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sockets

Socket Programming in C/C++
c Mani Radhakrishnan and Jon Solworth
September 24, 2004

c Mani Radhakrishnan and Jo...
sockets

Contact Info

Mani Radhakrishnan
Office
4224 SEL
email
mradhakr @ cs . uic . edu
Office Hours
Tuesday 1 - 4 PM

c...
sockets

TCP
UDP

Introduction

Sockets are a protocol independent method of creating a
connection between processes. Sock...
sockets

TCP
UDP

Socket characteristics

Socket are characterized by their domain, type and transport
protocol. Common do...
sockets

TCP
UDP

Socket characteristics (cont’d)

Each socket type has one or more protocols. Ex:
TCP/IP (virtual circuit...
sockets

TCP
UDP

Socket APIs
socket: creates a socket of a given domain, type, protocol
(buy a phone)
bind: assigns a nam...
sockets

TCP
UDP

Connection-based communication
Server performs the following actions
socket: create the socket
bind: giv...
sockets

TCP
UDP

TCP client

Client performs the following actions
socket: create the socket
connect: connect to a server...
sockets

TCP
UDP

TCP-based sockets
server

client

socket

socket

bind

connect

listen

accept

close

send/recv

send/...
sockets

TCP
UDP

socket API
#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t s ...
sockets

TCP
UDP

bind
#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t bind ( i...
sockets

TCP
UDP

sockaddr
For the internet family:
struct sockaddr
sa family t
in port t
4
struct in addr
}

2

in {
s i ...
sockets

TCP
UDP

listen

#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

int

l i s ...
sockets

TCP
UDP

accept

#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t accep...
sockets

TCP
UDP

accept styles
There are basically three styles of using accept:
Iterating server: Only one socket is ope...
sockets

TCP
UDP

Pro and Con of Accept styles

Iterating server is basically a low performance technique since
only one c...
sockets

TCP
UDP

send

#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t send ( ...
sockets

TCP
UDP

recv

#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t recv ( ...
sockets

TCP
UDP

shutdown

#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s o c k e t . h>
4

i n t shu...
sockets

TCP
UDP

connect

this is the first of the client calls
#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s...
sockets

TCP
UDP

Denoting Connections

Note that a connection is denoted by a 5-tuple:
from IP
from port
protocol
to IP
t...
sockets

TCP
UDP

Port usage

Note that the initiator of communications needs a fixed port to
target communications.
This m...
sockets

TCP
UDP

APIs for managing names and IP addresses

We next consider a number of auxiliary APIs:
The hostent struc...
sockets

TCP
UDP

gethostname

#i n c l u d e <u n i s t d . h>
2
i n t g e t h o s t n a m e ( c h a r ∗hostname ,

s i z...
sockets

TCP
UDP

hostent structure

struct hostent {
c h a r ∗h name ;
c h a r ∗∗ h a l i a s e s ;
4
int
h addrtype ;
in...
sockets

TCP
UDP

Gethostbyname

Auxiliary functions
#i n c l u d e <n e t d b . h>
2
s t r u c t h o s t e n t ∗ g e t h ...
sockets

TCP
UDP

Network byte ordering

Network ordering in big endian. (Sparc is big endian, Intel is little
endian).
2
...
sockets

TCP
UDP

IP Number translation
IP address strings to 32 bit number
In what follows, ’p’ stands for presentation.
...
sockets

TCP
UDP

inet pton

#i n c l u d e <a r p a / i n e t . h>
2
4

i n t i n e t p t o n ( i n t family , const char...
sockets

TCP
UDP

inet ntop

#i n c l u d e <a r p a / i n e t . h>
2
4

i n t i n e t n t o p ( i n t family , const char...
sockets

TCP
UDP

Example: TCP/IP Server Code
Without error checking.
sockaddr in serverAddr ;
2 s o c k a d d r &s e r v ...
sockets

TCP
UDP

Concurrent Server

To build a concurrent server:
a fork is performed after the accept.
The child process...
sockets

TCP
UDP

Example: TCP/IP Client code

sockaddr in serverAddr ;
2 s o c k a d d r &s e r v e r A d d r C a s t = (...
sockets

TCP
UDP

Connectionless communication

Communication is symmetric (peer-to-peer)
socket
bind: bind is optional fo...
sockets

TCP
UDP

Connectionless communication
client
socket

bind

sendto/
recvfrom
shutdown

close

c Mani Radhakrishnan...
sockets

TCP
UDP

UDP variations

It is not necessary for both sockets to bind
The receiver gets the address of the sender...
sockets

TCP
UDP

sendto

for connectionless protocols
#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / s ...
sockets

TCP
UDP

recvfrom

for connectionless protocols
#i n c l u d e <s y s / t y p e s . h>
2 #i n c l u d e <s y s / ...
sockets

TCP
UDP

Example: UDP—server
i n t s o c k e t I d = s o c k e t ( AF INET , SOCK DGRAM, 0 ) ;
2
4

sockaddr in s...
sockets

TCP
UDP

Example: UDP—client
i n t s o c k e t I d = s o c k e t ( AF INET , SOCK DGRAM, 0 ) ;
2
4

sockaddr in s...
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Sockets

  1. 1. sockets Socket Programming in C/C++ c Mani Radhakrishnan and Jon Solworth September 24, 2004 c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  2. 2. sockets Contact Info Mani Radhakrishnan Office 4224 SEL email mradhakr @ cs . uic . edu Office Hours Tuesday 1 - 4 PM c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  3. 3. sockets TCP UDP Introduction Sockets are a protocol independent method of creating a connection between processes. Sockets can be either connection based or connectionless: Is a connection established before communication or does each packet describe the destination? packet based or streams based: Are there message boundaries or is it one stream? reliable or unreliable. Can messages be lost, duplicated, reordered, or corrupted? c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  4. 4. sockets TCP UDP Socket characteristics Socket are characterized by their domain, type and transport protocol. Common domains are: AF UNIX: address format is UNIX pathname AF INET: address format is host and port number Common types are: virtual circuit: received in order transmitted and reliably datagram: arbitrary order, unreliable c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  5. 5. sockets TCP UDP Socket characteristics (cont’d) Each socket type has one or more protocols. Ex: TCP/IP (virtual circuits) UDP (datagram) Use of sockets: Connection–based sockets communicate client-server: the server waits for a connection from the client Connectionless sockets are peer-to-peer: each process is symmetric. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  6. 6. sockets TCP UDP Socket APIs socket: creates a socket of a given domain, type, protocol (buy a phone) bind: assigns a name to the socket (get a telephone number) listen: specifies the number of pending connections that can be queued for a server socket. (call waiting allowance) accept: server accepts a connection request from a client (answer phone) connect: client requests a connection request to a server (call) send, sendto: write to connection (speak) recv, recvfrom: read from connection (listen) shutdown: end the call c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  7. 7. sockets TCP UDP Connection-based communication Server performs the following actions socket: create the socket bind: give the address of the socket on the server listen: specifies the maximum number of connection requests that can be pending for this process accept: establish the connection with a specific client send,recv: stream-based equivalents of read and write (repeated) shutdown: end reading or writing close: release kernel data structures c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  8. 8. sockets TCP UDP TCP client Client performs the following actions socket: create the socket connect: connect to a server send,recv: (repeated) shutdown close c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  9. 9. sockets TCP UDP TCP-based sockets server client socket socket bind connect listen accept close send/recv send/recv shutdown shutdown close close c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  10. 10. sockets TCP UDP socket API #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t s o c k e t ( i n t domain , i n t t y p e , i n t p r o t o c o l ) ; Returns a file descriptor (called a socket ID) if successful, -1 otherwise. Note that the socket returns a socket descriptor which is the same as a file descriptor. The domain is AF INET. The type argument can be: SOCK STREAM: Establishes a virtual circuit for stream SOCK DGRAM: Establishes a datagram for communication SOCK SEQPACKET: Establishes a reliable, connection based, two way communication with maximum message size. (This is not available on most machines.) protocol is usually zero, so that type defines the connection within domain. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  11. 11. sockets TCP UDP bind #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t bind ( i n t sid , s t r u c t sockaddr ∗addrPtr , i n t l e n ) Where sid: is the socket id addrPtr: is a pointer to the address family dependent address structure len: is the size of *addrPtr Associates a socket id with an address to which other processes can connect. In internet protocol the address is [ipNumber, portNumber] c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  12. 12. sockets TCP UDP sockaddr For the internet family: struct sockaddr sa family t in port t 4 struct in addr } 2 in { s i n f a m i l y ; // = AF INET sin port ; // i s a p o r t number sin addr ; // an I P a d d r e s s For unix sockets (only works between processes on the same machine) 2 4 struct sockaddr un { uint8 t sun length ; short sun family ; char sun path [ 1 0 0 ] ; // // = AF LOCAL // n u l l t e r m i n a t e d pathname // ( 1 0 0 i s p o s i x 1 . g minimum ) 6 } When using internet sockets, the second parameter of bind (of type sockaddr in *) must be cast to (sockaddr *). c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  13. 13. sockets TCP UDP listen #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 int l i s t e n ( int sid , int size ); Where size it the number of pending connection requests allowed (typically limited by Unix kernels to 5). Returns the 0 on success, or -1 if failure. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  14. 14. sockets TCP UDP accept #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t accept ( i n t sid , s t r u c t sockaddr ∗addrPtr , i n t ∗ l e n P t r ) Returns the socketId and address of client connecting to socket. if lenPtr or addrPtr equal zero, no address structure is returned. lenPtr is the maximum size of address structure that can be called, returns the actual value. Waits for an incoming request, and when received creates a socket for it. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  15. 15. sockets TCP UDP accept styles There are basically three styles of using accept: Iterating server: Only one socket is opened at a time. When the processing on that connection is completed, the socket is closed, and next connection can be accepted. Forking server: After an accept, a child process is forked off to handle the connection. Variation: the child processes are preforked and are passed the socketId. Concurrent single server: use select to simultaneously wait on all open socketIds, and waking up the process only when new data arrives. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  16. 16. sockets TCP UDP Pro and Con of Accept styles Iterating server is basically a low performance technique since only one connection is open at a time. Forking servers enable using multiple processors. But they make sharing state difficult, unless performed with threads. Threads, however present a very fragile programming environment. Concurrent single server: reduces context switches relative to forking processes and complexity relative to threads. But does not benefit from multiprocessors. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  17. 17. sockets TCP UDP send #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t send ( i n t sid , const char ∗ b u f f e r P t r , i n t len , i n t f l a g ) Send a message. Returns the number of bytes sent or -1 if failure. (Must be a bound socket). flag is either 0: default MSG OOB: Out-of-band high priority communication c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  18. 18. sockets TCP UDP recv #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t recv ( i n t sid , char ∗ b u f f e r P t r , i n t len , i n t f l a g s ) Receive up to len bytes in bufferPtr. Returns the number of bytes received or -1 on failure. flags can be either 0: default MSG OOB: out-of-bound message MSG PEEK: look at message without removing c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  19. 19. sockets TCP UDP shutdown #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t shutdown ( i n t s i d , i n t how ) Disables sending (how=1 or how=2) or receiving (how=0 or how=2). Returns -1 on failure. acts as a partial close. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  20. 20. sockets TCP UDP connect this is the first of the client calls #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 i n t connect ( i n t sid , s t r u c t sockaddr ∗addrPtr , i n t l e n ) Specifies the destination to form a connection with (addrPtr), and returns a 0 if successful, -1 otherwise. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  21. 21. sockets TCP UDP Denoting Connections Note that a connection is denoted by a 5-tuple: from IP from port protocol to IP to port So that multiple connections can share the same IP and port. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  22. 22. sockets TCP UDP Port usage Note that the initiator of communications needs a fixed port to target communications. This means that some ports must be reserved for these “well known” ports. Port usage: 0-1023: These ports can only be binded to by root 1024-5000: well known ports 5001-64K-1: ephemeral ports c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  23. 23. sockets TCP UDP APIs for managing names and IP addresses We next consider a number of auxiliary APIs: The hostent structure: describes IP, hostname pairs gethostbyname: hostent of a specified machine htons, htonl, ntohs, ntohl: byte ordering inet pton, inet ntop: conversion of IP numbers between presentation and strings c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  24. 24. sockets TCP UDP gethostname #i n c l u d e <u n i s t d . h> 2 i n t g e t h o s t n a m e ( c h a r ∗hostname , s i z e t nameLength ) Returns the hostname of the machine on which this command executes (What host am i?). Returns -1 on failure, 0 on success. MAXHOSTNAMELEN is defined in <sys/param.h>. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  25. 25. sockets TCP UDP hostent structure struct hostent { c h a r ∗h name ; c h a r ∗∗ h a l i a s e s ; 4 int h addrtype ; int h length ; 6 c h a r ∗∗ h a d d r l i s t } 2 // // // // ; // o f f i c i a l ( c a n o n i c a l ) name o f t h e h o s t n u l l t e r m i n a t e d a r r a y of a l t e r n a t i v e hostnames h o s t a d d r e s s t y p e AF INET o r AF INET6 4 o r 16 b y t e s IPv4 or IPv6 l i s t of a d d r e s s e s Error is return through h error which can be: HOST NOT FOUND TRY AGAIN NO RECOVERY NO DATA c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  26. 26. sockets TCP UDP Gethostbyname Auxiliary functions #i n c l u d e <n e t d b . h> 2 s t r u c t h o s t e n t ∗ g e t h o s t b y n a m e ( c o n s t c h a r ∗hostname ) Translates a DNS name into a hostent. Example: struct hostent ∗hostEntity = g e t h o s t b y n a m e ( ” b e r t . c s . u i c . edu ” ) ; memcpy ( s o c k e t A d d r− i n a d d r , >s 4 hostEntity− >h a d d r l i s t [ 0 ] , hostEntity− >h l e n g t h ) ; 2 c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  27. 27. sockets TCP UDP Network byte ordering Network ordering in big endian. (Sparc is big endian, Intel is little endian). 2 // Host t o n e t w o r k b y t e o r d e r f o r s h o r t s ( 1 6 b i t ) u i n t 1 6 t htons ( u i n t 1 6 t v ) ; 4 // Host t o n e t w o r k b y t e uint 32t htonl ( uint 32t 6 // Network t o h o s t b y t e 8 u i n t 1 6 t ntohs ( u i n t 1 6 t o r d e r f o r long (32 b i t ) v ); o r d e r f o r long (16 b i t ) v ); 10 // Network t o h o s t b y t e o r d e r f o r l o n g ( 3 2 b i t ) uint 32t ntohl ( uint 32t v ); c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  28. 28. sockets TCP UDP IP Number translation IP address strings to 32 bit number In what follows, ’p’ stands for presentation. Hence, these routines translate between the address as a string and the address as the number. Hence, we have 4 representations: IP number in host order IP number in network order Presentation (eg. dotted decimal) Fully qualified domain name Only the last needs an outside lookup to convert to one of the other formats. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  29. 29. sockets TCP UDP inet pton #i n c l u d e <a r p a / i n e t . h> 2 4 i n t i n e t p t o n ( i n t family , const char ∗strPtr , void ∗addrPtr ) ; returns 1 if OK, 0 if presentation error, -1 error Where family is either AF INET or AF INET6. The strPtr is the IP address as a dotted string. Finally, addrPtr points to either the 32 bit result (AF INET) or 128 bit result (AF INET6). c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  30. 30. sockets TCP UDP inet ntop #i n c l u d e <a r p a / i n e t . h> 2 4 i n t i n e t n t o p ( i n t family , const char ∗addrPtr , char ∗s tr Pt r , s i z e t l e n ) ; returns 1 if OK, 0 if presentation error, -1 error Where family is either AF INET or AF INET6. The strPtr is the return IP address as a dotted string. Finally, addrPtr points to either the 32 bit (AF INET) or 128 bit (AF INET6). Length is the size of destination. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  31. 31. sockets TCP UDP Example: TCP/IP Server Code Without error checking. sockaddr in serverAddr ; 2 s o c k a d d r &s e r v e r A d d r C a s t = ( s o c k a d d r &) s e r v e r A d d r ; 4 // g e t a t c p / i p s o c k e t i n t l i s t e n F d = s o c k e t ( AF INET , SOCK STREAM , 0 ) ; 6 b z e r o (& s e r v e r A d d r , s i z e o f ( s e r v e r A d d r ) ) ; 8 s e r v e r A d d r . s i n f a m i l y = AF INET ; // any i n t e r n e t i n t e r f a c e on t h i s s e r v e r . 10 s e r v e r A d d r . s i n a d d r . s a d d r = h t o n l (INADDR ANY ) ; serverAddr . s i n p o r t = htons ( 1 3 ) ; 12 b i n d ( l i s t e n F d , &s e r v e r A d d r C a s t , s i z e o f ( s e r v e r A d d r ) ) ; 14 l i s t e n ( listenFd , 5); 16 for ( ; ; ) { 18 i n t connectFd = a c c e p t ( l i s t e n F d , ( s o c k a d d r ∗) NULL , NULL ) ; 20 // . . r e a d and w r i t e o p e r a t i o n s on c o n n e c t F d . . shutdown ( c o n n e c t F d , 2 ) ; 22 c l o s e ( connectFd ) ; } Note that the above is an iterative server, which means that it serves one connection at a time. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  32. 32. sockets TCP UDP Concurrent Server To build a concurrent server: a fork is performed after the accept. The child process closes listenFd, and communicates using connectFd. The parent process closses connectFd, and then loops back to the accept to wait for another connection request. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  33. 33. sockets TCP UDP Example: TCP/IP Client code sockaddr in serverAddr ; 2 s o c k a d d r &s e r v e r A d d r C a s t = ( s o c k a d d r &) s e r v e r A d d r ; 4 // g e t a t c p / i p s o c k e t i n t s o c k F d = s o c k e t ( AF INET , SOCK STREAM , 0 ) ; 6 b z e r o (& s e r v e r A d d r , s i z e o f ( s e r v e r A d d r ) ) ; 8 s e r v e r A d d r . s i n f a m i l y = AF INET ; // h o s t I P # i n d o t t e d d e c i m a l f o r m a t ! 10 i n e t p t o n ( AF INET , s e r v e r N a m e , s e r v e r A d d r . s i n a d d r ) ; serverAddr . s i n p o r t = htons ( 1 3 ) ; 12 c o n n e c t ( sockFd , s e r v e r A d d r C a s t , s i z e o f ( s e r v e r A d d r ) ) ; 14 // . . r e a d and w r i t e o p e r a t i o n s on s o c k F d . . shutdown ( sockFd , 2 ) ; 16 c l o s e ( s o c k F d ) ; c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  34. 34. sockets TCP UDP Connectionless communication Communication is symmetric (peer-to-peer) socket bind: bind is optional for initiator sendto, recvfrom (repeated) shutdown close c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  35. 35. sockets TCP UDP Connectionless communication client socket bind sendto/ recvfrom shutdown close c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  36. 36. sockets TCP UDP UDP variations It is not necessary for both sockets to bind The receiver gets the address of the sender It is possible for a UDP socket to connect In this case, send/recv (or write/read) must be used instead of sendto/recvfrom. Asynchronous errors can be returned (using ICMP) c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  37. 37. sockets TCP UDP sendto for connectionless protocols #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 6 i n t sendto ( i n t sid , const void ∗bufferPtr , s i z e t bufferLength , int flag , s t r u c t sockaddr ∗addrPtr , s o c k l e n t addrLength ) Send a buffer, bufferPtr, of length bufferLength to address specified by addrPtr of size addrLength. Returns number of bytes sent or -1 on error. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  38. 38. sockets TCP UDP recvfrom for connectionless protocols #i n c l u d e <s y s / t y p e s . h> 2 #i n c l u d e <s y s / s o c k e t . h> 4 int recvfrom ( int sid , void ∗bufferPtr , int bufferLength , i n t f l a g , sockaddr ∗addrPtr , i n t ∗addrLengthPtr ) Receive a buffer in bufferPtr of maximum length bufferLength from an unspecified sender. Sender address returned in addrPtr, of size *addrLengthPtr. Returns number of bytes receive or -1 on error. c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  39. 39. sockets TCP UDP Example: UDP—server i n t s o c k e t I d = s o c k e t ( AF INET , SOCK DGRAM, 0 ) ; 2 4 sockaddr in serverAddr , clientAddr ; s o c k a d d r &s e r v e r A d d r C a s t = ( s o c k a d d r &) s e r v e r A d d r ; s o c k a d d r &c l i e n t A d d r C a s t = ( s o c k a d d r &) c l i e n t A d d r ; 6 8 10 12 14 // a l l o w c o n n e c t i o n t o any a d d r on h o s t // f o r h o s t s w i t h m u l t i p l e n e t w o r k c o n n e c t i o n s // and a s t s e r v e r p o r t . s e r v e r A d d r . s i n f a m i l y = AF INET ; serverAddr . sin port = htons ( s e r v e r P o r t ) ; s e r v e r A d d r . s i n a d d r . s a d d r = INADDR ANY ; // a s s o c i a t e p r o c e s s w i t h p o r t b i n d ( s o c k e t I d , &s e r v e r A d d r C a s t , s i z e o f ( a d d r ) ) ; 16 18 20 22 // r e c e i v e from a c l i e n t int size = sizeof ( clientAddr ); recvfrom ( socketId , buffer , bufferSize , 0 , c l i e n t A d d r C a s t , &s i z e ) ; 24 // r e p l y t o t h e c l i e n t j u s t r e c e i v e d from sendto ( socketId , buffer , bufferSize , 0 , clientAddrCast , size ); 26 close ( socketId ); c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++
  40. 40. sockets TCP UDP Example: UDP—client i n t s o c k e t I d = s o c k e t ( AF INET , SOCK DGRAM, 0 ) ; 2 4 sockaddr in serverAddr , clientAddr ; s o c k a d d r &s e r v e r A d d r C a s t = ( s o c k a d d r &) s e r v e r A d d r ; s o c k a d d r &c l i e n t A d d r C a s t = ( s o c k a d d r &) c l i e n t A d d r ; 6 8 10 12 14 16 // s p e c i f y s e r v e r a d d r e s s , p o r t s e r v e r A d d r . s i n f a m i l y = AF INET ; serverAddr . sin port = htons ( s e r v e r P o r t ) ; s t r u c t h o s t e n t ∗hp = g e t h o s t b y n a m e ( hostName ) ; memcpy ( ( c h a r ∗)& s e r v e r A d d r . s i n a d d r , ( c h a r ∗) hp− >h a d d r , hp− >h l e n g t h ) ; // no n e e d t o b i n d i f n o t p e e r−to−p e e r int size = sizeof ( serverAddr ); sendto ( socketId , buffer , bufferSize , 0 , serverAddrCast , s i z e ) ; 18 20 recvfrom ( socketId , buffer , bufferSize , 0 , s e r v e r A d d rC a s t , &s i z e ) ; 22 close ( socketId ); c Mani Radhakrishnan and Jon Solworth Socket Programming in C/C++

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