef struct {
    int channel;          /* The src/dst channel of the packet */
    Uint8 *data;          /* The packet data */
    int len;              /* The length of the packet data */
    int maxlen;           /* The size of the data buffer */
    int status;           /* packet status after sending */
    IPaddress address;    /* The source/dest address of an 
                                   incoming/outgoing packet */
} UDPpacket;

channel
The (software) channel number for this packet. This can also be used as a priority value for the packet. If no channel is assigned, the value is -1.
data
The data contained in this packet, this is the meat.
len
This is the meaningful length of the data in bytes.
maxlen
This is size of the data buffer, which may be larger than the meaningful length. This is only used for packet creation on the senders side.
status
This contains the number of bytes sent, or a -1 on errors, after sending. This is useless for a received packet.
address
This is the resolved IPaddress to be used when sending, or it is the remote source of a received packet.

This struct is used with UDPsockets to send and receive data. It also helps keep track of a packets sending/receiving settings and status. The channels concept helps prioritize, or segregate differring types of data packets.

See Also:
3.5 UDP Packets, 4.3 UDPsocket, 4.1 IPaddress


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4.5 SDLNet_SocketSet

 
typedef struct _SDLNet_SocketSet *SDLNet_SocketSet;

This is an opaque data type used for socket sets. This is a pointer, and so it could be NULL at times. NULL would indicate no socket set has been created.

See Also:
3.6 Socket Sets, 4.2 TCPsocket, 4.3 UDPsocket


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4.6 SDLNet_GenericSocket

 
typedef struct {
    int ready;
} *SDLNet_GenericSocket;

ready
non-zero when data is ready to be read, or a server socket has a connection attempt ready to be accepted.

This data type is able to be used for both UDPsocket and TCPsocket types.
After calling SDLNet_CheckSockets, if this socket is in SDLNet_SocketSet used, the ready will be set according to activity on the socket. This is the only real use for this type, as it doesn't help you know what type of socket it is.

See Also:
3.6 Socket Sets, 4.2 TCPsocket, 4.3 UDPsocket


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5. Defines

INADDR_ANY
0x00000000 (0.0.0.0)
used for listening on all network interfaces.
INADDR_NONE
0xFFFFFFFF (255.255.255.255)
which has limited applications.
INADDR_BROADCAST
0xFFFFFFFF (255.255.255.255)
used as destination when sending a message to all clients on a subnet that allows broadcasts.
SDLNET_MAX_UDPCHANNELS
32
The maximum number of channels on a UDP socket.
SDLNET_MAX_UDPADDRESSES
4
The maximum number of addresses bound to a single UDP socket channel


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6. Glossary

Network Byte Order
Also known as Big-Endian. Which means the most significant byte comes first in storage. Sparc and Motorola 68k based chips are MSB ordered.
(SDL defines this as SDL_BYTEORDER==SDL_BIG_ENDIAN)

Little-Endian(LSB) is stored in the opposite order, with the least significant byte first in memory. Intel and AMD are two LSB machines.
(SDL defines this as SDL_BYTEORDER==SDL_LIL_ENDIAN)

For network addresses, 1.2.3.4 is always stored as {0x01 0x02 0x03 0x04}.


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Index

Jump to:   B   I   L   M   N   R   S   T   U  

Index Entry Section

B
Big-Endian6. Glossary

I
INADDR_ANY5. Defines
INADDR_BROADCAST5. Defines
INADDR_NONE5. Defines
IPaddress4.1 IPaddress

L
Little-Endian6. Glossary
LSB6. Glossary

M
MSB6. Glossary

N
Network Byte Order6. Glossary

R
README1. Overview

S
sdl-config2.2 Compiling
SDLNet_AddSocket3.6.3 SDLNet_AddSocket
SDLNet_AllocPacket3.5.1 SDLNet_AllocPacket
SDLNet_AllocPacketV3.5.4 SDLNet_AllocPacketV
SDLNet_AllocSocketSet3.6.1 SDLNet_AllocSocketSet
SDLNet_CheckSockets3.6.5 SDLNet_CheckSockets
SDLNet_DelSocket3.6.4 SDLNet_DelSocket
SDLNet_FreePacket3.5.3 SDLNet_FreePacket
SDLNet_FreePacketV3.5.5 SDLNet_FreePacketV
SDLNet_FreeSocketSet3.6.2 SDLNet_FreeSocketSet
SDLNet_GenericSocket4.6 SDLNet_GenericSocket
SDLNet_GetError3.1.3 SDLNet_GetError
SDLNet_Init3.1.1 SDLNet_Init
SDLNET_MAX_UDPADDRESSES5. Defines
SDLNET_MAX_UDPCHANNELS5. Defines
SDLNet_Quit3.1.2 SDLNet_Quit
SDLNet_Read163.1.6 SDLNet_Read16
SDLNet_Read323.1.7 SDLNet_Read32
SDLNet_ResizePacket3.5.2 SDLNet_ResizePacket
SDLNet_ResolveHost3.2.1 SDLNet_ResolveHost
SDLNet_ResolveIP3.2.2 SDLNet_ResolveIP
SDLNet_SocketReady3.6.6 SDLNet_SocketReady
SDLNet_SocketSet4.5 SDLNet_SocketSet
SDLNet_TCP_Accept3.3.3 SDLNet_TCP_Accept
SDLNet_TCP_AddSocket3.6.3 SDLNet_AddSocket
SDLNet_TCP_Close3.3.2 SDLNet_TCP_Close
SDLNet_TCP_DelSocket3.6.4 SDLNet_DelSocket
SDLNet_TCP_GetPeerAddress3.3.4 SDLNet_TCP_GetPeerAddress
SDLNet_TCP_Open3.3.1 SDLNet_TCP_Open
SDLNet_TCP_Recv3.3.6 SDLNet_TCP_Recv
SDLNet_TCP_Send3.3.5 SDLNet_TCP_Send
SDLNet_UDP_AddSocket3.6.3 SDLNet_AddSocket
SDLNet_UDP_Bind3.4.3 SDLNet_UDP_Bind
SDLNet_UDP_Close3.4.2 SDLNet_UDP_Close
SDLNet_UDP_DelSocket3.6.4 SDLNet_DelSocket
SDLNet_UDP_GetPeerAddress3.4.5 SDLNet_UDP_GetPeerAddress
SDLNet_UDP_Open3.4.1 SDLNet_UDP_Open
SDLNet_UDP_Recv3.4.7 SDLNet_UDP_Recv
SDLNet_UDP_RecvV3.4.9 SDLNet_UDP_RecvV
SDLNet_UDP_Send3.4.6 SDLNet_UDP_Send
SDLNet_UDP_SendV3.4.8 SDLNet_UDP_SendV
SDLNet_UDP_Unbind3.4.4 SDLNet_UDP_Unbind
SDLNet_Write163.1.4 SDLNet_Write16
SDLNet_Write323.1.5 SDLNet_Write32

T
TCPsocket4.2 TCPsocket

U
UDPpacket4.4 UDPpacket
UDPsocket4.3 UDPsocket

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Table of Contents


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Short Table of Contents

1. Overview
2. Getting Started
3. Functions
4. Types
5. Defines
6. Glossary
Index

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