//****************************************************************************
//
//! Main function
//!
//! \param none
//!
//! This function
//! 1. Invokes the SLHost task
//! 2. Invokes the GetNTPTimeTask
//!
//! \return None.
//
//****************************************************************************
void main()
{
long lRetVal = -1;
//
// Initialize Board configurations
//
BoardInit();
//
// Enable and configure DMA
//
UDMAInit();
//
// Pinmux for UART
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display Application Banner
//
DisplayBanner(APP_NAME);
//
// Start the SimpleLink Host
//
lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the GetNTPTime task
//
lRetVal = osi_TaskCreate(GetNTPTimeTask,
(const signed char *)"Get NTP Time",
OSI_STACK_SIZE,
NULL,
1,
NULL );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the task scheduler
//
osi_start();
}
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
int main()
{
long lRetVal = -1;
//
// Board Initialization
//
BoardInit();
//
// Enable and configure DMA
//
UDMAInit();
//
// Pinmux for UART
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display Application Banner
//
DisplayBanner(APP_NAME);
//
// Start the SimpleLink Host
//
lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the Receiving file
//
lRetVal = osi_TaskCreate(cmd_dispatcher,
(const signed char *)"TFTP",
OSI_STACK_SIZE,
NULL,
1,
NULL );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the task scheduler
//
osi_start();
return 0;
}
/*@Function============================================================
@Desc: ChooseColor(): Countdown zum Waehlen der Farbe
@Ret: void
@Int:
* $Function----------------------------------------------------------*/
void
ChooseColor (void)
{
int countdown = 100; /* duration in 1/10 seconds given for color choosing */
int ColorChosen = FALSE;
char count_text[80];
Uint32 prev_count_tick, count_tick_len;
count_tick_len = 100; /* countdown in 1/10 second steps */
prev_count_tick = SDL_GetTicks ();
ResetMouseWheel (); // forget about previous wheel events
while (!ColorChosen)
{
if (RightPressedR() || WheelDownPressed())
{
if (YourColor != VIOLETT) MoveMenuPositionSound();
YourColor = VIOLETT;
OpponentColor = GELB;
}
if (LeftPressedR() || WheelUpPressed())
{
if (YourColor != GELB) MoveMenuPositionSound();
YourColor = GELB;
OpponentColor = VIOLETT;
}
if (FirePressedR())
{
ColorChosen = TRUE;
}
/* wait for next countdown tick */
if ( SDL_GetTicks() >= prev_count_tick + count_tick_len )
{
prev_count_tick += count_tick_len; /* set for next tick */
countdown--; /* Count down */
sprintf (count_text, "Color-%d", countdown);
DisplayBanner (count_text, NULL , 0);
ShowPlayground ();
}
if (countdown == 0)
ColorChosen = TRUE;
} /* while(!ColorChosen) */
return;
} /* ChooseColor() */
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
void main() {
//
// Board Initialization
//
BoardInit();
//
// Pinmux for UART
//
PinMuxConfig();
#ifndef NOTERM
//
// Configuring UART
//
InitTerm();
//
// Display Application Banner
//
DisplayBanner(APP_NAME);
#endif
//
// Enable and configure DMA
//
UDMAInit();
//
// Start the SimpleLink Host
//
VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
//
// Start the HttpServer Task
//
//
osi_TaskCreate(HttpServerAppTask,
"WebSocketApp",
OSI_STACK_SIZE,
NULL,
HTTP_SERVER_APP_TASK_PRIORITY,
NULL );
UART_PRINT("HttpServerApp Initialized \n\r");
//
// Start the task scheduler
//
osi_start();
return;
}
//*****************************************************************************
//
//! Main
//!
//! \param none
//!
//! This function
//! 1. Invokes the SLHost task
//! 2. Invokes the MqttClient
//!
//! \return None
//!
//*****************************************************************************
void main()
{
long lRetVal = -1;
//
// Initialize the board configurations
//
BoardInit();
//
// Pinmux for UART
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display Application Banner
//
DisplayBanner("MQTT_Client");
//
// Start the SimpleLink Host
//
lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the MQTT Client task
//
osi_MsgQCreate(&g_PBQueue,"PBQueue",sizeof(event_msg),10);
lRetVal = osi_TaskCreate(MqttClient,
(const signed char *)"Mqtt Client App",
OSI_STACK_SIZE, NULL, 2, NULL );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start the task scheduler
//
osi_start();
}
void ConnectionManager::HandleBannerData(int respType)
{
QString responseStr(GetResponse());
if(respType == EContinue)
dataResponseStr += responseStr;
else
dataResponseStr = responseStr;
{
Parser bannerTokenRecognize(dataResponseStr, BANNER_TOKEN_SEP);
int bannerToken = bannerTokenRecognize.GetResponseValue(Parser::ELeft).toInt();
if(bannerToken != BANNER_DATA)
return;
}
Parser bannerRecognize(dataResponseStr);
if(bannerRecognize.GetKeyValue(STATUS_KEY) != SUCCESS_VAL)
{
//handle an error here
qWarning(ERROR_WARNING);
return;
}
int type = EUnknown;
QString dataStr = NULL;
QString typeStr (bannerRecognize.GetKeyValue(TYPE_KEY));
if(bannerRecognize.IsCompleteDataReceived())
{
if(typeStr != NULL)
{
type = typeStr.toInt();
if (type == EText)
dataStr = bannerRecognize.GetKeyValue(TEXT_KEY);
if (type == EImage)
dataStr = bannerRecognize.GetKeyValue(CONTENT_BASE64_KEY);
}
actionCounter = ERedirect;
}
else
type = EContinue;
DisplayBanner(type, dataStr);
}
//****************************************************************************
//
//! Main function invoking the sleep and deepsleep functionality
//!
//! \param none
//!
//! This function
//! 1. Invokes the API that implements Sleep followed by wakeup using WDT
//! 2. Invokes the API that implements DeepSleep followed by wakeup
//! using WDT
//! 3. Invokes the API that implements Sleep followed by wakeup using GPT
//! 4. Invokes the API that implements DeepSleep followed by wakeup
//! using GPT
//!
//! \return None.
//
//****************************************************************************
void main()
{
//
// Initialize the MCU
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
//
// Initialze the UART
//
InitTerm();
DisplayBanner(APP_NAME);
DBG_PRINT("SLEEP_DEEPSLEEP: Test Begin\n\r");
//
// Sleep followed by wakeup using WDT
//
PerformPRCMSleepWDTWakeup();
//
// DeepSleep followed by wakeup using WDT
//
PerformPRCMDeepSleepWDTWakeup();
//
// Sleep followed by wakeup using GPT
//
PerformPRCMSleepGPTWakeup();
//
// DeepSleep followed by wakeup using GPT
//
PerformPRCMDeepSleepGPTWakeup();
DBG_PRINT("SLEEP_DEEPSLEEP: Test Complete\n\r");
//
// Done. Loop here
//
while(1);
}
//*****************************************************************************
// MAIN FUNCTION
//*****************************************************************************
void main() {
//
// Board Initialization
//
BoardInit();
//
// configure the GPIO pins for LEDs,UART
//
PinMuxConfig();
//
// Configure the UART
//
#ifndef NOTERM
InitTerm();
#endif //NOTERM
//
// Display Application Banner
//
DisplayBanner(APPLICATION_NAME);
//
// Configure all 3 LEDs
//
GPIO_IF_LedConfigure(LED1 | LED2 | LED3);
// switch off all LEDs
GPIO_IF_LedOff(MCU_ALL_LED_IND);
FileTest();
/*//
// Start the SimpleLink Host
//
VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
//
// Start the WlanStationMode task
//
osi_TaskCreate( WlanStationMode, (const signed char*)"Wlan Station Task",
OSI_STACK_SIZE, NULL, 1, NULL );
//
// Start the task scheduler
//
osi_start();*/
}
int main(int argc, char **argv)
{
int i;
ArgCount = argc;
ArgVector = argv;
DisplayBanner();
Init();
TK_OpenSource(acs_SourceFileName);
PC_OpenObject(ObjectFileName, DEFAULT_OBJECT_SIZE, 0);
PA_Parse();
PC_CloseObject();
TK_CloseSource();
MS_Message(MSG_NORMAL, "\n\"%s\":\n %d line%s (%d included)\n",
acs_SourceFileName, tk_Line, tk_Line == 1 ? "" : "s",
tk_IncludedLines);
MS_Message(MSG_NORMAL, " %d function%s\n %d script%s\n",
pc_FunctionCount, pc_FunctionCount == 1 ? "" : "s",
pa_ScriptCount, pa_ScriptCount == 1 ? "" : "s");
for (i = 0; pa_TypedScriptCounts[i].TypeName; i++)
{
if (pa_TypedScriptCounts[i].TypeCount > 0)
{
MS_Message(MSG_NORMAL, "%5d %s\n",
pa_TypedScriptCounts[i].TypeCount,
pa_TypedScriptCounts[i].TypeName);
}
}
MS_Message(MSG_NORMAL, " %d global variable%s\n"
" %d world variable%s\n"
" %d map variable%s\n"
" %d global array%s\n"
" %d world array%s\n",
pa_GlobalVarCount, pa_GlobalVarCount == 1 ? "" : "s",
pa_WorldVarCount, pa_WorldVarCount == 1 ? "" : "s",
pa_MapVarCount, pa_MapVarCount == 1 ? "" : "s",
pa_GlobalArrayCount, pa_GlobalArrayCount == 1 ? "" : "s",
pa_WorldArrayCount, pa_WorldArrayCount == 1 ? "" : "s"
);
MS_Message(MSG_NORMAL, " object \"%s\": %d bytes\n",
ObjectFileName, pc_Address);
ERR_RemoveErrorFile();
return 0;
}
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
void main()
{
char cMode = 0;
//
// Board Initialization
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
//
// Configuring UART
//
#ifndef NOTERM
InitTerm();
#endif //NOTERM
//
// Display banner
//
DisplayBanner(APP_NAME);
//
// staring simplelink
//
cMode = sl_Start(NULL,NULL,NULL);
//
// Display current mode and ssid name(for AP mode)
//
DisplayCurrentConfig(cMode);
//
// Configure the networking mode and ssid name(for AP mode)
//
ConfigureMode(cMode);
UART_PRINT("Please restart the device \n\r");
sl_Stop(SL_STOP_TIMEOUT);
LOOP_FOREVER(line_number);
}
int main()
{
long lRetVal = -1;
//
// Board Initialization
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display banner
//
DisplayBanner(APP_NAME);
InitializeAppVariables();
lRetVal = ServerFileDownload();
if(lRetVal < 0)
{
UART_PRINT("Server file download failed\n\r");
LOOP_FOREVER();
}
else
{
UART_PRINT("Downloading File Completed\n\r");
}
UART_PRINT("\nThank you\r\n");
// Stop the CC3200 device
lRetVal = sl_Stop(SL_STOP_TIMEOUT);
LOOP_FOREVER();
}
//****************************************************************************
//
//! Main function
//!
//! \param none
//!
//! This function
//! 1. Invokes the Loader Task
//!
//! \return None.
//
//****************************************************************************
void main()
{
BoardInit();
PinMuxConfig();
InitTerm();
DisplayBanner(APPLICATION_NAME);
// Start the SimpleLink Host
VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
// Start the Loader task
osi_TaskCreate(Loader, (const signed char*)"Loader Task", \
OSI_STACK_SIZE, NULL, 1, NULL );
// Start the task scheduler
osi_start();
}
//*****************************************************************************
// MAIN FUNCTION
//*****************************************************************************
void main()
{
//
// Board Initialization
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
#ifndef NOTERM
//
// Configuring UART
//
InitTerm();
#endif
//
// Display banner
//
DisplayBanner(APP_NAME);
//
// Start the SimpleLink Host
//
VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
//
// Start the WlanAPMode task
//
osi_TaskCreate( WlanAPMode,
(const signed char*)"wireless LAN in AP mode",
OSI_STACK_SIZE, NULL, 1, NULL );
//
// Start the task scheduler
//
osi_start();
}
//****************************************************************************
//
//! Main function
//!
//! \param none
//!
//! This function
//! 1. Invokes the LEDBlinkyTask
//!
//! \return None.
//
//****************************************************************************
int
main()
{
//
// Initialize Board configurations
//
BoardInit();
//
// Power on the corresponding GPIO port B for 9,10,11.
// Set up the GPIO lines to mode 0 (GPIO)
//
PinMuxConfig();
#ifndef NOTERM
//
// Configuring UART
//
InitTerm();
#endif
DisplayBanner("Lab 0");
Message("\t\t****************************************************\n\r");
Message("\t\t\t CC3200 UART Echo Usage \n\r");
Message("\t\t To get to state 3, the user must press and hold SW2 \n\r");
Message("\t\t then press SW3 without releasing SW2 \n\r");
Message("\t\t and then release SW2 while continuing to press SW3\n\r");
Message("\n\n\n\r");
GPIO_IF_LedConfigure(LED1|LED2|LED3);
GPIO_IF_LedOff(MCU_ALL_LED_IND);
//
// Start the LEDBlinkyRoutine
//
LEDBlinkyRoutine();
return 0;
}
//*****************************************************************************
//
//! Main function handling the interrupt example
//!
//! \param none
//!
//! \return none
//!
//*****************************************************************************
void
main()
{
//
// Initialize board configurations
BoardInit();
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display Banner
//
DisplayBanner(APP_NAME);
//
// Do Interrupt Test
//
DoInterruptTest();
while(1);
}
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
void main()
{
long lRetVal = -1;
//
// Board Initilization
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
PinConfigSet(PIN_58,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD_PD);
// Initialize Global Variables
InitializeAppVariables();
//
// UART Init
//
InitTerm();
DisplayBanner(APP_NAME);
//
// LED Init
//
GPIO_IF_LedConfigure(LED1);
//Turn Off the LEDs
GPIO_IF_LedOff(MCU_RED_LED_GPIO);
//
// I2C Init
//
lRetVal = I2C_IF_Open(I2C_MASTER_MODE_FST);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//Init Temprature Sensor
lRetVal = TMP006DrvOpen();
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//Init Accelerometer Sensor
lRetVal = BMA222Open();
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Simplelinkspawntask
//
lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Create OOB Task
//
lRetVal = osi_TaskCreate(OOBTask, (signed char*)"OOBTask", \
OSI_STACK_SIZE, NULL, \
OOB_TASK_PRIORITY, NULL );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
//
// Start OS Scheduler
//
osi_start();
while (1)
{
}
}
//****************************************************************************
//
//! Task function implementing the TCP server and showcasing the
//! deepsleep functionality
//!
//! \param none
//!
//! This function
//! 1. Creates a TCP socket and binds to it
//! 2. Listens on the socket
//! 3. Accepts a client connection
//! 4. Receives a packet on the socket
//! 5. Closes the socket
//!
//! \return None.
//
//****************************************************************************
void TCPServerTask(void *pvParameters)
{
int iSocketDesc, iClientFD;
struct sockaddr_in sClientAddr;
int iRecvLen;
unsigned int iClientAddrLen = sizeof(sClientAddr);
unsigned char aucRecvBuffer[MAX_BUF];
DisplayBanner(APPLICATION_NAME);
DBG_PRINT("DEEPSLEEP: Test Begin\n\r");
//
// GPIO Configuration
//
GPIO_IF_LedConfigure(LED1|LED3);
GPIO_IF_LedOff(MCU_RED_LED_GPIO);
GPIO_IF_LedOff(MCU_GREEN_LED_GPIO);
//
// Start the driver
//
Network_IF_InitDriver(ROLE_STA);
GPIO_IF_LedOn(MCU_GREEN_LED_GPIO);
LedTimerConfigNStart();
// Initialize AP security params
SecurityParams.Key = SECURITY_KEY;
SecurityParams.KeyLen = strlen(SECURITY_KEY);
SecurityParams.Type = SECURITY_TYPE;
//
// Connect to the Access Point
//
Network_IF_ConnectAP(SSID_NAME,SecurityParams);
LedTimerDeinitStop();
//
// Switch ON RED LED to indicate that Device acquired an IP
//
GPIO_IF_LedOn(MCU_IP_ALLOC_IND);
//
// Create and Bind TCP server socket
//
iSocketDesc = CreateTCPServerSocket(APP_TCP_PORT);
if(iSocketDesc < 0)
{
DBG_PRINT("DEEPSLEEP: Socket create failed\n");
goto end;
}
DBG_PRINT("DEEPSLEEP: Socket created\n\r");
DBG_PRINT("DEEPSLEEP: Listening on Socket...\n\r");
//
// Start Listening on the socket
//
if( listen(iSocketDesc, 5) != 0)
{
DBG_PRINT("DEEPSLEEP: Listen failed\n\r");
goto end;
}
while(FOREVER)
{
//
// Accept new client connections (Here just one)
//
DBG_PRINT("DEEPSLEEP: Waiting for client.......\n\r");
iClientFD = accept(iSocketDesc,
(struct sockaddr*)&sClientAddr,
&iClientAddrLen);
DBG_PRINT("DEEPSLEEP: Connected to client [0x%x] \n\r",
htonl(sClientAddr.sin_addr.s_addr));
do
{
//
// Receive on the socket
//
iRecvLen = recv(iClientFD,aucRecvBuffer,MAX_BUF,0);
if(iRecvLen > 0)
{
DBG_PRINT("DEEPSLEEP: received %d bytes\n\r", iRecvLen);
DBG_PRINT("DEEPSLEEP: received message : %s\n\r", aucRecvBuffer);
}
}while(iRecvLen > 0);
//
// Close the client descriptor
//
close(iClientFD);
}
//
// Close the socket. Commented as not expected to reach here
//
//close(iSocketDesc);
end:
DBG_PRINT("DEEPSLEEP: Test Complete\n\r");
//
// Loop here
//
while(1);
}
//*****************************************************************************
//
//! main - populate the parameters from predefines Test Vector or User
//!
//! \param None
//!
//! \return None
//
//*****************************************************************************
void
main()
{
unsigned int uiConfig,uiHashLength,uiDataLength;
unsigned char *puiKey1,*puiData,*puiResult;
unsigned int u8count;
#ifndef USER_INPUT
unsigned char *puiTempExpResult;
#endif
//
// Initialize board configurations
BoardInit();
//
// Configuring UART for Receiving input and displaying output
// 1. PinMux setting
// 2. Initialize UART
// 3. Displaying Banner
//
PinMuxConfig();
InitTerm();
DisplayBanner(APP_NAME);
//
// Enable the module .
//
MAP_PRCMPeripheralClkEnable(PRCM_DTHE, PRCM_RUN_MODE_CLK);
//
// Enable interrupts.
//
MAP_SHAMD5IntRegister(SHAMD5_BASE, SHAMD5IntHandler);
#ifdef USER_INPUT
while(FOREVER)
{
//
// Read values either from User or from Vector based on macro USER_INPUT
// defined or not
//
//
// Read the values from the user over uart and Populate the variables
//
puiData=ReadFromUser(&uiConfig,&uiHashLength,&puiKey1,&uiDataLength,
&puiResult);
if(puiData==NULL)
{
continue;
}
#else
//
// Load Default values
//
UART_PRINT("Running Keyed Hashing HMAC_MD5\n\r\n\r");
UART_PRINT("loading default values\n\r\n\r");
uiHMAC=1;
puiData= LoadDefaultValues(SHAMD5_ALGO_HMAC_MD5,&uiConfig,&uiHashLength,
&puiKey1,&uiDataLength,&puiResult);
UART_PRINT("Data Length (in Bytes) %d\n\r\n\r",uiDataLength);
#endif
//
// Generate Hash Value
//
UART_PRINT("\n\rHashing in Progress... \n\r");
GenerateHash(uiConfig,puiKey1,puiData,puiResult,uiDataLength);
UART_PRINT("Hash Value is generated\n\r");
//
// Display/Verify Result
//
#ifdef USER_INPUT
//
// Display Hash Value Generated
//
UART_PRINT("\n\r The Hash Value in Hex is: 0x%02x",*puiResult);
for(u8count=0; u8count<(uiHashLength/4); u8count++)
{
UART_PRINT("%02x",*(puiResult+u8count));
}
UART_PRINT("\n\r");
} //end while(FOREVER)
#else
//
// Comapre Hash Generated and expected values from predefined vector
//
UART_PRINT("Hash Length (in Bytes) %d\n\r\n\r",uiHashLength);
UART_PRINT("\n\r Computed Hash Value in Hex is: ");
for(u8count=0; u8count<uiHashLength; u8count++)
{
UART_PRINT("%02x",*(puiResult+u8count));
}
UART_PRINT("\n\r");
puiTempExpResult = (unsigned char *)g_psHMACShaMD5TestVectors.puiExpectedHash;
UART_PRINT("\n\r Expected Hash Value in Hex is: ");
for(u8count=0; u8count<uiHashLength; u8count++)
{
UART_PRINT("%02x",*(puiTempExpResult+u8count));
}
UART_PRINT("\n\r");
if(memcmp(puiResult,g_psHMACShaMD5TestVectors.puiExpectedHash,uiHashLength)==0)
{
UART_PRINT("\n\r Hashing verified successfully");
}
else
{
UART_PRINT("\n\r Error in Hashing computation");
}
while(FOREVER);
#endif
}
//*****************************************************************************
//
//! Main function handling the I2C example
//!
//! \param None
//!
//! \return None
//!
//*****************************************************************************
void main()
{
int iRetVal;
char acCmdStore[512];
//
// Initialize board configurations
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// I2C Init
//
I2C_IF_Open(I2C_MASTER_MODE_FST);
//
// Display the banner followed by the usage description
//
DisplayBanner(APP_NAME);
DisplayUsage();
while(FOREVER)
{
//
// Provide a prompt for the user to enter a command
//
DisplayPrompt();
//
// Get the user command line
//
iRetVal = GetCmd(acCmdStore, sizeof(acCmdStore));
if(iRetVal < 0)
{
//
// Error in parsing the command as length is exceeded.
//
UART_PRINT("Command length exceeded 512 bytes \n\r");
DisplayUsage();
}
else if(iRetVal == 0)
{
//
// No input. Just an enter pressed probably. Display a prompt.
//
}
else
{
//
// Parse the user command and try to process it.
//
iRetVal = ParseNProcessCmd(acCmdStore);
if(iRetVal < 0)
{
UART_PRINT("Error in processing command\n\r");
DisplayUsage();
}
}
}
}
int PSPSaveDialog::Update()
{
switch (status) {
case SCE_UTILITY_STATUS_FINISHED:
status = SCE_UTILITY_STATUS_SHUTDOWN;
break;
default:
break;
}
if (status != SCE_UTILITY_STATUS_RUNNING)
return SCE_ERROR_UTILITY_INVALID_STATUS;
if (!param.GetPspParam()) {
status = SCE_UTILITY_STATUS_SHUTDOWN;
return 0;
}
// The struct may have been updated by the game. This happens in "Where Is My Heart?"
// Check if it has changed, reload it.
// TODO: Cut down on preloading? This rebuilds the list from scratch.
int size = Memory::Read_U32(requestAddr);
if (memcmp(Memory::GetPointer(requestAddr), &originalRequest, size) != 0) {
memset(&request, 0, sizeof(request));
Memory::Memcpy(&request, requestAddr, size);
Memory::Memcpy(&originalRequest, requestAddr, size);
param.SetPspParam(&request);
}
buttons = __CtrlPeekButtons();
UpdateFade();
okButtonImg = I_CIRCLE;
cancelButtonImg = I_CROSS;
okButtonFlag = CTRL_CIRCLE;
cancelButtonFlag = CTRL_CROSS;
if (param.GetPspParam()->common.buttonSwap == 1) {
okButtonImg = I_CROSS;
cancelButtonImg = I_CIRCLE;
okButtonFlag = CTRL_CROSS;
cancelButtonFlag = CTRL_CIRCLE;
}
I18NCategory *d = GetI18NCategory("Dialog");
switch (display)
{
case DS_SAVE_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
// Save exist, ask user confirm
if (param.GetFileInfo(currentSelectedSave).size > 0) {
yesnoChoice = 0;
display = DS_SAVE_CONFIRM_OVERWRITE;
} else {
display = DS_SAVE_SAVING;
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName())) {
param.SetPspParam(param.GetPspParam()); // Optim : Just Update modified save
display = DS_SAVE_DONE;
} else
display = DS_SAVE_LIST_CHOICE; // This will probably need error message ?
}
}
EndDraw();
break;
case DS_SAVE_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Confirm Save", "Do you want to save this data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_SAVE_SAVING;
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName())) {
param.SetPspParam(param.GetPspParam()); // Optim : Just Update modified save
display = DS_SAVE_DONE;
} else {
// TODO: This should probably show an error message?
StartFade(false);
}
}
EndDraw();
break;
case DS_SAVE_CONFIRM_OVERWRITE:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Confirm Overwrite","Do you want to overwrite the data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
if (param.GetPspParam()->mode != SCE_UTILITY_SAVEDATA_TYPE_SAVE)
display = DS_SAVE_LIST_CHOICE;
else {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
}
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_SAVE_SAVING;
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName())) {
param.SetPspParam(param.GetPspParam()); // Optim : Just Update modified save
display = DS_SAVE_DONE;
} else {
// TODO: This should probably show an error message?
if (param.GetPspParam()->mode != SCE_UTILITY_SAVEDATA_TYPE_SAVE)
display = DS_SAVE_LIST_CHOICE;
else
StartFade(false);
}
}
EndDraw();
break;
case DS_SAVE_SAVING:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Saving","Saving\nPlease Wait..."));
DisplayBanner(DB_SAVE);
EndDraw();
break;
case DS_SAVE_DONE:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Save completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_SUCCESS;
// Set the save to use for autosave and autoload
param.SetSelectedSave(param.GetFileInfo(currentSelectedSave).idx);
StartFade(false);
}
EndDraw();
break;
case DS_LOAD_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_LOAD_LOADING;
if (param.Load(param.GetPspParam(), GetSelectedSaveDirName(), currentSelectedSave))
display = DS_LOAD_DONE;
}
EndDraw();
break;
case DS_LOAD_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("ConfirmLoad", "Load this data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_LOAD_LOADING;
if (param.Load(param.GetPspParam(), GetSelectedSaveDirName(), currentSelectedSave))
display = DS_LOAD_DONE;
else {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
}
}
EndDraw();
break;
case DS_LOAD_LOADING:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Loading","Loading\nPlease Wait..."));
DisplayBanner(DB_LOAD);
EndDraw();
break;
case DS_LOAD_DONE:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("Load completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_SUCCESS;
// Set the save to use for autosave and autoload
param.SetSelectedSave(param.GetFileInfo(currentSelectedSave).idx);
StartFade(false);
}
EndDraw();
break;
case DS_LOAD_NODATA:
StartDraw();
DisplayMessage(d->T("There is no data"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_LOAD_NO_DATA;
StartFade(false);
}
EndDraw();
break;
case DS_DELETE_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
yesnoChoice = 0;
display = DS_DELETE_CONFIRM;
}
EndDraw();
break;
case DS_DELETE_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(d->T("DeleteConfirm",
"This save data will be deleted.\nAre you sure you want to continue?"),
true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag))
display = DS_DELETE_LIST_CHOICE;
else if (IsButtonPressed(okButtonFlag)) {
if (yesnoChoice == 0)
display = DS_DELETE_LIST_CHOICE;
else {
display = DS_DELETE_DELETING;
if (param.Delete(param.GetPspParam(),currentSelectedSave)) {
param.SetPspParam(param.GetPspParam()); // Optim : Just Update modified save
display = DS_DELETE_DONE;
} else
display = DS_DELETE_LIST_CHOICE; // This will probably need error message ?
}
}
EndDraw();
break;
case DS_DELETE_DELETING:
StartDraw();
DisplayMessage(d->T("Deleting","Deleting\nPlease Wait..."));
DisplayBanner(DB_DELETE);
EndDraw();
break;
case DS_DELETE_DONE:
StartDraw();
DisplayMessage(d->T("Delete completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
if (param.GetFilenameCount() == 0)
display = DS_DELETE_NODATA;
else
display = DS_DELETE_LIST_CHOICE;
}
EndDraw();
break;
case DS_DELETE_NODATA:
StartDraw();
DisplayMessage(d->T("There is no data"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_DELETE_NO_DATA;
StartFade(false);
}
EndDraw();
break;
case DS_NONE: // For action which display nothing
{
switch ((SceUtilitySavedataType)(u32)param.GetPspParam()->mode)
{
case SCE_UTILITY_SAVEDATA_TYPE_LOAD: // Only load and exit
case SCE_UTILITY_SAVEDATA_TYPE_AUTOLOAD:
if (param.Load(param.GetPspParam(), GetSelectedSaveDirName(), currentSelectedSave))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_LOAD_NO_DATA;
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_SAVE: // Only save and exit
case SCE_UTILITY_SAVEDATA_TYPE_AUTOSAVE:
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName()))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_SAVE_MS_NOSPACE;
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_SIZES:
param.GetPspParam()->common.result = param.GetSizes(param.GetPspParam());
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_LIST:
param.GetList(param.GetPspParam());
param.GetPspParam()->common.result = 0;
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_FILES:
param.GetPspParam()->common.result = param.GetFilesList(param.GetPspParam());
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_GETSIZE:
{
bool result = param.GetSize(param.GetPspParam());
// TODO: According to JPCSP, should test/verify this part but seems edge casey.
if (MemoryStick_State() != PSP_MEMORYSTICK_STATE_DRIVER_READY)
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_NO_MEMSTICK;
else if (result)
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_NO_DATA;
status = SCE_UTILITY_STATUS_FINISHED;
}
break;
case SCE_UTILITY_SAVEDATA_TYPE_DELETEDATA:
// TODO: This should probably actually delete something.
// For now, always say it couldn't be deleted.
WARN_LOG(SCEUTILITY, "FAKE sceUtilitySavedata DELETEDATA: %s", param.GetPspParam()->saveName);
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_BAD_STATUS;
status = SCE_UTILITY_STATUS_FINISHED;
break;
//case SCE_UTILITY_SAVEDATA_TYPE_AUTODELETE:
case SCE_UTILITY_SAVEDATA_TYPE_SINGLEDELETE:
if (param.Delete(param.GetPspParam(), param.GetSelectedSave()))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_DELETE_NO_DATA;
status = SCE_UTILITY_STATUS_FINISHED;
break;
// TODO: Should reset the directory's other files.
case SCE_UTILITY_SAVEDATA_TYPE_MAKEDATA:
case SCE_UTILITY_SAVEDATA_TYPE_MAKEDATASECURE:
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName(), param.GetPspParam()->mode == SCE_UTILITY_SAVEDATA_TYPE_MAKEDATASECURE))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_NO_DATA;
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_WRITEDATA:
case SCE_UTILITY_SAVEDATA_TYPE_WRITEDATASECURE:
if (param.Save(param.GetPspParam(), GetSelectedSaveDirName(), param.GetPspParam()->mode == SCE_UTILITY_SAVEDATA_TYPE_WRITEDATASECURE))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_NO_DATA;
status = SCE_UTILITY_STATUS_FINISHED;
break;
case SCE_UTILITY_SAVEDATA_TYPE_READDATA:
case SCE_UTILITY_SAVEDATA_TYPE_READDATASECURE:
if (param.Load(param.GetPspParam(), GetSelectedSaveDirName(), currentSelectedSave, param.GetPspParam()->mode == SCE_UTILITY_SAVEDATA_TYPE_READDATASECURE))
param.GetPspParam()->common.result = 0;
else
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_RW_NO_DATA; // not sure if correct code
status = SCE_UTILITY_STATUS_FINISHED;
break;
default:
status = SCE_UTILITY_STATUS_FINISHED;
break;
}
}
break;
default:
status = SCE_UTILITY_STATUS_FINISHED;
break;
}
lastButtons = buttons;
if (status == SCE_UTILITY_STATUS_FINISHED)
Memory::Memcpy(requestAddr, &request, request.common.size);
return 0;
}
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
void main()
{
long retVal = -1;
unsigned long ulResetCause;
unsigned long ulDestinationIP;
//
// Board Initialization
//
BoardInit();
//
// Configure the pinmux settings for the peripherals exercised
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Initialize WDT
//
WDT_IF_Init(NULL,80000000 * 10);
//
// Get the reset cause
//
ulResetCause = PRCMSysResetCauseGet();
//
// If watchdog triggered reset request hibernate
// to clean boot the system
//
if( ulResetCause == PRCM_WDT_RESET )
{
HIBEntrePreamble();
MAP_PRCMOCRRegisterWrite(0,1);
MAP_PRCMHibernateWakeupSourceEnable(PRCM_HIB_SLOW_CLK_CTR);
MAP_PRCMHibernateIntervalSet(330);
MAP_PRCMHibernateEnter();
}
//
// uDMA Initialization
//
UDMAInit();
//
// Display banner
//
DisplayBanner(APPLICATION_NAME);
if( ulResetCause == PRCM_HIB_EXIT && (MAP_PRCMOCRRegisterRead(0) & 1) == 1 )
{
UART_PRINT("Reset Cause : Watchdog Reset\n\r");
}
else
{
UART_PRINT("Reset Cause : Power On\n\r");
//
// Initialize the variables.
//
InitializeAppVariables();
//
// Following function configure the device to default state by cleaning
// the persistent settings stored in NVMEM (viz. connection profiles &
// policies, power policy etc)
//
// Applications may choose to skip this step if the developer is sure
// that the device is in its desired state at start of applicaton
//
// Note that all profiles and persistent settings that were done on the
// device will be lost
//
retVal = ConfigureSimpleLinkToDefaultState();
if(retVal < 0)
{
if (DEVICE_NOT_IN_STATION_MODE == retVal)
UART_PRINT("Failed to configure the device in its default"
" state \n\r");
LOOP_FOREVER();
}
}
//
// Set destination IP
//
ulDestinationIP = IP_ADDR;
//
// Asumption is that the device is configured in station mode already
// and it is in its default state
//
retVal = sl_Start(0, 0, 0);
//
// Acknowledge the watchdog so that it doesn't resets
//
WatchdogAck();
if (retVal < 0 || retVal != ROLE_STA)
{
UART_PRINT("Failed to start the device \n\r");
LOOP_FOREVER();
}
//
//Connecting to WLAN AP
//
retVal = WlanConnect();
//
// Acknowledge the watchdog so that it doesn't resets
//
WatchdogAck();
if(retVal < 0)
{
UART_PRINT("Failed to establish connection w/ an AP \n\r");
LOOP_FOREVER();
}
UART_PRINT("Connected to AP : %s \n\r",SSID_NAME);
UART_PRINT("Device IP : %d.%d.%d.%d\n\r\n\r",
SL_IPV4_BYTE(g_ulIpAddr,3),
SL_IPV4_BYTE(g_ulIpAddr,2),
SL_IPV4_BYTE(g_ulIpAddr,1),
SL_IPV4_BYTE(g_ulIpAddr,0));
UART_PRINT("\nStarting UDP Client\n\n\r");
UART_PRINT("Source IP : %d.%d.%d.%d\n\r"
"Destination IP : %d.%d.%d.%d\n\r"
"PORT : %d\n\r",
SL_IPV4_BYTE(g_ulIpAddr,3),
SL_IPV4_BYTE(g_ulIpAddr,2),
SL_IPV4_BYTE(g_ulIpAddr,1),
SL_IPV4_BYTE(g_ulIpAddr,0),
SL_IPV4_BYTE(ulDestinationIP,3),
SL_IPV4_BYTE(ulDestinationIP,2),
SL_IPV4_BYTE(ulDestinationIP,1),
SL_IPV4_BYTE(ulDestinationIP,0),
g_uiPortNum);
//
// Acknowledge the watchdog so that it doesn't resets
//
WatchdogAck();
//
// Send packets
//
BsdUdpClient(PORT_NUM,ulDestinationIP);
//
// power off the network processor
//
sl_Stop(SL_STOP_TIMEOUT);
while (1)
{
_SlNonOsMainLoopTask();
}
}
//*****************************************************************************
//
//! \brief Task Created by main fucntion.This task starts simpleink, set NWP
//! power policy, connects to an AP. Give Signal to the other task about
//! the connection.wait for the message form the interrupt handlers and
//! the other task. Accordingly print the wake up cause from the low
//! power modes.
//!
//! \param pvParameters is a general void pointer (not used here).
//!
//! \return none
//
//*****************************************************************************
void TimerGPIOTask(void *pvParameters)
{
cc_hndl tTimerHndl = NULL;
cc_hndl tGPIOHndl = NULL;
unsigned char ucQueueMsg = 0;
unsigned char ucSyncMsg = 0;
int iRetVal = 0;
//
// Displays the Application Banner
//
DisplayBanner();
//
// creating the queue for signalling about connection events
//
iRetVal = osi_MsgQCreate(&g_tConnection, NULL, sizeof( unsigned char ), 3);
if (iRetVal < 0)
{
UART_PRINT("unable to create the msg queue\n\r");
LOOP_FOREVER();
}
//
// starting the simplelink
//
iRetVal = sl_Start(NULL, NULL, NULL);
if (iRetVal < 0)
{
UART_PRINT("Failed to start the device \n\r");
LOOP_FOREVER();
}
//
// Swtich to STA mode if device is not
//
SwitchToStaMode(iRetVal);
//
// Set the power management policy of NWP
//
iRetVal = sl_WlanPolicySet(SL_POLICY_PM, SL_NORMAL_POLICY, NULL, 0);
if (iRetVal < 0)
{
UART_PRINT("unable to configure network power policy\n\r");
LOOP_FOREVER();
}
//
// connecting to the Access Point
//
if(-1 == WlanConnect())
{
sl_Stop(SL_STOP_TIMEOUT);
UART_PRINT("Connection to AP failed\n\r");
}
else
{
UART_PRINT("Connected to AP\n\r");
//
//signal the other task about the sl start and connection to the AP
//
iRetVal = osi_MsgQWrite(&g_tConnectionFlag, &ucSyncMsg,
OSI_WAIT_FOREVER);
if (iRetVal < 0)
{
UART_PRINT("unable to create the msg queue\n\r");
LOOP_FOREVER();
}
}
//
// Queue management related configurations
//
iRetVal = osi_MsgQCreate(&g_tWkupSignalQueue, NULL,
sizeof( unsigned char ), 10);
if (iRetVal < 0)
{
UART_PRINT("unable to create the msg queue\n\r");
LOOP_FOREVER();
}
//
// setting Timer as one of the wakeup source
//
tTimerHndl = SetTimerAsWkUp();
//
// setting some GPIO as one of the wakeup source
//
tGPIOHndl = SetGPIOAsWkUp();
/* handles, if required, can be used to stop the timer, but not used here*/
UNUSED(tTimerHndl);
UNUSED(tGPIOHndl);
//
// setting Apps power policy
//
lp3p0_setup_power_policy(POWER_POLICY_STANDBY);
while(FOREVER)
{
//
// waits for the message from the various interrupt handlers(GPIO,
// Timer) and the UDPServerTask.
//
osi_MsgQRead(&g_tWkupSignalQueue, &ucQueueMsg, OSI_WAIT_FOREVER);
switch(ucQueueMsg){
case 1:
UART_PRINT("timer\n\r");
break;
case 2:
UART_PRINT("GPIO\n\r");
break;
case 3:
UART_PRINT("host irq\n\r");
break;
default:
UART_PRINT("invalid msg\n\r");
break;
}
}
}
//*****************************************************************************
//
//! main - calls Crypt function after populating either from pre- defined vector
//! or from User
//!
//! \param none
//!
//! \return none
//!
//*****************************************************************************
void
main()
{
unsigned long uiAdcInputPin;
unsigned int uiChannel;
unsigned int uiIndex=0;
unsigned long ulSample;
//
// Initialize Board configurations
//
BoardInit();
//
// Configuring UART for Receiving input and displaying output
// 1. PinMux setting
// 2. Initialize UART
// 3. Displaying Banner
//
PinMuxConfig();
InitTerm();
DisplayBanner(APP_NAME);
while(FOREVER)
{
//
// Initialize Array index for multiple execution
//
uiIndex=0;
//
// Read inputs from user
//
if(!ReadFromUser(&uiAdcInputPin))
{
UART_PRINT("\n\rInvalid Input. Please try again. HAHAHAHAHAHAHAHAHA\n\r");
continue;
}
#ifdef CC3200_ES_1_2_1
//
// Enable ADC clocks.###IMPORTANT###Need to be removed for PG 1.32
//
HWREG(GPRCM_BASE + GPRCM_O_ADC_CLK_CONFIG) = 0x00000043;
HWREG(ADC_BASE + ADC_O_ADC_CTRL) = 0x00000004;
HWREG(ADC_BASE + ADC_O_ADC_SPARE0) = 0x00000100;
HWREG(ADC_BASE + ADC_O_ADC_SPARE1) = 0x0355AA00;
#endif
//
// Pinmux for the selected ADC input pin
//
MAP_PinTypeADC(uiAdcInputPin,PIN_MODE_255);
//
// Convert pin number to channel number
//
switch(uiAdcInputPin)
{
case PIN_58:
uiChannel = ADC_CH_1;
break;
case PIN_59:
uiChannel = ADC_CH_2;
break;
case PIN_60:
uiChannel = ADC_CH_3;
break;
default:
break;
}
//
// Configure ADC timer which is used to timestamp the ADC data samples
//
MAP_ADCTimerConfig(ADC_BASE,2^17);
//
// Enable ADC timer which is used to timestamp the ADC data samples
//
MAP_ADCTimerEnable(ADC_BASE);
//
// Enable ADC module
//
MAP_ADCEnable(ADC_BASE);
//
// Enable ADC channel
//
MAP_ADCChannelEnable(ADC_BASE, uiChannel);
while(uiIndex < NO_OF_SAMPLES + 4)
{
if(MAP_ADCFIFOLvlGet(ADC_BASE, uiChannel))
{
ulSample = MAP_ADCFIFORead(ADC_BASE, uiChannel);
pulAdcSamples[uiIndex++] = ulSample;
}
}
MAP_ADCChannelDisable(ADC_BASE, uiChannel);
uiIndex = 0;
//UART_PRINT("\n\rTotal no of 32 bit ADC data printed :4096 \n\r");
//UART_PRINT("\n\rADC data format:\n\r");
//UART_PRINT("\n\rbits[13:2] : ADC sample\n\r");
//UART_PRINT("\n\rbits[31:14]: Time stamp of ADC sample \n\r");
//
// Print out ADC samples
//
while(uiIndex < NO_OF_SAMPLES)
{
UART_PRINT("\n\rVoltage is %f\n\r",(((float)((pulAdcSamples[4+uiIndex] >> 2 ) & 0x0FFF))*1.4)/4096);
uiIndex++;
}
//UART_PRINT("\n\rVoltage is %f\n\r",((pulAdcSamples[4] >> 2 ) & 0x0FFF)*1.4/4096);
UART_PRINT("\n\r");
}
}
int main()
{
long lRetVal = -1;
//
// Initialize Board configurations
//
BoardInit();
//
// Pinmuxing for GPIO,UART
//
PinMuxConfig();
//
// configure LEDs
//
GPIO_IF_LedConfigure(LED1|LED2|LED3);
GPIO_IF_LedOff(MCU_ALL_LED_IND);
#ifndef NOTERM
//
// Configuring UART
//
InitTerm();
#endif
//
// Display Welcome Message
//
DisplayBanner(APP_NAME);
// Generate Menu Output for Application
OutputMenu();
// Initialize AP security params
SecurityParams.Key = (signed char *)SECURITY_KEY;
SecurityParams.KeyLen = strlen(SECURITY_KEY);
SecurityParams.Type = SECURITY_TYPE;
uiUartCmd=0;
//
// Simplelinkspawntask
//
lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
lRetVal = osi_MsgQCreate(&g_PBQueue,"PBQueue",sizeof(tPushButtonMsg),1);
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
lRetVal = osi_TaskCreate(PushButtonHandler, \
(signed char*)"PushButtonHandler", \
OSI_STACK_SIZE , NULL, \
TASK_PRIORITY+2, &g_PushButtonTask );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
lRetVal = osi_TaskCreate(SimpleEmail, (signed char*)"SimpleEmail", \
OSI_STACK_SIZE, \
NULL, TASK_PRIORITY+1, NULL );
if(lRetVal < 0)
{
ERR_PRINT(lRetVal);
LOOP_FOREVER();
}
osi_start();
while(1)
{
}
}
//****************************************************************************
// MAIN FUNCTION
//****************************************************************************
void main()
{
long lRetVal = 0;
char data[BUF_SIZE];
char sent_data[BUF_SIZE];
unsigned char highByte, lowByte;
int i;
unsigned long tempStartTimeStamp, tempStopTimeStamp;
memset(sent_data, 0, 10);
// Board Initialization
BoardInit();
// Configure the pinmux settings for the peripherals exercised
PinMuxConfig();
// Initialize the PWM outputs on the board
InitServos();
// Initialize the sensor ADC
InitSensorADC();
// Configuring UART
InitTerm();
// Display banner
DisplayBanner(APPLICATION_NAME);
// Connect to WIFI using default info
//WlanConnect(NULL, NULL, NULL);
WlanConnect("Nagui's Network", "SL_SEC_TYPE_WPA", "19520605");
// Setup the TCP Server Socket
BsdTcpServerSetup(PORT_NUM);
// Recieve Data
while (lRetVal >= 0)
{
lRetVal = BsdTcpServerReceive(data);
//SysTickPeriodSet(800000000); // test
//SysTickEnable(); // test
Timer_IF_Init(PRCM_TIMERA0, TIMERA0_BASE, TIMER_CFG_PERIODIC, TIMER_A, 0);
Timer_IF_Start(TIMERA0_BASE, TIMER_A, MILLISECONDS_TO_TICKS(2000));
//tempStartTimeStamp = SysTickValueGet(); // test
tempStartTimeStamp = Timer_IF_GetCount(TIMERA0_BASE, TIMER_A);
for (i = 0; i<NUM_SERVOS; i++)
{
MoveServo((unsigned char)data[i], (enum Servo_Joint_Type)i);
UART_PRINT("%d", (unsigned int) data[i]);
}
for (i = 0; i< NUM_SENSORS; i++)
{
//UnsignedShort_to_UnsignedChar(GetSensorReading((enum Fingertip_Sensor_Type)i), &highByte, &lowByte);
UnsignedShort_to_UnsignedChar(GetSensorReading(SENSOR_FINGER_INDEX), &highByte, &lowByte);
sent_data[i*2] = (char)highByte;
sent_data[i*2+1] = (char)lowByte;
}
//tempStopTimeStamp = SysTickValueGet(); // test
tempStopTimeStamp = Timer_IF_GetCount(TIMERA0_BASE, TIMER_A);
lRetVal = BsdTcpServerSend(sent_data, 10);
UART_PRINT("timestamp start: %lu\n\r", tempStartTimeStamp); //test
UART_PRINT("timestamp stop: %lu\n\r", tempStopTimeStamp); //test
UART_PRINT("Sent 10 bytes to client.\n\r");
}
UART_PRINT("Exiting Application ...\n\r");
// power of the Network processor
lRetVal = sl_Stop(SL_STOP_TIMEOUT);
}
int PSPSaveDialog::Update(int animSpeed)
{
if (GetStatus() != SCE_UTILITY_STATUS_RUNNING)
return SCE_ERROR_UTILITY_INVALID_STATUS;
if (!param.GetPspParam()) {
ChangeStatusShutdown(SAVEDATA_SHUTDOWN_DELAY_US);
return 0;
}
if (pendingStatus != SCE_UTILITY_STATUS_RUNNING) {
// We're actually done, we're just waiting to tell the game that.
return 0;
}
// The struct may have been updated by the game. This happens in "Where Is My Heart?"
// Check if it has changed, reload it.
// TODO: Cut down on preloading? This rebuilds the list from scratch.
int size = Memory::Read_U32(requestAddr);
if (memcmp(Memory::GetPointer(requestAddr), &originalRequest, size) != 0) {
memset(&request, 0, sizeof(request));
Memory::Memcpy(&request, requestAddr, size);
Memory::Memcpy(&originalRequest, requestAddr, size);
lock_guard guard(paramLock);
param.SetPspParam(&request);
}
UpdateButtons();
UpdateFade(animSpeed);
okButtonImg = I_CIRCLE;
cancelButtonImg = I_CROSS;
okButtonFlag = CTRL_CIRCLE;
cancelButtonFlag = CTRL_CROSS;
if (param.GetPspParam()->common.buttonSwap == 1) {
okButtonImg = I_CROSS;
cancelButtonImg = I_CIRCLE;
okButtonFlag = CTRL_CROSS;
cancelButtonFlag = CTRL_CIRCLE;
}
I18NCategory *di = GetI18NCategory("Dialog");
switch (display)
{
case DS_SAVE_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
// Save exist, ask user confirm
if (param.GetFileInfo(currentSelectedSave).size > 0) {
yesnoChoice = 0;
display = DS_SAVE_CONFIRM_OVERWRITE;
} else {
display = DS_SAVE_SAVING;
StartIOThread();
}
}
EndDraw();
break;
case DS_SAVE_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Confirm Save", "Do you want to save this data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_SAVE_SAVING;
StartIOThread();
}
EndDraw();
break;
case DS_SAVE_CONFIRM_OVERWRITE:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Confirm Overwrite","Do you want to overwrite the data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
if (param.GetPspParam()->mode != SCE_UTILITY_SAVEDATA_TYPE_SAVE)
display = DS_SAVE_LIST_CHOICE;
else {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
}
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_SAVE_SAVING;
StartIOThread();
}
EndDraw();
break;
case DS_SAVE_SAVING:
if (ioThreadStatus != SAVEIO_PENDING) {
JoinIOThread();
}
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Saving","Saving\nPlease Wait..."));
DisplayBanner(DB_SAVE);
EndDraw();
break;
case DS_SAVE_FAILED:
JoinIOThread();
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("SavingFailed", "Unable to save data."));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag)) {
// Go back to the list so they can try again.
if (param.GetPspParam()->mode != SCE_UTILITY_SAVEDATA_TYPE_SAVE) {
display = DS_SAVE_LIST_CHOICE;
} else {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
}
}
EndDraw();
break;
case DS_SAVE_DONE:
if (ioThread) {
JoinIOThread();
param.SetPspParam(param.GetPspParam());
}
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Save completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_SAVE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_SUCCESS;
// Set the save to use for autosave and autoload
param.SetSelectedSave(param.GetFileInfo(currentSelectedSave).idx);
StartFade(false);
}
EndDraw();
break;
case DS_LOAD_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_LOAD_LOADING;
StartIOThread();
}
EndDraw();
break;
case DS_LOAD_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("ConfirmLoad", "Load this data?"), true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag) || (IsButtonPressed(okButtonFlag) && yesnoChoice == 0)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
display = DS_LOAD_LOADING;
StartIOThread();
}
EndDraw();
break;
case DS_LOAD_LOADING:
if (ioThreadStatus != SAVEIO_PENDING) {
JoinIOThread();
}
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Loading","Loading\nPlease Wait..."));
DisplayBanner(DB_LOAD);
EndDraw();
break;
case DS_LOAD_FAILED:
JoinIOThread();
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("LoadingFailed", "Unable to load data."));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
// Go back to the list so they can try again.
if (param.GetPspParam()->mode != SCE_UTILITY_SAVEDATA_TYPE_LOAD) {
display = DS_LOAD_LIST_CHOICE;
} else {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
}
}
EndDraw();
break;
case DS_LOAD_DONE:
JoinIOThread();
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("Load completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
// Allow OK to be pressed as well to confirm the save.
// The PSP only allows cancel, but that's generally not great UX.
// Allowing this here makes it quicker for most users to get into the actual game.
if (IsButtonPressed(cancelButtonFlag) || IsButtonPressed(okButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_SUCCESS;
// Set the save to use for autosave and autoload
param.SetSelectedSave(param.GetFileInfo(currentSelectedSave).idx);
StartFade(false);
}
EndDraw();
break;
case DS_LOAD_NODATA:
StartDraw();
DisplayMessage(di->T("There is no data"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_LOAD);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_LOAD_NO_DATA;
StartFade(false);
}
EndDraw();
break;
case DS_DELETE_LIST_CHOICE:
StartDraw();
DisplaySaveList();
DisplaySaveDataInfo1();
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_DIALOG_RESULT_CANCEL;
StartFade(false);
} else if (IsButtonPressed(okButtonFlag)) {
yesnoChoice = 0;
display = DS_DELETE_CONFIRM;
}
EndDraw();
break;
case DS_DELETE_CONFIRM:
StartDraw();
DisplaySaveIcon();
DisplaySaveDataInfo2();
DisplayMessage(di->T("DeleteConfirm",
"This save data will be deleted.\nAre you sure you want to continue?"),
true);
DisplayButtons(DS_BUTTON_OK | DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag))
display = DS_DELETE_LIST_CHOICE;
else if (IsButtonPressed(okButtonFlag)) {
if (yesnoChoice == 0)
display = DS_DELETE_LIST_CHOICE;
else {
display = DS_DELETE_DELETING;
StartIOThread();
}
}
EndDraw();
break;
case DS_DELETE_DELETING:
if (ioThreadStatus != SAVEIO_PENDING) {
JoinIOThread();
}
StartDraw();
DisplayMessage(di->T("Deleting","Deleting\nPlease Wait..."));
DisplayBanner(DB_DELETE);
EndDraw();
break;
case DS_DELETE_FAILED:
JoinIOThread();
StartDraw();
DisplayMessage(di->T("DeleteFailed", "Unable to delete data."));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
display = DS_DELETE_LIST_CHOICE;
}
EndDraw();
break;
case DS_DELETE_DONE:
if (ioThread) {
JoinIOThread();
param.SetPspParam(param.GetPspParam());
}
StartDraw();
DisplayMessage(di->T("Delete completed"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
if (param.GetFilenameCount() == 0)
display = DS_DELETE_NODATA;
else
display = DS_DELETE_LIST_CHOICE;
}
EndDraw();
break;
case DS_DELETE_NODATA:
StartDraw();
DisplayMessage(di->T("There is no data"));
DisplayButtons(DS_BUTTON_CANCEL);
DisplayBanner(DB_DELETE);
if (IsButtonPressed(cancelButtonFlag)) {
param.GetPspParam()->common.result = SCE_UTILITY_SAVEDATA_ERROR_DELETE_NO_DATA;
StartFade(false);
}
EndDraw();
break;
case DS_NONE: // For action which display nothing
switch (ioThreadStatus) {
case SAVEIO_NONE:
StartIOThread();
break;
case SAVEIO_PENDING:
case SAVEIO_DONE:
// To make sure there aren't any timing variations, we sync the next frame.
JoinIOThread();
ChangeStatus(SCE_UTILITY_STATUS_FINISHED, 0);
break;
}
break;
default:
ChangeStatus(SCE_UTILITY_STATUS_FINISHED, 0);
break;
}
if (status == SCE_UTILITY_STATUS_FINISHED || pendingStatus == SCE_UTILITY_STATUS_FINISHED)
Memory::Memcpy(requestAddr, &request, request.common.size);
return 0;
}
/*-----------------------------------------------------------------
* @Desc: the acutal Takeover game-playing is done here
*
*
*-----------------------------------------------------------------*/
void
PlayGame (void)
{
int countdown = 100; /* lenght of Game in 1/10 seconds */
char count_text[80];
int FinishTakeover = FALSE;
int row;
Uint32 prev_count_tick, count_tick_len; /* tick vars for count-down */
Uint32 prev_move_tick, move_tick_len; /* tick vars for motion */
Uint32 last_movekey_time, wait_move_ticks = 110; /* number of ticks to wait before "key-repeat" */
int up, down, set;
int up_counter, down_counter;
int wheel_up, wheel_down;
count_tick_len = 100; /* countdown in 1/10 second steps */
move_tick_len = 60; /* allow motion at this tick-speed in ms */
up = down = set = FALSE;
up_counter = down_counter = 0;
wheel_up = wheel_down = 0;
prev_count_tick = prev_move_tick = SDL_GetTicks (); /* start tick clock */
ResetMouseWheel (); // forget about previous wheel events
CountdownSound();
while (!FinishTakeover)
{
cur_time = SDL_GetTicks ();
/*
* here we register if there have been key-press events in the
* "waiting period" between move-ticks :
*/
if ( !up && UpPressed () )
{
up = TRUE;
last_movekey_time = SDL_GetTicks();
}
if (!down && DownPressed() )
{
down = TRUE;
last_movekey_time = SDL_GetTicks();
}
set = set || (SpacePressed() || MouseLeftPressed());
if (WheelUpPressed()) wheel_up ++;
if (WheelDownPressed()) wheel_down ++;
/* allow for a WIN-key that give immedate victory */
if ( KeyIsPressedR ('w') && CtrlPressed() && AltPressed() )
{
LeaderColor = YourColor; /* simple as that */
return; /* leave now, to avoid changing of LeaderColor! */
}
if ( cur_time > prev_count_tick + count_tick_len ) /* time to count 1 down */
{
prev_count_tick += count_tick_len; /* set for next countdown tick */
countdown--;
sprintf (count_text, "Finish-%d", countdown);
DisplayBanner (count_text, NULL , 0 );
if (countdown && (countdown%10 == 0) ) CountdownSound();
if (countdown == 0)
{
EndCountdownSound();
FinishTakeover = TRUE;
}
AnimateCurrents (); /* do some animation on the active cables */
} /* if (countdown_tick has occurred) */
/* time for movement */
if ( cur_time > prev_move_tick + move_tick_len )
{
prev_move_tick += move_tick_len; /* set for next motion tick */
EnemyMovements ();
if (wheel_up || (up && (SDL_GetTicks() - last_movekey_time > wait_move_ticks)))
{
CapsuleCurRow[YourColor]--;
if (CapsuleCurRow[YourColor] < 1)
CapsuleCurRow[YourColor] = NUM_LINES;
if (!UpPressed()) up = FALSE;
if (wheel_up) wheel_up --;
}
if (wheel_down || (down && (SDL_GetTicks() - last_movekey_time > wait_move_ticks)))
{
CapsuleCurRow[YourColor]++;
if (CapsuleCurRow[YourColor] > NUM_LINES)
CapsuleCurRow[YourColor] = 1;
if (!DownPressed()) down = FALSE;
if (wheel_down) wheel_down --;
}
if ( set && (NumCapsules[YOU] > 0))
{
set = FALSE;
row = CapsuleCurRow[YourColor] - 1;
if ((row >= 0) &&
(ToPlayground[YourColor][0][row] != KABELENDE) &&
(ActivationMap[YourColor][0][row] == INACTIVE))
{
NumCapsules[YOU]--;
CapsuleCurRow[YourColor] = 0;
ToPlayground[YourColor][0][row] = VERSTAERKER;
ActivationMap[YourColor][0][row] = ACTIVE1;
CapsuleCountdown[YourColor][0][row] = CAPSULE_COUNTDOWN * 2;
Takeover_Set_Capsule_Sound ();
} /* if (row > 0 && ... ) */
} /* if ( set ) */
ProcessCapsules (); /* count down the lifetime of the capsules */
ProcessPlayground ();
ProcessPlayground ();
ProcessPlayground ();
ProcessPlayground (); /* this has to be done several times to be sure */
ProcessDisplayColumn ();
} /* if (motion_tick has occurred) */
ShowPlayground ();
} /* while !FinishTakeover */
/* Schluss- Countdown */
countdown = CAPSULE_COUNTDOWN;
while (countdown--)
{
while ( SDL_GetTicks() < prev_count_tick + count_tick_len ) ;
prev_count_tick += count_tick_len;
ProcessCapsules (); /* count down the lifetime of the capsules */
ProcessCapsules (); /* do it twice this time to be faster */
AnimateCurrents ();
ProcessPlayground ();
ProcessPlayground ();
ProcessPlayground ();
ProcessPlayground (); /* this has to be done several times to be sure */
ProcessDisplayColumn ();
ShowPlayground ();
} /* while (countdown) */
return;
} /* PlayGame() */
/*-----------------------------------------------------------------
* @Desc: play takeover-game against a druid
*
* @Ret: TRUE/FALSE: user has won/lost
*
*-----------------------------------------------------------------*/
int
Takeover (int enemynum)
{
int row;
int FinishTakeover = FALSE;
static int RejectEnergy = 0; /* your energy if you're rejected */
char *message;
SDL_Rect buf;
Uint32 now;
/* Prevent distortion of framerate by the delay coming from
* the time spend in the menu.
*/
Activate_Conservative_Frame_Computation ();
// release fire keys
SpacePressedR();
MouseLeftPressedR();
// Takeover game always uses Classic User_Rect:
Copy_Rect (User_Rect, buf);
Copy_Rect (Classic_User_Rect, User_Rect);
DisplayBanner (NULL, NULL, BANNER_FORCE_UPDATE );
Fill_Rect (User_Rect, to_bg_color);
Me.status = MOBILE; /* the new status _after_ the takeover game */
SDL_ShowCursor (SDL_DISABLE); // no mouse-cursor in takeover game!
show_droid_info ( Me.type, -1 , 0);
show_droid_portrait (Cons_Droid_Rect, Me.type, DROID_ROTATION_TIME, UPDATE);
while (!FirePressedR())
show_droid_portrait (Cons_Droid_Rect, Me.type, DROID_ROTATION_TIME, 0);
show_droid_info ( AllEnemys[enemynum].type, -2 ,0);
show_droid_portrait (Cons_Droid_Rect, AllEnemys[enemynum].type, DROID_ROTATION_TIME, UPDATE);
while (!FirePressedR())
show_droid_portrait (Cons_Droid_Rect, AllEnemys[enemynum].type, DROID_ROTATION_TIME, 0);
SDL_BlitSurface (takeover_bg_pic, NULL, ne_screen, NULL);
DisplayBanner (NULL, NULL, BANNER_FORCE_UPDATE );
while (!FinishTakeover)
{
/* Init Color-column and Capsule-Number for each opponenet and your color */
for (row = 0; row < NUM_LINES; row++)
{
DisplayColumn[row] = (row % 2);
CapsuleCountdown[GELB][0][row] = -1;
CapsuleCountdown[VIOLETT][0][row] = -1;
} /* for row */
YourColor = GELB;
OpponentColor = VIOLETT;
CapsuleCurRow[GELB] = 0;
CapsuleCurRow[VIOLETT] = 0;
DroidNum = enemynum;
OpponentType = AllEnemys[enemynum].type;
NumCapsules[YOU] = 3 + ClassOfDruid (Me.type);
NumCapsules[ENEMY] = 4 + ClassOfDruid (OpponentType);
InventPlayground ();
ShowPlayground ();
ChooseColor ();
PlayGame ();
/* Ausgang beurteilen und returnen */
if (InvincibleMode || (LeaderColor == YourColor))
{
Takeover_Game_Won_Sound ();
if (Me.type == DRUID001)
{
RejectEnergy = Me.energy;
PreTakeEnergy = Me.energy;
}
// We provide some security agains too high energy/health values gained
// by very rapid successions of successful takeover attempts
if (Me.energy > Druidmap[DRUID001].maxenergy) Me.energy = Druidmap[DRUID001].maxenergy;
if (Me.health > Druidmap[DRUID001].maxenergy) Me.health = Druidmap[DRUID001].maxenergy;
// We allow to gain the current energy/full health that was still in the
// other droid, since all previous damage must be due to fighting damage,
// and this is exactly the sort of damage can usually be cured in refreshes.
Me.energy += AllEnemys[enemynum].energy;
Me.health += Druidmap[OpponentType].maxenergy;
Me.type = AllEnemys[enemynum].type;
RealScore += Druidmap[OpponentType].score;
DeathCount += OpponentType * OpponentType; // quadratic "importance", max=529
AllEnemys[enemynum].status = OUT; // removed droid silently (no blast!)
if (LeaderColor != YourColor) /* only won because of InvincibleMode */
message = "You cheat";
else /* won the proper way */
message = "Complete";
FinishTakeover = TRUE;
} /* LeaderColor == YourColor */
else if (LeaderColor == OpponentColor)
{
// you lost, but enemy is killed too --> blast it!
AllEnemys[enemynum].energy = -1.0; /* to be sure */
Takeover_Game_Lost_Sound ();
if (Me.type != DRUID001)
{
message = "Rejected";
Me.type = DRUID001;
Me.energy = RejectEnergy;
}
else
{
message = "Burnt Out";
Me.energy = 0;
}
FinishTakeover = TRUE;
} /* LeadColor == OpponentColor */
else
{
Takeover_Game_Deadlock_Sound ();
message = "Deadlock";
} /* LeadColor == REMIS */
DisplayBanner (message, NULL , 0 );
ShowPlayground ();
now = SDL_GetTicks();
while ((!FirePressedR()) && (SDL_GetTicks() - now < SHOW_WAIT) ) SDL_Delay(1);
} /* while !FinishTakeover */
// restore User_Rect
Copy_Rect (buf, User_Rect);
ClearGraphMem();
SDL_Flip(ne_screen);
if (LeaderColor == YourColor)
return TRUE;
else
return FALSE;
} /* Takeover() */
//*****************************************************************************
//
//! Main Function
//
//*****************************************************************************
int main()
{
//
// Initialize Board configurations
//
BoardInit();
//
// Pinmux for UART
//
PinMuxConfig();
//
// Configuring UART
//
InitTerm();
//
// Display Application Banner
//
DisplayBanner(APP_NAME);
//
// Enable pull down
//
MAP_PinConfigSet(PIN_05,PIN_TYPE_STD_PD,PIN_STRENGTH_6MA);
//
// Register timer interrupt hander
//
MAP_TimerIntRegister(TIMERA2_BASE,TIMER_A,TimerIntHandler);
//
// Configure the timer in edge count mode
//
MAP_TimerConfigure(TIMERA2_BASE, (TIMER_CFG_SPLIT_PAIR | TIMER_CFG_A_CAP_TIME));
//
// Set the detection edge
//
MAP_TimerControlEvent(TIMERA2_BASE,TIMER_A,TIMER_EVENT_POS_EDGE);
//
// Set the reload value
//
MAP_TimerLoadSet(TIMERA2_BASE,TIMER_A,0xffff);
//
// Enable capture event interrupt
//
MAP_TimerIntEnable(TIMERA2_BASE,TIMER_CAPA_EVENT);
//
// Enable Timer
//
MAP_TimerEnable(TIMERA2_BASE,TIMER_A);
while(1)
{
//
// Report the calculate frequency
//
Report("Frequency : %d Hz\n\n\r",g_ulFreq);
//
// Delay loop
//
MAP_UtilsDelay(80000000/5);
}
}
int main()
{
unsigned char ucP2PParam[4];
long lRetVal = -1;
//
// Initialize Board configurations
//
BoardInit();
//
// Pinmuxing for GPIO, UART
//
PinMuxConfig();
//
// configure LEDs
//
GPIO_IF_LedConfigure(LED1|LED2|LED3);
// off all LEDs
GPIO_IF_LedOff(MCU_ALL_LED_IND);
#ifndef NOTERM
//
// Configuring UART
//
InitTerm();
#endif
//
// Display the Application Banner
//
DisplayBanner(APP_NAME);
UART_PRINT("Scan Wi-FI direct device in your handheld device\n\r");
// Initializing the CC3200 device
lRetVal = StartDeviceInP2P();
if(lRetVal < 0)
{
LOOP_FOREVER(__LINE__);
}
// Set any p2p option (SL_CONNECTION_POLICY(0,0,0,any_p2p,0)) to connect to
// first available p2p device
sl_WlanPolicySet(SL_POLICY_CONNECTION,SL_CONNECTION_POLICY(1,0,0,0,0),NULL,0);
// Set the negotiation role (SL_P2P_ROLE_NEGOTIATE).
// CC3200 will negotiate with remote device GO/client mode.
// Other valid options are:
// - SL_P2P_ROLE_GROUP_OWNER
// - SL_P2P_ROLE_CLIENT
sl_WlanPolicySet(SL_POLICY_P2P, SL_P2P_POLICY(SL_P2P_ROLE_NEGOTIATE,
SL_P2P_NEG_INITIATOR_ACTIVE),NULL,0);
// Set P2P Device name
sl_NetAppSet(SL_NET_APP_DEVICE_CONFIG_ID, NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN,
strlen(P2P_DEVICE_NAME), (unsigned char *)P2P_DEVICE_NAME);
// Set P2P device type
sl_WlanSet(SL_WLAN_CFG_P2P_PARAM_ID, WLAN_P2P_OPT_DEV_TYPE,
strlen(P2P_CONFIG_VALUE), (unsigned char*)P2P_CONFIG_VALUE);
// setting P2P channel parameters
ucP2PParam[0] = LISENING_CHANNEL;
ucP2PParam[1] = REGULATORY_CLASS;
ucP2PParam[2] = OPERATING_CHANNEL;
ucP2PParam[3] = REGULATORY_CLASS;
// Set P2P Device listen and open channel valid channels are 1/6/11
sl_WlanSet(SL_WLAN_CFG_P2P_PARAM_ID, WLAN_P2P_OPT_CHANNEL_N_REGS,
sizeof(ucP2PParam), ucP2PParam);
// Restart as P2P device
sl_Stop(SL_STOP_TIMEOUT);
lRetVal = sl_Start(NULL,NULL,NULL);
if(lRetVal < 0 || lRetVal != ROLE_P2P)
{
UART_PRINT("Failed to start the device \n\r");
LOOP_FOREVER(__LINE__);
}
else
{
UART_PRINT("Connect to %s \n\r",P2P_DEVICE_NAME);
}
/* Connect to configure P2P device */
lRetVal = WlanConnect();
if(lRetVal == 0)
{
GPIO_IF_LedOn(MCU_IP_ALLOC_IND);
}
else
{
UART_PRINT("Reset the device and try again\n\r");
LOOP_FOREVER(__LINE__);
}
DisplayIP();
UART_PRINT("Send TCP packets from your handheld device to CC3200's IP\n\r");
/*After calling this function, you can start sending data to CC3200 IP
* address on PORT_NUM */
if(!(IS_CONNECT_FAILED(g_ulStatus)))
BsdTcpServer(PORT_NUM);
UART_PRINT("Received TCP packets successfully \n\r");
// revert Device into STA mode and power off Network Processor
sl_WlanSetMode(ROLE_STA);
sl_Stop(SL_STOP_TIMEOUT);
UART_PRINT("Test passed, exiting application... \n\r");
while(1)
{
_SlNonOsMainLoopTask();
}
}
