int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Update system core clock
SystemCoreClockUpdate();
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP FTP Client Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2014 Oryx Embedded\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: MK60N512MD100\r\n");
TRACE_INFO("\r\n");
//Configure I/Os
ioInit();
//TCP/IP stack initialization
error = tcpIpStackInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
tcpIpStackSetInterfaceName(interface, "eth0");
//Set host name
tcpIpStackSetHostname(interface, "FTPClientDemo");
//Select the relevant network adapter
tcpIpStackSetDriver(interface, &mk60EthDriver);
tcpIpStackSetPhyDriver(interface, &ksz8041PhyDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
tcpIpStackSetMacAddr(interface, &macAddr);
//Initialize network interface
error = tcpIpStackConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//MPU configuration
MPU_Config();
//HAL library initialization
HAL_Init();
//Configure the system clock
SystemClock_Config();
//Enable I-cache and D-cache
SCB_EnableICache();
SCB_EnableDCache();
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP FTP Client Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2015 Oryx Embedded SARL\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: STM32F746\r\n");
TRACE_INFO("\r\n");
//LED configuration
BSP_LED_Init(LED1);
//Clear LEDs
BSP_LED_Off(LED1);
//Initialize user button
BSP_PB_Init(BUTTON_KEY, BUTTON_MODE_GPIO);
//Initialize LCD display
BSP_LCD_Init();
BSP_LCD_LayerDefaultInit(0, LCD_FRAME_BUFFER_LAYER0);
BSP_LCD_SelectLayer(0);
BSP_LCD_SetBackColor(LCD_COLOR_BLUE);
BSP_LCD_SetTextColor(LCD_COLOR_WHITE);
BSP_LCD_SetFont(&Font24);
BSP_LCD_DisplayOn();
//Clear LCD display
BSP_LCD_Clear(LCD_COLOR_BLUE);
//Welcome message
lcdSetCursor(0, 0);
printf("FTP Client Demo\r\n");
//TCP/IP stack initialization
error = netInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
netSetInterfaceName(interface, "eth0");
//Set host name
netSetHostname(interface, "FTPClientDemo");
//Select the relevant network adapter
netSetDriver(interface, &stm32f7xxEthDriver);
netSetPhyDriver(interface, &lan8742PhyDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
netSetMacAddr(interface, &macAddr);
//Initialize network interface
error = netConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP Web Server Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2016 Oryx Embedded SARL\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: SAM7SE512\r\n");
TRACE_INFO("\r\n");
//Configure I/Os
ioInit();
//Generate a random seed
//PRNG initialization
error = yarrowInit(&yarrowContext);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize PRNG!\r\n");
}
//Properly seed the PRNG
error = yarrowSeed(&yarrowContext, seed, sizeof(seed));
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to seed PRNG!\r\n");
}
//TCP/IP stack initialization
error = netInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
netSetInterfaceName(interface, "eth0");
//Set host name
netSetHostname(interface, "WebServerDemo");
//Select the relevant network adapter
netSetDriver(interface, &dm9000Driver);
//Set external interrupt line driver
netSetExtIntDriver(interface, &extIntDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
netSetMacAddr(interface, &macAddr);
//Initialize network interface
error = netConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, 0, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, 0, &ipv6Addr);
//Set default router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetDefaultRouter(interface, 0, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Get default settings
httpServerGetDefaultSettings(&httpServerSettings);
//Bind HTTP server to the desired interface
httpServerSettings.interface = &netInterface[0];
//Listen to port 80
httpServerSettings.port = HTTP_PORT;
//Client connections
httpServerSettings.maxConnections = APP_HTTP_MAX_CONNECTIONS;
httpServerSettings.connections = httpConnections;
//Specify the server's root directory
strcpy(httpServerSettings.rootDirectory, "/www/");
//Set default home page
strcpy(httpServerSettings.defaultDocument, "index.shtm");
//Callback functions
httpServerSettings.authCallback = httpServerAuthCallback;
httpServerSettings.cgiCallback = httpServerCgiCallback;
httpServerSettings.uriNotFoundCallback = httpServerUriNotFoundCallback;
//HTTP server initialization
error = httpServerInit(&httpServerContext, &httpServerSettings);
//Failed to initialize HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize HTTP server!\r\n");
}
//Start HTTP server
error = httpServerStart(&httpServerContext);
//Failed to start HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start HTTP server!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
void slaacProcessRouterAdv(SlaacContext *context,
const Ipv6Addr *srcAddr, NdpRouterAdvMessage *message, size_t length)
{
uint_t i;
uint_t n;
NdpPrefixInfoOption *prefixInfoOption;
NdpRdnssOption *rdnssOption;
Eui64 interfaceId;
Ipv6Addr globalAddr;
//Check current state
if(context->state != SLAAC_STATE_ROUTER_SOLICIT)
return;
//Save router address
ipv6SetRouter(context->interface, srcAddr);
//Calculate the length of the Options field
length -= sizeof(NdpRouterAdvMessage);
//Search for the Prefix Information option
prefixInfoOption = ndpGetOption(message->options, length, NDP_OPT_PREFIX_INFORMATION);
//Prefix Information option not found?
if(prefixInfoOption == NULL || prefixInfoOption->length != 4)
return;
//If the Autonomous flag is not set, silently ignore the Prefix
//Information option
if(!prefixInfoOption->a)
return;
//If the prefix is the link-local prefix, silently ignore the
//Prefix Information option
if(ipv6CompPrefix(&prefixInfoOption->prefix, &IPV6_LINK_LOCAL_ADDR_PREFIX, 64))
return;
//If the preferred lifetime is greater than the valid lifetime,
//silently ignore the Prefix Information option
if(prefixInfoOption->preferredLifetime > prefixInfoOption->validLifetime)
return;
//If the sum of the prefix length and interface identifier length does
//not equal 128 bits, the Prefix Information option must be ignored
if(prefixInfoOption->prefixLength != 64)
return;
//Save IPv6 prefix
ipv6SetPrefix(context->interface, &prefixInfoOption->prefix,
prefixInfoOption->prefixLength);
//Generate the 64-bit interface identifier
macAddrToEui64(&context->interface->macAddr, &interfaceId);
//Form an address by combining the advertised prefix
//with the interface identifier
globalAddr.w[0] = prefixInfoOption->prefix.w[0];
globalAddr.w[1] = prefixInfoOption->prefix.w[1];
globalAddr.w[2] = prefixInfoOption->prefix.w[2];
globalAddr.w[3] = prefixInfoOption->prefix.w[3];
globalAddr.w[4] = interfaceId.w[0];
globalAddr.w[5] = interfaceId.w[1];
globalAddr.w[6] = interfaceId.w[2];
globalAddr.w[7] = interfaceId.w[3];
//Use the global address as a tentative address
ipv6SetGlobalAddr(context->interface, &globalAddr, IPV6_ADDR_STATE_TENTATIVE);
//Use the DNS servers provided by the router?
if(!context->manualDnsConfig)
{
//Search for the Recursive DNS Server (RDNSS) option
rdnssOption = ndpGetOption(message->options, length, NDP_OPT_RECURSIVE_DNS_SERVER);
//RDNSS option found?
if(rdnssOption != NULL && rdnssOption->length >= 1)
{
//Retrieve the number of addresses
n = (rdnssOption->length - 1) / 2;
//Save DNS servers
for(i = 0; i < n; i++)
ipv6SetDnsServer(context->interface, i, &rdnssOption->address[i]);
}
}
//Set time stamp
context->timestamp = osGetSystemTime();
//Reset timeout value
context->timeout = 0;
//Reset retransmission counter
context->retransmitCount = 0;
//Verify the uniqueness of the global address
context->state = SLAAC_STATE_GLOBAL_ADDR_DAD;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("******************************\r\n");
TRACE_INFO("*** CycloneSSL Client Demo ***\r\n");
TRACE_INFO("******************************\r\n");
TRACE_INFO("Copyright: 2010-2015 Oryx Embedded SARL\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: AT32UC3A0512\r\n");
TRACE_INFO("\r\n");
//Configure I/Os
ioInit();
//Initialize LCD display
/*GLCD_Init();
GLCD_SetBackColor(Blue);
GLCD_SetTextColor(White);
GLCD_Clear(Blue);*/
//Welcome message
lcdSetCursor(0, 0);
printf("SSL Client Demo\r\n");
//Generate a random seed
//PRNG initialization
error = yarrowInit(&yarrowContext);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize PRNG!\r\n");
}
//Properly seed the PRNG
error = yarrowSeed(&yarrowContext, seed, sizeof(seed));
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to seed PRNG!\r\n");
}
//Debug message
TRACE_INFO("Loading credentials...\r\n");
//Start of exception handling block
do
{
//Load trusted CA certificates
error = resGetData(APP_CA_CERT_BUNDLE, (uint8_t **) &trustedCaList, &trustedCaListLength);
//Any error to report?
if(error) break;
//Load client's certificate
error = resGetData(APP_CLIENT_CERT, (uint8_t **) &clientCert, &clientCertLength);
//Any error to report?
if(error) break;
//Load client's private key
error = resGetData(APP_CLIENT_PRIVATE_KEY, (uint8_t **) &clientPrivateKey, &clientPrivateKeyLength);
//Any error to report?
if(error) break;
//End of exception handling block
} while(0);
//Check error code
if(error)
{
//Debug message
TRACE_ERROR("Failed to load credentials!\r\n");
}
//TCP/IP stack initialization
error = netInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
netSetInterfaceName(interface, "eth0");
//Set host name
netSetHostname(interface, "SSLClientDemo");
//Select the relevant network adapter
netSetDriver(interface, &avr32EthDriver);
netSetPhyDriver(interface, &dp83848PhyDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
netSetMacAddr(interface, &macAddr);
//Initialize network interface
error = netConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Create user task
task = osCreateTask("User Task", userTask, NULL, 850, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
void slaacTick(SlaacContext *context)
{
systime_t time;
//Get current time
time = osGetSystemTime();
//Enter critical section
osAcquireMutex(&context->mutex);
//Check current state
if(context->state == SLAAC_STATE_INIT)
{
//Check link state
if(context->running && context->interface->linkState)
{
Eui64 interfaceId;
Ipv6Addr linkLocalAddr;
//Generate the 64-bit interface identifier
macAddrToEui64(&context->interface->macAddr, &interfaceId);
//A link-local address is formed by combining the well-known
//link-local prefix fe80::0 with the interface identifier
linkLocalAddr.w[0] = htons(0xFE80);
linkLocalAddr.w[1] = htons(0x0000);
linkLocalAddr.w[2] = htons(0x0000);
linkLocalAddr.w[3] = htons(0x0000);
linkLocalAddr.w[4] = interfaceId.w[0];
linkLocalAddr.w[5] = interfaceId.w[1];
linkLocalAddr.w[6] = interfaceId.w[2];
linkLocalAddr.w[7] = interfaceId.w[3];
//Use the link-local address as a tentative address
ipv6SetLinkLocalAddr(context->interface,
&linkLocalAddr, IPV6_ADDR_STATE_TENTATIVE);
//Set time stamp
context->timestamp = time;
//Reset timeout value
context->timeout = 0;
//Reset retransmission counter
context->retransmitCount = 0;
//Verify the uniqueness of the link-local address
context->state = SLAAC_STATE_LINK_LOCAL_ADDR_DAD;
}
}
else if(context->state == SLAAC_STATE_LINK_LOCAL_ADDR_DAD)
{
//Check current time
if((time - context->timestamp) >= context->timeout)
{
//Duplicate Address Detection failed?
if(context->interface->ipv6Config.linkLocalAddrDup)
{
//A tentative address that is determined to be a duplicate
//must not be assigned to an interface
ipv6SetLinkLocalAddr(context->interface,
&IPV6_UNSPECIFIED_ADDR, IPV6_ADDR_STATE_INVALID);
//Address autoconfiguration failed
context->state = SLAAC_STATE_ERROR;
//Dump current IPv6 configuration for debugging purpose
slaacDumpConfig(context);
}
#if (NDP_DUP_ADDR_DETECT_TRANSMITS > 0)
//Duplicate Address Detection is on-going?
else if(context->retransmitCount < NDP_DUP_ADDR_DETECT_TRANSMITS)
{
//Send Neighbor Solicitation message
ndpSendNeighborSol(context->interface, &context->interface->ipv6Config.linkLocalAddr);
//Save the time at which the message was sent
context->timestamp = time;
//Set timeout value
context->timeout = NDP_RETRANS_TIMER;
//Increment retransmission counter
context->retransmitCount++;
}
#endif
//Duplicate Address Detection is complete?
else
{
//The use of the link-local address is now unrestricted
context->interface->ipv6Config.linkLocalAddrState = IPV6_ADDR_STATE_PREFERRED;
//Set time stamp
context->timestamp = time;
//Delay before transmitting the first Router Solicitation message
context->timeout = tcpIpStackGetRandRange(0, NDP_MAX_RTR_SOLICITATION_DELAY);
//Reset retransmission counter
context->retransmitCount = 0;
//To obtain an advertisement quickly, a host sends out Router Solicitations
context->state = SLAAC_STATE_ROUTER_SOLICIT;
}
}
}
else if(context->state == SLAAC_STATE_ROUTER_SOLICIT)
{
//Check current time
if((time - context->timestamp) >= context->timeout)
{
//Check retransmission counter
if(context->retransmitCount < NDP_MAX_RTR_SOLICITATIONS)
{
//Send Router Solicitation message
ndpSendRouterSol(context->interface);
//Save the time at which the message was sent
context->timestamp = time;
//Set timeout value
context->timeout = NDP_RTR_SOLICITATION_INTERVAL;
//Increment retransmission counter
context->retransmitCount++;
}
else
{
//A link has no routers if no Router Advertisements are received
//after having sent a small number of Router Solicitations
context->state = SLAAC_STATE_ERROR;
//Dump current IPv6 configuration for debugging purpose
slaacDumpConfig(context);
}
}
}
else if(context->state == SLAAC_STATE_GLOBAL_ADDR_DAD)
{
//Check current time
if((time - context->timestamp) >= context->timeout)
{
//Duplicate Address Detection failed?
if(context->interface->ipv6Config.globalAddrDup)
{
//A tentative address that is determined to be a duplicate
//must not be assigned to an interface
ipv6SetGlobalAddr(context->interface,
&IPV6_UNSPECIFIED_ADDR, IPV6_ADDR_STATE_INVALID);
//Address autoconfiguration failed
context->state = SLAAC_STATE_ERROR;
//Dump current IPv6 configuration for debugging purpose
slaacDumpConfig(context);
}
#if (NDP_DUP_ADDR_DETECT_TRANSMITS > 0)
//Duplicate Address Detection is on-going?
else if(context->retransmitCount < NDP_DUP_ADDR_DETECT_TRANSMITS)
{
//Send Neighbor Solicitation message
ndpSendNeighborSol(context->interface, &context->interface->ipv6Config.globalAddr);
//Save the time at which the message was sent
context->timestamp = time;
//Set timeout value
context->timeout = NDP_RETRANS_TIMER;
//Increment retransmission counter
context->retransmitCount++;
}
#endif
//Duplicate Address Detection is complete?
else
{
//The use of the global address is now unrestricted
context->interface->ipv6Config.globalAddrState = IPV6_ADDR_STATE_PREFERRED;
//Successful address autoconfiguration
context->state = SLAAC_STATE_CONFIGURED;
//Dump current IPv6 configuration for debugging purpose
slaacDumpConfig(context);
}
}
}
//Leave critical section
osReleaseMutex(&context->mutex);
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP FTP Server Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2014 Oryx Embedded\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: STM32F407\r\n");
TRACE_INFO("\r\n");
//LED configuration
STM_EVAL_LEDInit(LED1);
STM_EVAL_LEDInit(LED2);
STM_EVAL_LEDInit(LED3);
STM_EVAL_LEDInit(LED4);
//Clear LEDs
STM_EVAL_LEDOff(LED1);
STM_EVAL_LEDOff(LED2);
STM_EVAL_LEDOff(LED3);
STM_EVAL_LEDOff(LED4);
//Initialize I/O expander
IOE_Config();
//Initialize user button
STM_EVAL_PBInit(BUTTON_KEY, BUTTON_MODE_GPIO);
//Initialize LCD display
STM324xG_LCD_Init();
LCD_SetBackColor(Blue);
LCD_SetTextColor(White);
LCD_SetFont(&Font16x24);
LCD_Clear(Blue);
//Welcome message
lcdSetCursor(0, 0);
printf("FTP Server Demo");
//File system initialization
error = fsInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize file system!\r\n");
}
//TCP/IP stack initialization
error = tcpIpStackInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
tcpIpStackSetInterfaceName(interface, "eth0");
//Set host name
tcpIpStackSetHostname(interface, "FTPServerDemo");
//Select the relevant network adapter
tcpIpStackSetDriver(interface, &stm32f4x7EthDriver);
tcpIpStackSetPhyDriver(interface, &dp83848PhyDriver);
//Set external interrupt line driver
tcpIpStackSetExtIntDriver(interface, &extIntDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
tcpIpStackSetMacAddr(interface, &macAddr);
//Initialize network interface
error = tcpIpStackConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Get default settings
ftpServerGetDefaultSettings(&ftpServerSettings);
//Bind FTP server to the desired interface
ftpServerSettings.interface = &netInterface[0];
//Listen to port 21
ftpServerSettings.port = FTP_PORT;
//Root directory
strcpy(ftpServerSettings.rootDir, "/");
//User verification callback function
ftpServerSettings.checkUserCallback = ftpServerCheckUserCallback;
//Password verification callback function
ftpServerSettings.checkPasswordCallback = ftpServerCheckPasswordCallback;
//Callback used to retrieve file permissions
ftpServerSettings.getFilePermCallback = ftpServerGetFilePermCallback;
//FTP server initialization
error = ftpServerInit(&ftpServerContext, &ftpServerSettings);
//Failed to initialize FTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize FTP server!\r\n");
}
//Start FTP server
error = ftpServerStart(&ftpServerContext);
//Failed to start FTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start FTP server!\r\n");
}
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP Web Server Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2014 Oryx Embedded\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: STM32F407\r\n");
TRACE_INFO("\r\n");
//Configure I/Os
ioInit();
//Initialize LCD display
STM32f4_Discovery_LCD_Init();
LCD_SetBackColor(Blue);
LCD_SetTextColor(White);
LCD_SetFont(&Font16x24);
LCD_Clear(Blue);
//Welcome message
lcdSetCursor(0, 0);
printf("Web Server Demo");
//TCP/IP stack initialization
error = tcpIpStackInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
tcpIpStackSetInterfaceName(interface, "eth0");
//Set host name
tcpIpStackSetHostname(interface, "WebServerDemo");
//Select the relevant network adapter
tcpIpStackSetDriver(interface, &stm32f4x7EthDriver);
tcpIpStackSetPhyDriver(interface, &lan8720PhyDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
tcpIpStackSetMacAddr(interface, &macAddr);
//Initialize network interface
error = tcpIpStackConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Get default settings
httpServerGetDefaultSettings(&httpServerSettings);
//Bind HTTP server to the desired interface
httpServerSettings.interface = &netInterface[0];
//Listen to port 80
httpServerSettings.port = HTTP_PORT;
//Specify the server's root directory
strcpy(httpServerSettings.rootDirectory, "/www/");
//Set default home page
strcpy(httpServerSettings.defaultDocument, "index.shtm");
//Callback functions
httpServerSettings.cgiCallback = httpServerCgiCallback;
httpServerSettings.uriNotFoundCallback = httpServerUriNotFoundCallback;
//HTTP server initialization
error = httpServerInit(&httpServerContext, &httpServerSettings);
//Failed to initialize HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize HTTP server!\r\n");
}
//Start HTTP server
error = httpServerStart(&httpServerContext);
//Failed to start HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start HTTP server!\r\n");
}
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Initialize kernel
osInitKernel();
//Configure debug UART
debugInit(115200);
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP FTP Client Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2015 Oryx Embedded SARL\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: RX63N\r\n");
TRACE_INFO("\r\n");
//Configure I/Os
ioInit();
//Initialize RSPI channel
R_RSPI_Init(RSPI_CHANNEL_0);
//Initialize LCD display
GlyphOpen(&lcdHandle, 0);
GlyphNormalScreen(lcdHandle);
GlyphSetFont(lcdHandle, GLYPH_FONT_6_BY_13);
//Clear display
GlyphClearScreen(lcdHandle);
//Welcome message
lcdSetCursor(0, 0);
printf("FTP Client\r\nDemo\r\n");
//TCP/IP stack initialization
error = netInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
netSetInterfaceName(interface, "eth0");
//Set host name
netSetHostname(interface, "FTPClientDemo");
//Select the relevant network adapter
netSetDriver(interface, &rx63nEthDriver);
netSetPhyDriver(interface, &dp83620PhyDriver);
//Set external interrupt line driver
netSetExtIntDriver(interface, &extIntDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
netSetMacAddr(interface, &macAddr);
//Initialize network interface
error = netConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Enable interrupts
__enable_interrupt();
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
int_t main(void)
{
error_t error;
NetInterface *interface;
OsTask *task;
MacAddr macAddr;
#if (APP_USE_DHCP == DISABLED)
Ipv4Addr ipv4Addr;
#endif
#if (APP_USE_SLAAC == DISABLED)
Ipv6Addr ipv6Addr;
#endif
//Update system core clock
sysclk_init();
board_init();
// Initialize interrupt vector table support.
irq_initialize_vectors();
// Enable interrupts
cpu_irq_enable();
/* Call a local utility routine to initialize C-Library Standard I/O over
* a USB CDC protocol. Tunable parameters in a conf_usb.h file must be
* supplied to configure the USB device correctly.
*/
stdio_usb_init();
//Initialize kernel
osInitKernel();
//Configure debug UART
//Start-up message
TRACE_INFO("\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("*** CycloneTCP Web Server Demo ***\r\n");
TRACE_INFO("**********************************\r\n");
TRACE_INFO("Copyright: 2010-2014 Oryx Embedded\r\n");
TRACE_INFO("Compiled: %s %s\r\n", __DATE__, __TIME__);
TRACE_INFO("Target: SAM4E\r\n");
TRACE_INFO("\r\n");
//TCP/IP stack initialization
error = tcpIpStackInit();
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize TCP/IP stack!\r\n");
}
//Configure the first Ethernet interface
interface = &netInterface[0];
//Set interface name
tcpIpStackSetInterfaceName(interface, "eth0");
//Set host name
tcpIpStackSetHostname(interface, "WebServerDemo");
//Select the relevant network adapter
tcpIpStackSetDriver(interface, &sam4eEthDriver);
tcpIpStackSetPhyDriver(interface, &ksz8081PhyDriver);
//Set external interrupt line driver
tcpIpStackSetExtIntDriver(interface, &extIntDriver);
//Set host MAC address
macStringToAddr(APP_MAC_ADDR, &macAddr);
tcpIpStackSetMacAddr(interface, &macAddr);
//Initialize network interface
error = tcpIpStackConfigInterface(interface);
//Any error to report?
if(error)
{
//Debug message
TRACE_ERROR("Failed to configure interface %s!\r\n", interface->name);
}
#if (IPV4_SUPPORT == ENABLED)
#if (APP_USE_DHCP == ENABLED)
//Get default settings
dhcpClientGetDefaultSettings(&dhcpClientSettings);
//Set the network interface to be configured by DHCP
dhcpClientSettings.interface = interface;
//Disable rapid commit option
dhcpClientSettings.rapidCommit = FALSE;
//DHCP client initialization
error = dhcpClientInit(&dhcpClientContext, &dhcpClientSettings);
//Failed to initialize DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize DHCP client!\r\n");
}
//Start DHCP client
error = dhcpClientStart(&dhcpClientContext);
//Failed to start DHCP client?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start DHCP client!\r\n");
}
#else
//Set IPv4 host address
ipv4StringToAddr(APP_IPV4_HOST_ADDR, &ipv4Addr);
ipv4SetHostAddr(interface, ipv4Addr);
//Set subnet mask
ipv4StringToAddr(APP_IPV4_SUBNET_MASK, &ipv4Addr);
ipv4SetSubnetMask(interface, ipv4Addr);
//Set default gateway
ipv4StringToAddr(APP_IPV4_DEFAULT_GATEWAY, &ipv4Addr);
ipv4SetDefaultGateway(interface, ipv4Addr);
//Set primary and secondary DNS servers
ipv4StringToAddr(APP_IPV4_PRIMARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 0, ipv4Addr);
ipv4StringToAddr(APP_IPV4_SECONDARY_DNS, &ipv4Addr);
ipv4SetDnsServer(interface, 1, ipv4Addr);
#endif
#endif
#if (IPV6_SUPPORT == ENABLED)
#if (APP_USE_SLAAC == ENABLED)
//Get default settings
slaacGetDefaultSettings(&slaacSettings);
//Set the network interface to be configured
slaacSettings.interface = interface;
//SLAAC initialization
error = slaacInit(&slaacContext, &slaacSettings);
//Failed to initialize SLAAC?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize SLAAC!\r\n");
}
//Start IPv6 address autoconfiguration process
error = slaacStart(&slaacContext);
//Failed to start SLAAC process?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start SLAAC!\r\n");
}
#else
//Set link-local address
ipv6StringToAddr(APP_IPV6_LINK_LOCAL_ADDR, &ipv6Addr);
ipv6SetLinkLocalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set IPv6 prefix
ipv6StringToAddr(APP_IPV6_PREFIX, &ipv6Addr);
ipv6SetPrefix(interface, &ipv6Addr, APP_IPV6_PREFIX_LENGTH);
//Set global address
ipv6StringToAddr(APP_IPV6_GLOBAL_ADDR, &ipv6Addr);
ipv6SetGlobalAddr(interface, &ipv6Addr, IPV6_ADDR_STATE_VALID);
//Set router
ipv6StringToAddr(APP_IPV6_ROUTER, &ipv6Addr);
ipv6SetRouter(interface, &ipv6Addr);
//Set primary and secondary DNS servers
ipv6StringToAddr(APP_IPV6_PRIMARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 0, &ipv6Addr);
ipv6StringToAddr(APP_IPV6_SECONDARY_DNS, &ipv6Addr);
ipv6SetDnsServer(interface, 1, &ipv6Addr);
#endif
#endif
//Get default settings
httpServerGetDefaultSettings(&httpServerSettings);
//Bind HTTP server to the desired interface
httpServerSettings.interface = &netInterface[0];
//Listen to port 80
httpServerSettings.port = HTTP_PORT;
//Specify the server's root directory
strcpy(httpServerSettings.rootDirectory, "/www/");
//Set default home page
strcpy(httpServerSettings.defaultDocument, "index.shtm");
//Callback functions
httpServerSettings.authCallback = httpServerAuthCallback;
httpServerSettings.cgiCallback = httpServerCgiCallback;
httpServerSettings.uriNotFoundCallback = httpServerUriNotFoundCallback;
//HTTP server initialization
error = httpServerInit(&httpServerContext, &httpServerSettings);
//Failed to initialize HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to initialize HTTP server!\r\n");
}
//Start HTTP server
error = httpServerStart(&httpServerContext);
//Failed to start HTTP server?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start HTTP server!\r\n");
}
//Start TCP echo service
error = tcpEchoStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start TCP echo service!\r\n");
}
//Start UDP echo service
error = udpEchoStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start UDP echo service!\r\n");
}
//Start TCP discard service
error = tcpDiscardStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start TCP discard service!\r\n");
}
//Start UDP discard service
error = udpDiscardStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start UDP discard service!\r\n");
}
//Start TCP chargen service
error = tcpChargenStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start TCP chargen service!\r\n");
}
//Start UDP chargen service
error = udpChargenStart();
//Failed to TCP echo service?
if(error)
{
//Debug message
TRACE_ERROR("Failed to start UDP chargen service!\r\n");
}
//Create user task
task = osCreateTask("User Task", userTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Create a task to blink the LED
task = osCreateTask("Blink", blinkTask, NULL, 500, 1);
//Failed to create the task?
if(task == OS_INVALID_HANDLE)
{
//Debug message
TRACE_ERROR("Failed to create task!\r\n");
}
//Start the execution of tasks
osStartKernel();
//This function should never return
return 0;
}
