void init_ethernet(void) { enc28j60_comm_init(); UARTprintf("Welcome\n"); enc_init(mac_addr); systick_init(); lwip_init(); #if !LWIP_DHCP IP4_ADDR(&gw_g, 10,0,0,1); IP4_ADDR(&ipaddr_g, 10,0,0,100); IP4_ADDR(&netmask_g, 255, 255, 255, 0) #else IP4_ADDR(&gw_g, 0,0,0,0); IP4_ADDR(&ipaddr_g, 0,0,0,0); IP4_ADDR(&netmask_g, 0, 0, 0, 0); #endif netif_add(&netif_g, &ipaddr_g, &netmask_g, &gw_g, NULL, enc28j60_init, ethernet_input); netif_set_default(&netif_g); #if !LWIP_DHCP netif_set_up(&netif_g); #else dhcp_start(&netif_g); #endif }
void main(void) { static struct uip_eth_addr eth_addr; uip_ipaddr_t ipaddr; cpu_init(); uart_init(); printf("Welcome\n"); spi_init(); enc28j60_comm_init(); printf("Welcome\n"); enc_init(mac_addr); // // Configure SysTick for a periodic interrupt. // MAP_SysTickPeriodSet(MAP_SysCtlClockGet() / SYSTICKHZ); MAP_SysTickEnable(); MAP_SysTickIntEnable(); //MAP_IntEnable(INT_GPIOA); MAP_IntEnable(INT_GPIOE); MAP_IntMasterEnable(); MAP_SysCtlPeripheralClockGating(false); printf("int enabled\n"); MAP_GPIOIntTypeSet(GPIO_PORTE_BASE, ENC_INT, GPIO_FALLING_EDGE); MAP_GPIOPinIntClear(GPIO_PORTE_BASE, ENC_INT); MAP_GPIOPinIntEnable(GPIO_PORTE_BASE, ENC_INT); uip_init(); eth_addr.addr[0] = mac_addr[0]; eth_addr.addr[1] = mac_addr[1]; eth_addr.addr[2] = mac_addr[2]; eth_addr.addr[3] = mac_addr[3]; eth_addr.addr[4] = mac_addr[4]; eth_addr.addr[5] = mac_addr[5]; uip_setethaddr(eth_addr); #define DEFAULT_IPADDR0 10 #define DEFAULT_IPADDR1 0 #define DEFAULT_IPADDR2 0 #define DEFAULT_IPADDR3 201 #define DEFAULT_NETMASK0 255 #define DEFAULT_NETMASK1 255 #define DEFAULT_NETMASK2 255 #define DEFAULT_NETMASK3 0 #undef STATIC_IP #ifdef STATIC_IP uip_ipaddr(ipaddr, DEFAULT_IPADDR0, DEFAULT_IPADDR1, DEFAULT_IPADDR2, DEFAULT_IPADDR3); uip_sethostaddr(ipaddr); printf("IP: %d.%d.%d.%d\n", DEFAULT_IPADDR0, DEFAULT_IPADDR1, DEFAULT_IPADDR2, DEFAULT_IPADDR3); uip_ipaddr(ipaddr, DEFAULT_NETMASK0, DEFAULT_NETMASK1, DEFAULT_NETMASK2, DEFAULT_NETMASK3); uip_setnetmask(ipaddr); #else uip_ipaddr(ipaddr, 0, 0, 0, 0); uip_sethostaddr(ipaddr); printf("Waiting for IP address...\n"); uip_ipaddr(ipaddr, 0, 0, 0, 0); uip_setnetmask(ipaddr); #endif httpd_init(); #ifndef STATIC_IP dhcpc_init(mac_addr, 6); dhcpc_request(); #endif long lPeriodicTimer, lARPTimer; lPeriodicTimer = lARPTimer = 0; int i; // = MAP_GPIOPinRead(GPIO_PORTA_BASE, ENC_INT) & ENC_INT; while(true) { //MAP_IntDisable(INT_UART0); MAP_SysCtlSleep(); //MAP_IntEnable(INT_UART0); //i = MAP_GPIOPinRead(GPIO_PORTA_BASE, ENC_INT) & ENC_INT; /*while(i != 0 && g_ulFlags == 0) { i = MAP_GPIOPinRead(GPIO_PORTA_BASE, ENC_INT) & ENC_INT; }*/ if( HWREGBITW(&g_ulFlags, FLAG_ENC_INT) == 1 ) { HWREGBITW(&g_ulFlags, FLAG_ENC_INT) = 0; enc_action(); } if(HWREGBITW(&g_ulFlags, FLAG_SYSTICK) == 1) { HWREGBITW(&g_ulFlags, FLAG_SYSTICK) = 0; lPeriodicTimer += SYSTICKMS; lARPTimer += SYSTICKMS; //printf("%d %d\n", lPeriodicTimer, lARPTimer); } if( lPeriodicTimer > UIP_PERIODIC_TIMER_MS ) { lPeriodicTimer = 0; int l; for(l = 0; l < UIP_CONNS; l++) { uip_periodic(l); // // If the above function invocation resulted in data that // should be sent out on the network, the global variable // uip_len is set to a value > 0. // if(uip_len > 0) { uip_arp_out(); enc_send_packet(uip_buf, uip_len); uip_len = 0; } } for(l = 0; l < UIP_UDP_CONNS; l++) { uip_udp_periodic(l); if( uip_len > 0) { uip_arp_out(); enc_send_packet(uip_buf, uip_len); uip_len = 0; } } } if( lARPTimer > UIP_ARP_TIMER_MS) { lARPTimer = 0; uip_arp_timer(); } } }