Server socket linux example

Programming UDP sockets in C on Linux – Client and Server example

This article describes how to write a simple echo server and client using udp sockets in C on Linux/Unix platform.

UDP sockets or Datagram sockets are different from the TCP sockets in a number of ways.

The most important difference is that UDP sockets are not connection oriented. More technically speaking, a UDP server does not accept connections and a udp client does not connect to server.

The server will bind and then directly receive data and the client shall directly send the data.

Simple UDP Server

So lets first make a very simple ECHO server with UDP socket. The flow of the code would be

socket() -> bind() -> recvfrom() -> sendto()

/* Simple udp server */ #include //printf #include //memset #include //exit(0); #include #include #define BUFLEN 512 //Max length of buffer #define PORT 8888 //The port on which to listen for incoming data void die(char *s) < perror(s); exit(1); >int main(void) < struct sockaddr_in si_me, si_other; int s, i, slen = sizeof(si_other) , recv_len; char buf[BUFLEN]; //create a UDP socket if ((s=socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == -1) < die("socket"); >// zero out the structure memset((char *) &si_me, 0, sizeof(si_me)); si_me.sin_family = AF_INET; si_me.sin_port = htons(PORT); si_me.sin_addr.s_addr = htonl(INADDR_ANY); //bind socket to port if( bind(s , (struct sockaddr*)&si_me, sizeof(si_me) ) == -1) < die("bind"); >//keep listening for data while(1) < printf("Waiting for data. "); fflush(stdout); //try to receive some data, this is a blocking call if ((recv_len = recvfrom(s, buf, BUFLEN, 0, (struct sockaddr *) &si_other, &slen)) == -1) < die("recvfrom()"); >//print details of the client/peer and the data received printf("Received packet from %s:%d\n", inet_ntoa(si_other.sin_addr), ntohs(si_other.sin_port)); printf("Data: %s\n" , buf); //now reply the client with the same data if (sendto(s, buf, recv_len, 0, (struct sockaddr*) &si_other, slen) == -1) < die("sendto()"); >> close(s); return 0; >

Run the above code by doing a gcc server.c && ./a.out at the terminal. Then it will show waiting for data like this

$ gcc server.c && ./a.out Waiting for data.

Next step would be to connect to this server using a client. We shall be making a client program a little later but first for testing this code we can use netcat.

Test the server with netcat

Open another terminal and connect to this udp server using netcat and then send some data. The same data will be send back by the server. Over here we are using the ncat command from the nmap package.

$ ncat -vv localhost 8888 -u Ncat: Version 5.21 ( http://nmap.org/ncat ) Ncat: Connected to 127.0.0.1:8888. hello hello world world

Note : We had to use netcat because the ordinary telnet command does not support udp protocol. The -u option of netcat specifies udp protocol.

Check open port with netstat

The netstat command can be used to check if the udp port is open or not.

$ netstat -u -a Active Internet connections (servers and established) Proto Recv-Q Send-Q Local Address Foreign Address State udp 0 0 localhost:11211 *:* udp 0 0 localhost:domain *:* udp 0 0 localhost:45286 localhost:8888 ESTABLISHED udp 0 0 *:33320 *:* udp 0 0 *:ipp *:* udp 0 0 *:8888 *:* udp 0 0 *:17500 *:* udp 0 0 *:mdns *:* udp 0 0 localhost:54747 localhost:54747 ESTABLISHED udp6 0 0 [::]:60439 [::]:* udp6 0 0 [::]:mdns [::]:*

Note the *:8888 entry of output. Thats our server program.
The entry that has localhost:8888 in «Foreign Address» column, indicates some client connected to it, which is netcat over here.

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UDP Client

Now that we have tested our server with netcat, its time to make a client and use it instead of netcat.
The program flow is like

/* Simple udp client */ #include //printf #include //memset #include //exit(0); #include #include #define SERVER "127.0.0.1" #define BUFLEN 512 //Max length of buffer #define PORT 8888 //The port on which to send data void die(char *s) < perror(s); exit(1); >int main(void) < struct sockaddr_in si_other; int s, i, slen=sizeof(si_other); char buf[BUFLEN]; char message[BUFLEN]; if ( (s=socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == -1) < die("socket"); >memset((char *) &si_other, 0, sizeof(si_other)); si_other.sin_family = AF_INET; si_other.sin_port = htons(PORT); if (inet_aton(SERVER , &si_other.sin_addr) == 0) < fprintf(stderr, "inet_aton() failed\n"); exit(1); >while(1) < printf("Enter message : "); gets(message); //send the message if (sendto(s, message, strlen(message) , 0 , (struct sockaddr *) &si_other, slen)==-1) < die("sendto()"); >//receive a reply and print it //clear the buffer by filling null, it might have previously received data memset(buf,'
/* Simple udp client */ #include //printf #include //memset #include //exit(0); #include #include #define SERVER "127.0.0.1" #define BUFLEN 512 //Max length of buffer #define PORT 8888 //The port on which to send data void die(char *s) < perror(s); exit(1); >int main(void) < struct sockaddr_in si_other; int s, i, slen=sizeof(si_other); char buf[BUFLEN]; char message[BUFLEN]; if ( (s=socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == -1) < die("socket"); >memset((char *) &si_other, 0, sizeof(si_other)); si_other.sin_family = AF_INET; si_other.sin_port = htons(PORT); if (inet_aton(SERVER , &si_other.sin_addr) == 0) < fprintf(stderr, "inet_aton() failed\n"); exit(1); >while(1) < printf("Enter message : "); gets(message); //send the message if (sendto(s, message, strlen(message) , 0 , (struct sockaddr *) &si_other, slen)==-1) < die("sendto()"); >//receive a reply and print it //clear the buffer by filling null, it might have previously received data memset(buf,'\0', BUFLEN); //try to receive some data, this is a blocking call if (recvfrom(s, buf, BUFLEN, 0, (struct sockaddr *) &si_other, &slen) == -1) < die("recvfrom()"); >puts(buf); > close(s); return 0; >

', BUFLEN); //try to receive some data, this is a blocking call if (recvfrom(s, buf, BUFLEN, 0, (struct sockaddr *) &si_other, &slen) == -1) < die("recvfrom()"); >puts(buf); > close(s); return 0; >

Run the above program and it will ask for some message

$ gcc client.c -o client && ./client Enter message : happy happy

Whatever message the client sends to server, the same comes back as it is and is echoed.

Conclusion

UDP sockets are used by protocols like DNS etc. The main idea behind using UDP is to transfer small amounts of data and where reliability is not a very important issue. UDP is also used in broadcasting/multicasting.

When a file transfer is being done or large amount of data is being transferred in parts the transfer has to be much more reliable for the task to complete. Then the TCP sockets are used.

A Tech Enthusiast, Blogger, Linux Fan and a Software Developer. Writes about Computer hardware, Linux and Open Source software and coding in Python, Php and Javascript. He can be reached at [email protected] .

16 Comments

  1. Joe June 7, 2021 at 3:03 pm Hello. You seem to have double pasted the second code sample inside itself. THanks for the tutorial
  1. Silver Moon Post author August 14, 2018 at 4:04 pm i haven’t done sockets for a long time. right now i can think of using multiple threads do things in parallel.
    so the main thread could do its background work, and an extra thread could listen to the udp port for incoming messages.
    or the other way round.
    but i am not sure if that is the best approach. there might be better alternatives.
  1. Bryan Kelly March 15, 2018 at 4:04 am And ncat used option -vv which on my Ubuntu system means verbose. The captured text does not have the verbose output. My system had five lines of information for each line of typed in data.
    Still, I am new to Linux and Ubuntu and this is an unexpected cool way to test the server app.
    Thank you.

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How to Code a Server and Client in C with Sockets on Linux – Code Examples

In a previous example we learnt about the basics of socket programming in C. In this example we shall build a basic ECHO client and server. The server/client shown here use TCP sockets or SOCK_STREAM.

Tcp sockets are connection oriented, means that they have a concept of independent connection on a certain port which one application can use at a time.

The concept of connection makes TCP a "reliable" stream such that if errors occur, they can be detected and compensated for by resending the failed packets.

Server

Lets build a very simple web server. The steps to make a webserver are as follows :

1. Create socket
2. Bind to address and port
3. Put in listening mode
4. Accept connections and process there after.

/* C socket server example */ #include #include //strlen #include #include //inet_addr #include //write int main(int argc , char *argv[]) < int socket_desc , client_sock , c , read_size; struct sockaddr_in server , client; char client_message[2000]; //Create socket socket_desc = socket(AF_INET , SOCK_STREAM , 0); if (socket_desc == -1) < printf("Could not create socket"); >puts("Socket created"); //Prepare the sockaddr_in structure server.sin_family = AF_INET; server.sin_addr.s_addr = INADDR_ANY; server.sin_port = htons( 8888 ); //Bind if( bind(socket_desc,(struct sockaddr *)&server , sizeof(server)) < 0) < //print the error message perror("bind failed. Error"); return 1; >puts("bind done"); //Listen listen(socket_desc , 3); //Accept and incoming connection puts("Waiting for incoming connections. "); c = sizeof(struct sockaddr_in); //accept connection from an incoming client client_sock = accept(socket_desc, (struct sockaddr *)&client, (socklen_t*)&c); if (client_sock < 0) < perror("accept failed"); return 1; >puts("Connection accepted"); //Receive a message from client while( (read_size = recv(client_sock , client_message , 2000 , 0)) > 0 ) < //Send the message back to client write(client_sock , client_message , strlen(client_message)); >if(read_size == 0) < puts("Client disconnected"); fflush(stdout); >else if(read_size == -1) < perror("recv failed"); >return 0; >

The above code example will start a server on localhost (127.0.0.1) port 8888
Once it receives a connection, it will read some input from the client and reply back with the same message.
To test the server run the server and then connect from another terminal using the telnet command like this

Client

Now instead of using the telnet program as a client, why not write our own client program. Quite simple again

/* C ECHO client example using sockets */ #include //printf #include //strlen #include //socket #include //inet_addr #include int main(int argc , char *argv[]) < int sock; struct sockaddr_in server; char message[1000] , server_reply[2000]; //Create socket sock = socket(AF_INET , SOCK_STREAM , 0); if (sock == -1) < printf("Could not create socket"); >puts("Socket created"); server.sin_addr.s_addr = inet_addr("127.0.0.1"); server.sin_family = AF_INET; server.sin_port = htons( 8888 ); //Connect to remote server if (connect(sock , (struct sockaddr *)&server , sizeof(server)) < 0) < perror("connect failed. Error"); return 1; >puts("Connected\n"); //keep communicating with server while(1) < printf("Enter message : "); scanf("%s" , message); //Send some data if( send(sock , message , strlen(message) , 0) < 0) < puts("Send failed"); return 1; >//Receive a reply from the server if( recv(sock , server_reply , 2000 , 0) < 0) < puts("recv failed"); break; >puts("Server reply :"); puts(server_reply); > close(sock); return 0; >

The above program will connect to localhost port 8888 and then ask for commands to send. Here is an example, how the output would look

$ gcc client.c && ./a.out Socket created Connected Enter message : hi Server reply : hi Enter message : how are you

Server to handle multiple connections

The server in the above example has a drawback. It can handle communication with only 1 client. Thats not very useful.

One way to work around this is by using threads. A thread can be assigned for each connected client which will handle communication with the client.

/* C socket server example, handles multiple clients using threads */ #include #include //strlen #include //strlen #include #include //inet_addr #include //write #include //for threading , link with lpthread //the thread function void *connection_handler(void *); int main(int argc , char *argv[]) < int socket_desc , client_sock , c , *new_sock; struct sockaddr_in server , client; //Create socket socket_desc = socket(AF_INET , SOCK_STREAM , 0); if (socket_desc == -1) < printf("Could not create socket"); >puts("Socket created"); //Prepare the sockaddr_in structure server.sin_family = AF_INET; server.sin_addr.s_addr = INADDR_ANY; server.sin_port = htons( 8888 ); //Bind if( bind(socket_desc,(struct sockaddr *)&server , sizeof(server)) < 0) < //print the error message perror("bind failed. Error"); return 1; >puts("bind done"); //Listen listen(socket_desc , 3); //Accept and incoming connection puts("Waiting for incoming connections. "); c = sizeof(struct sockaddr_in); //Accept and incoming connection puts("Waiting for incoming connections. "); c = sizeof(struct sockaddr_in); while( (client_sock = accept(socket_desc, (struct sockaddr *)&client, (socklen_t*)&c)) ) < puts("Connection accepted"); pthread_t sniffer_thread; new_sock = malloc(1); *new_sock = client_sock; if( pthread_create( &sniffer_thread , NULL , connection_handler , (void*) new_sock) < 0) < perror("could not create thread"); return 1; >//Now join the thread , so that we dont terminate before the thread //pthread_join( sniffer_thread , NULL); puts("Handler assigned"); > if (client_sock < 0) < perror("accept failed"); return 1; >return 0; > /* * This will handle connection for each client * */ void *connection_handler(void *socket_desc) < //Get the socket descriptor int sock = *(int*)socket_desc; int read_size; char *message , client_message[2000]; //Send some messages to the client message = "Greetings! I am your connection handler\n"; write(sock , message , strlen(message)); message = "Now type something and i shall repeat what you type \n"; write(sock , message , strlen(message)); //Receive a message from client while( (read_size = recv(sock , client_message , 2000 , 0)) >0 ) < //Send the message back to client write(sock , client_message , strlen(client_message)); >if(read_size == 0) < puts("Client disconnected"); fflush(stdout); >else if(read_size == -1) < perror("recv failed"); >//Free the socket pointer free(socket_desc); return 0; >

Run the above server and connect from multiple clients and it will handle all of them. There are other ways to handle multiple clients, like select, poll etc.

We shall talk about them in some other article. Till then practise the above code examples and enjoy.

A Tech Enthusiast, Blogger, Linux Fan and a Software Developer. Writes about Computer hardware, Linux and Open Source software and coding in Python, Php and Javascript. He can be reached at [email protected] .

64 Comments

  1. Zamer Chaudhary April 16, 2022 at 2:02 pm Hey sir i need you help related to Develop a client/server application using Linux TCP sockets and the C programming language.
    I will share the more information on mail. Please respond me.
    [email protected]
  1. Alex June 8, 2017 at 4:04 pm Yes, it fixes the bug with memory leakage but disables the multiple clients functionality, so this example doesn’t really work 🙁 I cann’t solve this problem yet.
  1. David November 5, 2021 at 1:01 am I’m wondering that, too. As soon as I change from the localhost address, I start getting message refused on the client.

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