#include #include #include #include #include #include #include #include #include <<<<<<< HEAD int initializeSocketUDP(char* service) { int sock_id; struct addrinfo precisions, *resultat=NULL, *origine; // On stocke dans précisions nos besoins pour le socket, dans resultat l'adresse qui respectera les requêtes ======= int initializeSocketUDP(char* service) { int sock_id; struct addrinfo precisions, *resultat=NULL, *origine; // On stocke dans précisions nos besoins pour le socket, dans resultat l'adresse qui respectera les reqêtes >>>>>>> 52d8a1eaf954b611aaf0861144b440a15f7c517d memset(&precisions, 0, sizeof precisions); precisions.ai_family = AF_UNSPEC; precisions.ai_socktype = SOCK_DGRAM; //precisions.ai_flags = AI_PASSIVE; if(getaddrinfo("192.168.0.14", service, &precisions, &origine)<0) { fprintf(stderr, "Erreur getaddrinfo\n"); return(-1); } int n=0; for(struct addrinfo* i=origine; i!=NULL && resultat==NULL; i=i->ai_next) { printf("%d - ", n); if(i->ai_family==AF_INET) { resultat=i; printf("Test : %d", origine->ai_addrlen); } printf("\n"); n++; } printf("Value : %d\n", n); struct sockaddr_in* test=(struct sockaddr_in*)(resultat->ai_addr); printf("Addr : %x\n", test->sin_addr.s_addr); if((sock_id=socket(resultat->ai_family, resultat->ai_socktype, resultat->ai_protocol))<0) { fprintf(stderr, "Erreur socket\n"); return(-1); } int val=1; if(setsockopt(sock_id, SOL_SOCKET, SO_REUSEADDR|SO_BROADCAST, &val, sizeof(val))<0) { fprintf(stderr, "Erreur setsockopt\n"); return(-1); } if(bind(sock_id, resultat->ai_addr, resultat->ai_addrlen)) { fprintf(stderr, "Erreur bind\n"); return(-1); } freeaddrinfo(origine); return sock_id; } int sendUDPBroadcast(char* message, int port) { static struct sockaddr_in addrUDP; addrUDP.sin_family=AF_INET; addrUDP.sin_port=(uint16_t)port; struct in_addr tmpadd={0xffffffff}; addrUDP.sin_addr=tmpadd; char tmp_str[15]; sprintf(tmp_str, "%d", port); int sock_id=initializeSocketUDP( tmp_str ); printf("Initialize via Broadcast %d\n", sock_id); <<<<<<< HEAD int status; if((status=sendto(sock_id, message, sizeof(message), 0, (struct sockaddr*) &addrUDP, sizeof(addrUDP))) < 0) { fprintf(stderr, "Erreur sendto %d\n", status); return(-1);} ======= if(sendto(sock_id, message, sizeof(message), 0, (struct sockaddr*) &addrUDP, sizeof(addrUDP)) < 0) { fprintf(stderr, "Erreur sendto\n"); return(-1);} >>>>>>> 52d8a1eaf954b611aaf0861144b440a15f7c517d close(sock_id); return 0; } int sendUDPUnicast(char* address, char* message, int port) { static struct sockaddr_in addrUDP; addrUDP.sin_family=AF_INET; addrUDP.sin_port=(uint16_t)port; inet_aton(address, &(addrUDP.sin_addr)); // Converti l'écriture string de format a.b.c.d en format Internet char tmp_str[15]; sprintf(tmp_str, "%d", port); int sock_id=initializeSocketUDP( tmp_str ); printf("Initialize via Unicast %d\n", sock_id); <<<<<<< HEAD if(sendto(sock_id, message, sizeof(message), 0, (struct sockaddr*) &addrUDP, sizeof(addrUDP)) < 0 ) { fprintf(stderr, "Error sendto %d\n", errno); return(-1); } ======= if(sendto(sock_id, message, sizeof(message), 0, (struct sockaddr*) &addrUDP, sizeof(addrUDP)) < 0 ) { fprintf(stderr, "Error sendto\n"); return(-1); } close(sock_id); return 0; } >>>>>>> 52d8a1eaf954b611aaf0861144b440a15f7c517d close(sock_id); return 0; } <<<<<<< HEAD ======= >>>>>>> 52d8a1eaf954b611aaf0861144b440a15f7c517d /* int main(void) { sendUDPBroadcast("Broadwesh", 2020); sendUDPUnicast("192.168.43.174", "Uniwesh", 2020); return(1); } */