/*****************************************************************************
* FUNCTION: WF_Init
*
* RETURNS: true if success
* false otherwise
*
* PARAMS:
* N/A.
*
*
* NOTES: This function must be called once prior to calling any other WF...
* functions. This function initializes the Wifi Driver internal State.
* It also verifies functionality of the lower level SPI driver and
* connected hardware.
*****************************************************************************/
bool WF_Init(const void* pNetIf)
{
tWFDeviceInfo deviceInfo;
if(!WFHardwareInit())
{
return false;
}
RawInit();
WFEnableMRF24WMode();
WF_GetDeviceInfo(&deviceInfo);
// if MRF24W
if (deviceInfo.deviceType == MRF24WB0M_DEVICE)
{
SYS_ASSERT(deviceInfo.romVersion == 0x12, "");
SYS_ASSERT(deviceInfo.patchVersion >= 0x02, "");
if (deviceInfo.romVersion == 0x12 && deviceInfo.patchVersion >= 0x09)
{
gRFModuleVer1209orLater = true;
}
}
/* send init messages to MRF24W */
WF_LibInitialize((NET_CONFIG*)pNetIf);
#if defined(WF_CONSOLE)
WFConsoleInit();
#if defined(APP_USE_IPERF)
// IperfConsoleInit();
IperfAppInit("MRF24W");
#endif
#endif
// save network handle
SetNetworkConfig((NET_CONFIG *)pNetIf);
return true;
}
/*****************************************************************************
* FUNCTION: WF_Init
*
* RETURNS: None
*
* PARAMS:
* N/A.
*
*
* NOTES: This function must be called once prior to calling any other WF...
* functions. This function initializes the Wifi Driver internal State.
* It also verifies functionality of the lower level SPI driver and
* connected hardware.
*****************************************************************************/
void WF_Init(void)
{
tWFDeviceInfo deviceInfo;
WFHardwareInit();
RawInit();
WFEnableMRF24WB0MMode();
WF_GetDeviceInfo(&deviceInfo);
// if MRF24WB
#if !defined(MRF24WG)
WF_ASSERT(deviceInfo.romVersion == 0x12);
WF_ASSERT(deviceInfo.patchVersion >= 0x02);
if (deviceInfo.romVersion == 0x12 && deviceInfo.patchVersion >= 0x09)
{
gRFModuleVer1209orLater = TRUE;
}
#else // must be a MRF24WG
WF_ASSERT(deviceInfo.romVersion == 0x30 || deviceInfo.romVersion == 0x31);
#endif
/* send init messages to MRF24W */
WF_LibInitialize();
#if defined(WF_CONSOLE)
WFConsoleInit();
#if defined(WF_CONSOLE_DEMO)
IperfAppInit();
#endif
#endif
if(DHCPIsEnabled(0))
{
SetDhcpProgressState();
}
}
//
// Main application entry point.
//
int main(void)
{
#if defined(APP_USE_IPERF)
static uint8_t iperfOk = 0;
#endif
static SYS_TICK startTick = 0;
static IP_ADDR dwLastIP[sizeof (TCPIP_HOSTS_CONFIGURATION) / sizeof (*TCPIP_HOSTS_CONFIGURATION)];
uint8_t i;
// perform system initialization
if(!SYS_Initialize())
{
return 0;
}
SYS_CONSOLE_MESSAGE("\r\n\n\n --- Unified TCPIP Demo Starts! --- \r\n");
SYS_OUT_MESSAGE("TCPStack " TCPIP_STACK_VERSION " "" ");
#if defined(TCPIP_STACK_USE_MPFS) || defined(TCPIP_STACK_USE_MPFS2)
MPFSInit();
#endif
// Initiates board setup process if button is depressed
// on startup
if(BUTTON0_IO == 0u)
{
#if defined(TCPIP_STACK_USE_STORAGE) && (defined(SPIFLASH_CS_TRIS) || defined(EEPROM_CS_TRIS))
// Invalidate the EEPROM contents if BUTTON0 is held down for more than 4 seconds
SYS_TICK StartTime = SYS_TICK_Get();
LED_PUT(0x00);
while(BUTTON0_IO == 0u)
{
if(SYS_TICK_Get() - StartTime > 4*SYS_TICK_TicksPerSecondGet())
{
TCPIP_STORAGE_HANDLE hStorage;
// just in case we execute this before the stack is initialized
TCPIP_STORAGE_Init(0);
hStorage = TCPIP_STORAGE_Open(0, false); // no refresh actually needed
if(hStorage)
{
TCPIP_STORAGE_Erase(hStorage);
SYS_CONSOLE_MESSAGE("\r\n\r\nBUTTON0 held for more than 4 seconds. Default settings restored.\r\n\r\n");
TCPIP_STORAGE_Close(hStorage);
}
else
{
SYS_ERROR(SYS_ERROR_WARN, "\r\n\r\nCould not restore the default settings!!!.\r\n\r\n");
}
TCPIP_STORAGE_DeInit(0);
LED_PUT(0x0F);
// wait 4.5 seconds here then reset
while((SYS_TICK_Get() - StartTime) <= (9*SYS_TICK_TicksPerSecondGet()/2));
LED_PUT(0x00);
while(BUTTON0_IO == 0u);
SYS_Reboot();
break;
}
}
#endif // defined(TCPIP_STACK_USE_STORAGE) && (defined(SPIFLASH_CS_TRIS) || defined(EEPROM_CS_TRIS))
}
// Initialize the TCPIP stack
if(!TCPIP_STACK_Init(TCPIP_HOSTS_CONFIGURATION, sizeof(TCPIP_HOSTS_CONFIGURATION)/sizeof(*TCPIP_HOSTS_CONFIGURATION),
TCPIP_STACK_MODULE_CONFIG_TBL, sizeof(TCPIP_STACK_MODULE_CONFIG_TBL)/sizeof(*TCPIP_STACK_MODULE_CONFIG_TBL) ))
{
return 0;
}
#if defined(TCPIP_STACK_USE_TELNET_SERVER)
TelnetRegisterCallback(ProcessIO);
#endif // defined(TCPIP_STACK_USE_TELNET_SERVER)
#if defined (TCPIP_STACK_USE_IPV6)
TCPIP_ICMPV6_RegisterCallback (ICMPv6Callback);
#endif
#if defined(TCPIP_STACK_USE_ICMP_CLIENT) || defined(TCPIP_STACK_USE_ICMP_SERVER)
ICMPRegisterCallback (PingProcessIPv4);
#endif
#if defined(TCPIP_STACK_USE_EVENT_NOTIFICATION)
TCPIP_NET_HANDLE hWiFi = TCPIP_STACK_NetHandle("MRF24W");
if(hWiFi)
{
TCPIP_STACK_SetNotifyEvents(hWiFi, TCPIP_EV_RX_ALL|TCPIP_EV_TX_ALL|TCPIP_EV_RXTX_ERRORS);
TCPIP_STACK_SetNotifyHandler(hWiFi, StackNotification, 0);
}
#endif // defined(TCPIP_STACK_USE_EVENT_NOTIFICATION)
#if defined(APP_USE_IPERF)
IperfConsoleInit();
iperfOk = IperfAppInit(TCPIP_HOSTS_CONFIGURATION[0].interface);
#endif
// Now that all items are initialized, begin the co-operative
// multitasking loop. This infinite loop will continuously
// execute all stack-related tasks, as well as your own
// application's functions. Custom functions should be added
// at the end of this loop.
// Note that this is a "co-operative mult-tasking" mechanism
// where every task performs its tasks (whether all in one shot
// or part of it) and returns so that other tasks can do their
// job.
// If a task needs very long time to do its job, it must be broken
// down into smaller pieces so that other tasks can have CPU time.
while(1)
{
// Blink LED0 (right most one) every second.
if(SYS_TICK_Get() - startTick >= SYS_TICK_TicksPerSecondGet()/2ul)
{
startTick = SYS_TICK_Get();
LED0_IO ^= 1;
}
// This task performs normal stack task including checking
// for incoming packet, type of packet and calling
// appropriate stack entity to process it.
TCPIP_STACK_Task();
// Process application specific tasks here.
// For this demo app, this will include the Generic TCP
// client and servers, and the SNMP, Ping, and SNMP Trap
// demos. Following that, we will process any IO from
// the inputs on the board itself.
// Any custom modules or processing you need to do should
// go here.
#if defined(TCPIP_STACK_USE_GENERIC_TCP_CLIENT_EXAMPLE)
GenericTCPClient();
#endif
#if defined(TCPIP_STACK_USE_GENERIC_TCP_SERVER_EXAMPLE)
GenericTCPServer();
#endif
#if defined(TCPIP_STACK_USE_SMTP_CLIENT)
SMTPDemo();
#endif
#if defined(TCPIP_STACK_USE_ICMP_CLIENT) || defined (TCPIP_STACK_USE_ICMP_SERVER) || defined (TCPIP_STACK_USE_IPV6)
// use ping on the default interface
PingDemoTask();
#endif
#if defined(TCPIP_STACK_USE_SNMP_SERVER) && !defined(SNMP_TRAP_DISABLED)
//User should use one of the following SNMP demo
// This routine demonstrates V1 or V2 trap formats with one variable binding.
SNMPTrapDemo();
#if defined(SNMP_STACK_USE_V2_TRAP) || defined(SNMP_V1_V2_TRAP_WITH_SNMPV3)
//This routine provides V2 format notifications with multiple (3) variable bindings
//User should modify this routine to send v2 trap format notifications with the required varbinds.
//SNMPV2TrapDemo();
#endif
if(gSendTrapFlag)
SNMPSendTrap();
#endif
#if defined(TCPIP_STACK_USE_BERKELEY_API)
BerkeleyTCPClientDemo();
BerkeleyTCPServerDemo();
BerkeleyUDPClientDemo(0);
#endif
#if defined(APP_USE_IPERF)
IperfConsoleProcess();
if (iperfOk) IperfAppCall(); // Only running in case of init succeed
IperfConsoleProcessEpilogue();
#endif
// If the local IP address has changed (ex: due to DHCP lease change)
// write the new IP address to the console display, UART, and Announce
// service
// We use the default interface
for (i = 0; i < sizeof(TCPIP_HOSTS_CONFIGURATION)/sizeof(*TCPIP_HOSTS_CONFIGURATION); i++)
{
TCPIP_NET_HANDLE netH = TCPIP_STACK_NetHandle(TCPIP_HOSTS_CONFIGURATION[i].interface);
if((uint32_t)dwLastIP[i].Val != TCPIP_STACK_NetAddress(netH))
{
dwLastIP[i].Val = TCPIP_STACK_NetAddress(netH);
SYS_CONSOLE_MESSAGE(TCPIP_HOSTS_CONFIGURATION[i].interface);
SYS_CONSOLE_MESSAGE(" new IP Address: ");
DisplayIPValue(dwLastIP[i]);
SYS_CONSOLE_MESSAGE("\r\n");
}
}
#if defined(TCPIP_STACK_USE_EVENT_NOTIFICATION)
if(stackNotifyCnt)
{
stackNotifyCnt = 0;
ProcessNotification(stackNotifyHandle);
}
#endif // defined(TCPIP_STACK_USE_EVENT_NOTIFICATION)
}
}
