void SEC_InitializeNetworking(uint_32 pcbs, uint_32 msgs, uint_32 sockets, boolean dhcp)
{
int_32 error;
IPCFG_IP_ADDRESS_DATA ip_data;
_enet_address enet_address;
/* runtime RTCS configuration */
_RTCSPCB_init = pcbs;
_RTCS_msgpool_init = msgs;
_RTCS_socket_part_init = sockets;
error = RTCS_create();
if (error == RTCS_OK) {
ip_data.ip = ENET_IPADDR;
ip_data.mask = ENET_IPMASK;
ip_data.gateway = ENET_IPGATEWAY;
ENET_get_mac_address(BSP_DEFAULT_ENET_DEVICE, ENET_IPADDR, enet_address);
ipcfg_init_device(BSP_DEFAULT_ENET_DEVICE, enet_address);
ipcfg_add_dns_ip(BSP_DEFAULT_ENET_DEVICE,LWDNS_server_ipaddr);
// check link status
printf("\nWaiting for ethernet cable plug in ... ");
while(!ipcfg_get_link_active(BSP_DEFAULT_ENET_DEVICE)) {};
printf("Cable connected\n");
/* If DHCP Enabled, get IP address from DHCP server */
if (dhcp) {
printf("\nDHCP bind ... ");
error = ipcfg_bind_dhcp_wait(BSP_DEFAULT_ENET_DEVICE, 1, &ip_data);
if (error != IPCFG_ERROR_OK) {
printf("Error %08x!\n", error);
}
else {
printf("Successful!\n");
}
} else {
/* Else bind with static IP */
printf ("\nStatic IP bind ... ");
error = ipcfg_bind_staticip(BSP_DEFAULT_ENET_DEVICE, &ip_data);
if (error != IPCFG_ERROR_OK) {
printf("Error %08x!\n",error);
}
else {
printf("Successful!\n");
}
}
if (error == IPCFG_ERROR_OK) {
ipcfg_get_ip(BSP_DEFAULT_ENET_DEVICE, &ip_data);
printf("\nIP Address : %d.%d.%d.%d\n",IPBYTES(ip_data.ip));
printf("\nSubnet Address : %d.%d.%d.%d\n",IPBYTES(ip_data.mask));
printf("\nGateway Address : %d.%d.%d.%d\n",IPBYTES(ip_data.gateway));
printf("\nDNS Address : %d.%d.%d.%d\n",IPBYTES(ipcfg_get_dns_ip(BSP_DEFAULT_ENET_DEVICE,0)));
}
} else {
printf("\nRTCS_Create failed !\n");
_task_block();
}
}
void SEC_InitializeNetworking(uint_32 pcbs, uint_32 msgs, uint_32 sockets, boolean dhcp)
{
int_32 error;
IPCFG_IP_ADDRESS_DATA ip_data;
_enet_address enet_address;
#if PSP_MQX_CPU_IS_MCF51CN
_enet_handle ehandle;
_rtcs_if_handle ihandle;
#endif
/* runtime RTCS configuration */
_RTCSPCB_init = pcbs;
_RTCS_msgpool_init = msgs;
_RTCS_socket_part_init = sockets;
error = RTCS_create();
if (error == RTCS_OK) {
ip_data.ip = ENET_IPADDR;
ip_data.mask = ENET_IPMASK;
ip_data.gateway = ENET_IPGATEWAY;
#if RTCSCFG_ENABLE_LWDNS
LWDNS_server_ipaddr = ENET_IPDNS;
#endif
ENET_get_mac_address(BSP_DEFAULT_ENET_DEVICE, ENET_IPADDR, enet_address);
#if PSP_MQX_CPU_IS_MCF51CN
ENET_initialize_ex(&ENET_param, BSP_DEFAULT_ENET_DEVICE, &ehandle);
if (RTCS_if_add(ehandle, RTCS_IF_ENET, &ihandle) == 0) {
if (ipcfg_init_interface(-1, ihandle) != 0) {
RTCS_if_remove(ihandle);
ENET_shutdown(ehandle);
_task_block();
}
}
else {
ENET_shutdown(ehandle);
}
#else
ipcfg_init_device(BSP_DEFAULT_ENET_DEVICE, enet_address);
#endif
ipcfg_add_dns_ip(BSP_DEFAULT_ENET_DEVICE,LWDNS_server_ipaddr);
// check link status
printf("\nWaiting for ethernet cable plug in ... ");
while(!ipcfg_get_link_active(BSP_DEFAULT_ENET_DEVICE)) {};
printf("Cable connected\n");
/* If DHCP Enabled, get IP address from DHCP server */
if (dhcp) {
printf("\nDHCP bind ... ");
error = ipcfg_bind_dhcp_wait(BSP_DEFAULT_ENET_DEVICE, 1, &ip_data);
if (error != IPCFG_ERROR_OK) {
printf("Error %08x!\n", error);
}
else {
printf("Successful!\n");
}
} else {
/* Else bind with static IP */
printf ("\nStatic IP bind ... ");
error = ipcfg_bind_staticip(BSP_DEFAULT_ENET_DEVICE, &ip_data);
if (error != IPCFG_ERROR_OK) {
printf("Error %08x!\n",error);
}
else {
printf("Successful!\n");
}
}
if (error == IPCFG_ERROR_OK) {
ipcfg_get_ip(BSP_DEFAULT_ENET_DEVICE, &ip_data);
printf("\nIP Address : %d.%d.%d.%d\n",IPBYTES(ip_data.ip));
printf("\nSubnet Address : %d.%d.%d.%d\n",IPBYTES(ip_data.mask));
printf("\nGateway Address : %d.%d.%d.%d\n",IPBYTES(ip_data.gateway));
printf("\nDNS Address : %d.%d.%d.%d\n",IPBYTES(ipcfg_get_dns_ip(BSP_DEFAULT_ENET_DEVICE,0)));
}
} else {
printf("\nRTCS_Create failed !\n");
_task_block();
}
SEC_GetTime();
}
static int32_t Shell_ipconfig_status (uint32_t enet_device)
{
IPCFG_STATE state;
bool link;
bool task;
_enet_address mac = {0};
IPCFG_IP_ADDRESS_DATA ip_data ;
#if RTCSCFG_IPCFG_ENABLE_DNS
_ip_address dns;
#endif
#if RTCSCFG_IPCFG_ENABLE_BOOT
_ip_address tftp_serveraddress;
unsigned char *tftp_servername;
unsigned char *boot_filename;
#endif
#if RTCSCFG_ENABLE_IP6
uint32_t result;
uint32_t n;
IPCFG6_GET_ADDR_DATA data;
char prn_addr6[sizeof "ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255"];
#endif
state = ipcfg_get_state (enet_device);
if (state != IPCFG_STATE_INIT)
{
link = ipcfg_get_link_active (enet_device);
task = ipcfg_task_status ();
ipcfg_get_mac (enet_device, mac);
ipcfg_get_ip (enet_device, &ip_data);
#if RTCSCFG_IPCFG_ENABLE_DNS
dns = ipcfg_get_dns_ip (enet_device, 0);
#endif
#if RTCSCFG_IPCFG_ENABLE_BOOT
tftp_serveraddress = ipcfg_get_tftp_serveraddress (enet_device);
tftp_servername = ipcfg_get_tftp_servername (enet_device);
boot_filename = ipcfg_get_boot_filename (enet_device);
#endif
printf ("Eth# : %d\n", enet_device);
printf ("Link : %s\n", link ? "on" : "off");
printf ("MAC : %02x:%02x:%02x:%02x:%02x:%02x\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
#if RTCSCFG_ENABLE_IP4
printf ("IP4 : %d.%d.%d.%d Type: %s\n", IPBYTES(ip_data.ip), ipcfg_get_state_string (state) );
printf ("IP4 Mask : %d.%d.%d.%d\n", IPBYTES(ip_data.mask));
#if RTCSCFG_ENABLE_GATEWAYS
printf ("IP4 Gate : %d.%d.%d.%d\n", IPBYTES(ip_data.gateway));
#endif
#if RTCSCFG_IPCFG_ENABLE_DNS
printf ("IP4 DNS : %d.%d.%d.%d\n", IPBYTES(dns));
#endif
#endif /* RTCSCFG_ENABLE_IP4 */
/************************************************/
#if RTCSCFG_ENABLE_IP6
n = 0;
while(!ipcfg6_get_addr(enet_device, n, &data))
{
if(inet_ntop(AF_INET6,&data.ip_addr, prn_addr6, sizeof(prn_addr6)))
{
printf("IP6 : %s ",prn_addr6);
/* IPv6 address state */
printf("State: ");
switch(data.ip_addr_state)
{
case IP6_ADDR_STATE_PREFERRED:
printf("PREFERRED ");
break;
case IP6_ADDR_STATE_TENTATIVE:
printf("TENTATIVE ");
break;
case IP6_ADDR_STATE_NOT_USED:
printf("NOT_USED ");
break;
default:
printf("%d ", data.ip_addr_state);
break;
}
/* IPv6 address type */
printf("Type: ");
switch(data.ip_addr_type)
{
case IP6_ADDR_TYPE_MANUAL:
printf("MANUAL\n");
break;
case IP6_ADDR_TYPE_AUTOCONFIGURABLE:
printf("AUTOCONFIGURABLE\n");
break;
default:
printf("%d\n", data.ip_addr_type);
break;
}
}
else
{
printf("IP6 : ERROR IP CONVERT\n");
}
n++;
}
/* Print Scope ID.*/
printf("ScopeID : %d\n", ipcfg6_get_scope_id(enet_device));
#endif /* RTCSCFG_ENABLE_IP6 */
#if RTCSCFG_ENABLE_IP4
#if RTCSCFG_IPCFG_ENABLE_BOOT
printf ("TFTP: %d.%d.%d.%d '%s'\n", IPBYTES(tftp_serveraddress), tftp_servername);
printf ("BOOT: '%s'\n", boot_filename);
#endif
#endif /* RTCSCFG_ENABLE_IP4 */
printf ("Link status task %s\n", task ? "running" : "stopped");
}
else
{
printf ("Ethernet device %d not yet initialized.\n", enet_device);
}
return SHELL_EXIT_SUCCESS;
}
void rtcs_init()
{
IPCFG_IP_ADDRESS_DATA ip_data;
_enet_address enet_address;
uint_32 error = RTCS_create();
if (error != RTCS_OK)
{
printf("\nRTCS failed to initialize, error = %X", error);
_task_block();
}
_IP_forward = TRUE;
#ifdef BSP_ENET_DEVICE_COUNT
#if (BSP_ENET_DEVICE_COUNT > 0)
/*Following section is relevant only in case there as some enet driver available in BSP (FEC, MACNET, WIFI or other enet driver)*/
ip_data.ip = ENET_IPADDR;
ip_data.mask = ENET_IPMASK;
ip_data.gateway = ENET_GATEWAY;
/* calcualte unique mac address from IP ADDRES */
ENET_get_mac_address (ENET_DEVICE, ENET_IPADDR, enet_address);
error = ipcfg_init_device (ENET_DEVICE, enet_address);
if (error != RTCS_OK)
{
printf("\nFailed to initialize ethernet device, error = %X", error);
_task_block();
}
#if RTCSCFG_ENABLE_LWDNS
LWDNS_server_ipaddr = ENET_GATEWAY;
ipcfg_add_dns_ip(ENET_DEVICE,LWDNS_server_ipaddr);
#endif /* RTCSCFG_ENABLE_LWDNS */
printf("\nWaiting for ethernet cable plug in ... ");
while(!ipcfg_get_link_active(ENET_DEVICE)) {};
printf("Cable connected\n");
#if RTCS_DHCP
printf("Contacting DHCP server ... ");
error = ipcfg_bind_dhcp_wait(ENET_DEVICE, FALSE, &ip_data);
#else
printf("Setting static IP address ... ");
error = ipcfg_bind_staticip (ENET_DEVICE, &ip_data);
#endif /* RTCS_DHCP */
if (error != IPCFG_ERROR_OK)
{
printf("\nRTCS failed to bind interface with IPv4, error = %X", error);
_task_block();
}
else
{
printf("OK\n");
}
ipcfg_get_ip(ENET_DEVICE, &ip_data);
printf("\nIP Address : %d.%d.%d.%d\n",IPBYTES(ip_data.ip));
printf("\nSubnet Address : %d.%d.%d.%d\n",IPBYTES(ip_data.mask));
printf("\nGateway Address : %d.%d.%d.%d\n",IPBYTES(ip_data.gateway));
printf("\nDNS Address : %d.%d.%d.%d\n",IPBYTES(ipcfg_get_dns_ip(ENET_DEVICE,0)));
#endif /* BSP_ENET_DEVICE_COUNT > 0 */
#endif /* BSP_ENET_DEVICE_COUNT */
#if RTCS_PPP
PPP_start();
#endif /* RTCS_PPP */
/* TODO: start server(s) in separate tasks */
}
