sysdis-project/command-terminal/c-emul/main.c

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C
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2017-04-29 15:09:47 +00:00
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <unistd.h> // close
#include <netinet/in.h>
#include <netdb.h> // getaddrinfo, getnameinfo
#include <arpa/inet.h>
#define TERMREQ_FBK 0x01
#define TERMREQ_CAP 0x02
#define TERMREQ_SPD 0x04
#define TERMREQ_ALT 0x08
#define PLANE_LEN ( sizeof(char)*6+sizeof(int)*5 )
struct plane{
char code[6];
int x;
int y;
int z;
int cap;
int spd;
char online;
};
struct plane_update{
char flags;
int z;
int cap;
int spd;
char done;
};
#define TERMREQ_LEN ( sizeof(char)+PLANE_LEN )
struct term_req{
char flags;
struct plane update;
};
struct term_res{
char flags;
char n;
struct plane* data;
};
#define BINDHDR_LEN ( sizeof(char)+sizeof(in_addr_t)+sizeof(unsigned short) )
#define BINDHEAD_UDP 0x01 // is terminal (ask for UDP socket)
#define BINDHEAD_TCP 0x02 // is plane (ask for TCP socket)
#define BINDHEAD_CTL 0x04 // is ctrlTerm (else: viewTerm)
struct bind_header{
char flags;
in_addr_t addr;
unsigned short port;
};
int main(int argc, char* argv[]){
socklen_t len;
int msocket, csocket;
struct sockaddr_in mcast, server;
char buffer[512];
struct bind_header bh;
struct in_addr ip;
struct term_req tr;
struct term_res trs;
int i, nb;
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struct plane tmp;
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int count, last;
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strcpy(tmp.code, "\0");
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/************************************************
**** DEMANDE MULTICAST ****
************************************************/
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printf("\n\nDEMANDE MCAST\n=============\n");
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if( 1 ){
/* [1] Initialisation socket
=========================================================*/
/* 1. Création socket */
msocket = socket(AF_INET, SOCK_DGRAM, 0);
if( msocket == -1 )
return EXIT_FAILURE;
/* 2. Reset des valeurs */
bzero(&mcast, sizeof(struct sockaddr_in));
/* 3. On définit les infos */
mcast.sin_family = AF_INET;
mcast.sin_port = htons(4446);
mcast.sin_addr.s_addr = inet_addr("224.0.0.3");
/* [2] On demande une socket de communication
=========================================================*/
/* 1. Création de la requête */
len = sizeof(struct sockaddr_in);
if( sendto(msocket, "\5\1\2\3\4\0\1", sizeof(char)*7, 0, (struct sockaddr*) &mcast, len) < 0 ){
printf("cannot send multicast message.\n");
return EXIT_FAILURE;
}
/* [3] On récupère la réponse
=========================================================*/
/* 1. On récupère la réponse */
if( recvfrom(msocket, buffer, 512, 0, (struct sockaddr*) &mcast, &len) < BINDHDR_LEN ){
printf("cannot receive multicast response.\n");
return EXIT_FAILURE;
}
/* 2. On parse la réponse */
memcpy(&bh.flags, buffer, sizeof(char));
memcpy(&bh.addr, buffer+sizeof(char), sizeof(in_addr_t));
memcpy(&bh.port, buffer+sizeof(char)+sizeof(in_addr_t), sizeof(unsigned short));
// bh.addr = ntohl(bh.addr);
bh.port = ntohs(bh.port);
ip.s_addr = bh.addr;
printf("Received: { flags: %d, addr: %x/'%s', port: %d}\n", bh.flags, bh.addr, inet_ntoa(ip), bh.port);
close(msocket);
}
/************************************************
**** CONNECTION UDP ****
************************************************/
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printf("\n\nCONNECTION UDP\n==============\n");
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if( 1 ){
/* [1] Initialisation socket
=========================================================*/
/* 1. Création socket */
csocket = socket(AF_INET, SOCK_DGRAM, 0);
if( csocket == -1 )
return EXIT_FAILURE;
/* 2. Reset des valeurs */
bzero(&server, sizeof(struct sockaddr_in));
/* 3. On définit les infos */
server.sin_family = AF_INET;
server.sin_port = htons(bh.port);
server.sin_addr.s_addr = ip.s_addr;
/* [2] Initialisation de la connexion
=========================================================*/
if( sendto(csocket, "0", 1, 0, (struct sockaddr*) &server, len) < 0 ){
printf("Cannot send message through command socket.\n");
return EXIT_FAILURE;
}
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printf("Connected to UDP socket\n");
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}
sleep(1);
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/************************************************
**** DEMANDE INFO CLASSIQUE ****
************************************************/
if( 1 ){
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printf("\n\nDEMANDE DES DONNEES UNIQUEMENT\n==============================\n");
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/* [1] Preparing request
=========================================================*/
tr.flags = TERMREQ_FBK;
strcpy(tr.update.code, "CODE1");
tr.update.x = 1;
tr.update.y = 2;
tr.update.z = 3;
tr.update.cap = 4;
tr.update.spd = 5;
printf("Sending { flags: %d; plane: #%s { z=%d; cap=%d; speed=%d} }\n", tr.flags, tr.update.code, tr.update.z, tr.update.cap, tr.update.spd);
tr.update.x = htonl(tr.update.x);
tr.update.y = htonl(tr.update.y);
tr.update.z = htonl(tr.update.z);
tr.update.cap = htonl(tr.update.cap);
tr.update.spd = htonl(tr.update.spd);
/* [2] Filling buffer
=========================================================*/
bzero(buffer, 512);
memcpy(buffer+sizeof(char)*0+sizeof(int)*0, &tr.flags, sizeof(char));
memcpy(buffer+sizeof(char)*1+sizeof(int)*0, &tr.update.code, sizeof(char)*6);
memcpy(buffer+sizeof(char)*7+sizeof(int)*0, &tr.update.x, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*1, &tr.update.y, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*2, &tr.update.z, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*3, &tr.update.cap, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*4, &tr.update.spd, sizeof(int));
/* [3] Sending request
=========================================================*/
if( sendto(csocket, buffer, 7+sizeof(int)*5+1, 0, (struct sockaddr*) &server, len) < 0 ){
printf("Cannot ask for simple data.\n");
return EXIT_FAILURE;
}
/* [4] Fetch & print data
=========================================================*/
/* 1. On récupère la réponse */
len = sizeof(struct sockaddr_in);
nb = recvfrom(csocket, buffer, 512, 0, (struct sockaddr*) &server, &len);
printf("%d bytes received\n", nb);
if( nb < 2 ){
printf("Error receiving simple data.\n");
return EXIT_FAILURE;
}
/* 2. On parse la réponse */
count = 0; last = sizeof(char); memcpy(&trs.flags, buffer+count, last);
count += last; last = sizeof(char); memcpy(&trs.n, buffer+count, last);
trs.data = malloc( sizeof(struct plane) * trs.n );
for( i = 0 ; i < trs.n ; i++ ){
count += last; last = sizeof(char)*6; memcpy(&trs.data[i].code, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].x, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].y, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].z, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].cap, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].spd, buffer+count, last);
trs.data[i].x = ntohl(trs.data[i].x);
trs.data[i].y = ntohl(trs.data[i].y);
trs.data[i].z = ntohl(trs.data[i].z);
trs.data[i].cap = ntohl(trs.data[i].cap);
trs.data[i].spd = ntohl(trs.data[i].spd);
printf("Plane[%s@%d] { (%d,%d,%d), cap: %d, spd: %d}\n", trs.data[i].code, i, trs.data[i].x, trs.data[i].y, trs.data[i].z, trs.data[i].cap, trs.data[i].spd);
}
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if( trs.n > 0 )
memcpy(&tmp, &trs.data[0], sizeof(struct plane));
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}
sleep(1);
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/************************************************
**** DEMANDE MISE A JOUR SIMPLE ****
************************************************/
if( 1 ){
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printf("\n\nDEMANDE D'UPDATE SIMPLE\n=======================\n");
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if( trs.n < 1 ){
printf("No plane to update.\n");
return EXIT_FAILURE;
}
/* [1] Preparing request
=========================================================*/
tr.flags = TERMREQ_SPD;
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memcpy(&tr.update, &tmp, sizeof(struct plane));
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tr.update.spd = 1000;
printf("Update req { flags: %d; plane: #%s { z=%d; cap=%d; speed=%d} }\n", tr.flags, tr.update.code, tr.update.z, tr.update.cap, tr.update.spd);
tr.update.x = htonl(tr.update.x);
tr.update.y = htonl(tr.update.y);
tr.update.z = htonl(tr.update.z);
tr.update.cap = htonl(tr.update.cap);
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tr.update.spd = htonl(tr.update.spd);
/* [2] Filling buffer
=========================================================*/
bzero(buffer, 512);
memcpy(buffer+sizeof(char)*0+sizeof(int)*0, &tr.flags, sizeof(char));
memcpy(buffer+sizeof(char)*1+sizeof(int)*0, &tr.update.code, sizeof(char)*6);
memcpy(buffer+sizeof(char)*7+sizeof(int)*0, &tr.update.x, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*1, &tr.update.y, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*2, &tr.update.z, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*3, &tr.update.cap, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*4, &tr.update.spd, sizeof(int));
/* [3] Sending request
=========================================================*/
if( sendto(csocket, buffer, 7+sizeof(int)*5+1, 0, (struct sockaddr*) &server, len) < 0 ){
printf("Cannot ask for simple update.\n");
return EXIT_FAILURE;
}
/* [4] Fetch & print data
=========================================================*/
/* 1. On récupère la réponse */
len = sizeof(struct sockaddr_in);
nb = recvfrom(csocket, buffer, 512, 0, (struct sockaddr*) &server, &len);
printf("%d bytes received\n", nb);
if( nb < 1 ){
printf("Error receiving simple update.\n");
return EXIT_FAILURE;
}
/* 2. On parse la réponse */
count = 0; last = sizeof(char); memcpy(&trs.flags, buffer+count, last);
count += last; last = sizeof(char); memcpy(&trs.n, buffer+count, last);
printf("Flag received : %d\n", trs.flags);
trs.data = malloc( sizeof(struct plane) * trs.n );
for( i = 0 ; i < trs.n ; i++ ){
count += last; last = sizeof(char)*6; memcpy(&trs.data[i].code, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].x, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].y, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].z, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].cap, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].spd, buffer+count, last);
trs.data[i].x = ntohl(trs.data[i].x);
trs.data[i].y = ntohl(trs.data[i].y);
trs.data[i].z = ntohl(trs.data[i].z);
trs.data[i].cap = ntohl(trs.data[i].cap);
trs.data[i].spd = ntohl(trs.data[i].spd);
printf("Plane[%s@%d] { (%d,%d,%d), cap: %d, spd: %d}\n", trs.data[i].code, i, trs.data[i].x, trs.data[i].y, trs.data[i].z, trs.data[i].cap, trs.data[i].spd);
}
}
sleep(1);
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/************************************************
**** DEMANDE MISE A JOUR SIMPLE + DATA ****
************************************************/
if( 1 ){
printf("\n\nDEMANDE D'UPDATE SIMPLE + DATA\n==============================\n");
/* [1] Preparing request
=========================================================*/
tr.flags = TERMREQ_FBK|TERMREQ_ALT;
memcpy(&tr.update, &tmp, sizeof(struct plane));
tr.update.z = 500;
printf("Update req { flags: %d; plane: #%s { z=%d; cap=%d; speed=%d} }\n", tr.flags, tr.update.code, tr.update.z, tr.update.cap, tr.update.spd);
tr.update.x = htonl(tr.update.x);
tr.update.y = htonl(tr.update.y);
tr.update.z = htonl(tr.update.z);
tr.update.cap = htonl(tr.update.cap);
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tr.update.spd = htonl(tr.update.spd);
/* [2] Filling buffer
=========================================================*/
bzero(buffer, 512);
memcpy(buffer+sizeof(char)*0+sizeof(int)*0, &tr.flags, sizeof(char));
memcpy(buffer+sizeof(char)*1+sizeof(int)*0, &tr.update.code, sizeof(char)*6);
memcpy(buffer+sizeof(char)*7+sizeof(int)*0, &tr.update.x, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*1, &tr.update.y, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*2, &tr.update.z, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*3, &tr.update.cap, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*4, &tr.update.spd, sizeof(int));
/* [3] Sending request
=========================================================*/
if( sendto(csocket, buffer, 7+sizeof(int)*5+1, 0, (struct sockaddr*) &server, len) < 0 ){
printf("Cannot ask for simple update.\n");
return EXIT_FAILURE;
}
/* [4] Fetch & print data
=========================================================*/
/* 1. On récupère la réponse */
len = sizeof(struct sockaddr_in);
nb = recvfrom(csocket, buffer, 512, 0, (struct sockaddr*) &server, &len);
printf("%d bytes received\n", nb);
if( nb < 1 ){
printf("Error receiving simple update.\n");
return EXIT_FAILURE;
}
/* 2. On parse la réponse */
count = 0; last = sizeof(char); memcpy(&trs.flags, buffer+count, last);
count += last; last = sizeof(char); memcpy(&trs.n, buffer+count, last);
printf("Flag received : %d\n", trs.flags);
trs.data = malloc( sizeof(struct plane) * trs.n );
for( i = 0 ; i < trs.n ; i++ ){
count += last; last = sizeof(char)*6; memcpy(&trs.data[i].code, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].x, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].y, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].z, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].cap, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].spd, buffer+count, last);
trs.data[i].x = ntohl(trs.data[i].x);
trs.data[i].y = ntohl(trs.data[i].y);
trs.data[i].z = ntohl(trs.data[i].z);
trs.data[i].cap = ntohl(trs.data[i].cap);
trs.data[i].spd = ntohl(trs.data[i].spd);
printf("Plane[%s@%d] { (%d,%d,%d), cap: %d, spd: %d}\n", trs.data[i].code, i, trs.data[i].x, trs.data[i].y, trs.data[i].z, trs.data[i].cap, trs.data[i].spd);
}
}
sleep(1);
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/************************************************
**** DEMANDE MISE A JOUR COMBINEE ****
************************************************/
if( 1 ){
printf("\n\nDEMANDE D'UPDATE MULTIPLE + DATA\n================================\n");
/* [1] Preparing request
=========================================================*/
tr.flags = TERMREQ_FBK|TERMREQ_ALT|TERMREQ_CAP|TERMREQ_SPD;
memcpy(&tr.update, &tmp, sizeof(struct plane));
tr.update.z = 2001;
tr.update.cap = 21;
tr.update.spd = 201;
printf("Update req { flags: %d; plane: #%s { z=%d; cap=%d; speed=%d} }\n", tr.flags, tr.update.code, tr.update.z, tr.update.cap, tr.update.spd);
tr.update.x = htonl(tr.update.x);
tr.update.y = htonl(tr.update.y);
tr.update.z = htonl(tr.update.z);
tr.update.cap = htonl(tr.update.cap);
tr.update.spd = htonl(tr.update.spd);
/* [2] Filling buffer
=========================================================*/
bzero(buffer, 512);
memcpy(buffer+sizeof(char)*0+sizeof(int)*0, &tr.flags, sizeof(char));
memcpy(buffer+sizeof(char)*1+sizeof(int)*0, &tr.update.code, sizeof(char)*6);
memcpy(buffer+sizeof(char)*7+sizeof(int)*0, &tr.update.x, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*1, &tr.update.y, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*2, &tr.update.z, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*3, &tr.update.cap, sizeof(int));
memcpy(buffer+sizeof(char)*7+sizeof(int)*4, &tr.update.spd, sizeof(int));
/* [3] Sending request
=========================================================*/
if( sendto(csocket, buffer, 7+sizeof(int)*5+1, 0, (struct sockaddr*) &server, len) < 0 ){
printf("Cannot ask for simple update.\n");
return EXIT_FAILURE;
}
/* [4] Fetch & print data
=========================================================*/
/* 1. On récupère la réponse */
len = sizeof(struct sockaddr_in);
nb = recvfrom(csocket, buffer, 512, 0, (struct sockaddr*) &server, &len);
printf("%d bytes received\n", nb);
if( nb < 1 ){
printf("Error receiving simple update.\n");
return EXIT_FAILURE;
}
/* 2. On parse la réponse */
count = 0; last = sizeof(char); memcpy(&trs.flags, buffer+count, last);
count += last; last = sizeof(char); memcpy(&trs.n, buffer+count, last);
printf("Flag received : %d\n", trs.flags);
trs.data = malloc( sizeof(struct plane) * trs.n );
for( i = 0 ; i < trs.n ; i++ ){
count += last; last = sizeof(char)*6; memcpy(&trs.data[i].code, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].x, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].y, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].z, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].cap, buffer+count, last);
count += last; last = sizeof(int); memcpy(&trs.data[i].spd, buffer+count, last);
trs.data[i].x = ntohl(trs.data[i].x);
trs.data[i].y = ntohl(trs.data[i].y);
trs.data[i].z = ntohl(trs.data[i].z);
trs.data[i].cap = ntohl(trs.data[i].cap);
trs.data[i].spd = ntohl(trs.data[i].spd);
printf("Plane[%s@%d] { (%d,%d,%d), cap: %d, spd: %d}\n", trs.data[i].code, i, trs.data[i].x, trs.data[i].y, trs.data[i].z, trs.data[i].cap, trs.data[i].spd);
}
}
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return EXIT_SUCCESS;
}